partition stringclasses 3 values | func_name stringlengths 1 134 | docstring stringlengths 1 46.9k | path stringlengths 4 223 | original_string stringlengths 75 104k | code stringlengths 75 104k | docstring_tokens listlengths 1 1.97k | repo stringlengths 7 55 | language stringclasses 1 value | url stringlengths 87 315 | code_tokens listlengths 19 28.4k | sha stringlengths 40 40 |
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train | peak_signal_to_noise_ratio | Image quality metric based on maximal signal power vs. power of the noise.
Args:
true: the ground truth image.
pred: the predicted image.
Returns:
peak signal to noise ratio (PSNR) | tensor2tensor/models/video/epva.py | def peak_signal_to_noise_ratio(true, pred):
"""Image quality metric based on maximal signal power vs. power of the noise.
Args:
true: the ground truth image.
pred: the predicted image.
Returns:
peak signal to noise ratio (PSNR)
"""
return 10.0 * tf.log(1.0 / mean_squared_error(true, pred)) / tf.log(10.0) | def peak_signal_to_noise_ratio(true, pred):
"""Image quality metric based on maximal signal power vs. power of the noise.
Args:
true: the ground truth image.
pred: the predicted image.
Returns:
peak signal to noise ratio (PSNR)
"""
return 10.0 * tf.log(1.0 / mean_squared_error(true, pred)) / tf.log(10.0) | [
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train | mean_squared_error | L2 distance between tensors true and pred.
Args:
true: the ground truth image.
pred: the predicted image.
Returns:
mean squared error between ground truth and predicted image. | tensor2tensor/models/video/epva.py | def mean_squared_error(true, pred):
"""L2 distance between tensors true and pred.
Args:
true: the ground truth image.
pred: the predicted image.
Returns:
mean squared error between ground truth and predicted image.
"""
result = tf.reduce_sum(
tf.squared_difference(true, pred)) / tf.to_float(tf.size(pred))
return result | def mean_squared_error(true, pred):
"""L2 distance between tensors true and pred.
Args:
true: the ground truth image.
pred: the predicted image.
Returns:
mean squared error between ground truth and predicted image.
"""
result = tf.reduce_sum(
tf.squared_difference(true, pred)) / tf.to_float(tf.size(pred))
return result | [
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train | l1_error | L1 distance between tensors true and pred. | tensor2tensor/models/video/epva.py | def l1_error(true, pred):
"""L1 distance between tensors true and pred."""
return tf.reduce_sum(tf.abs(true - pred)) / tf.to_float(tf.size(pred)) | def l1_error(true, pred):
"""L1 distance between tensors true and pred."""
return tf.reduce_sum(tf.abs(true - pred)) / tf.to_float(tf.size(pred)) | [
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train | calc_loss_psnr | Calculates loss and psnr for predictions over multiple timesteps. | tensor2tensor/models/video/epva.py | def calc_loss_psnr(gen_images, images, name, hparams=None, use_l1_loss=False):
"""Calculates loss and psnr for predictions over multiple timesteps."""
del hparams
with tf.name_scope(name):
loss, error, psnr_all = 0.0, 0.0, 0.0
for _, x, gx in zip(range(len(gen_images)), images, gen_images):
recon_cost = mean_squared_error(x, gx)
if use_l1_loss:
recon_cost = l1_error(x, gx)
error_i = l1_error(x, gx)
psnr_i = peak_signal_to_noise_ratio(x, gx)
psnr_all += psnr_i
error += error_i
loss += recon_cost
psnr_all /= tf.to_float(len(gen_images))
loss /= tf.to_float(len(gen_images))
error /= tf.to_float(len(gen_images))
# if not hparams.use_tpu:
tf.summary.scalar('psnr_all', psnr_all)
tf.summary.scalar('loss', loss)
return loss, psnr_all | def calc_loss_psnr(gen_images, images, name, hparams=None, use_l1_loss=False):
"""Calculates loss and psnr for predictions over multiple timesteps."""
del hparams
with tf.name_scope(name):
loss, error, psnr_all = 0.0, 0.0, 0.0
for _, x, gx in zip(range(len(gen_images)), images, gen_images):
recon_cost = mean_squared_error(x, gx)
if use_l1_loss:
recon_cost = l1_error(x, gx)
error_i = l1_error(x, gx)
psnr_i = peak_signal_to_noise_ratio(x, gx)
psnr_all += psnr_i
error += error_i
loss += recon_cost
psnr_all /= tf.to_float(len(gen_images))
loss /= tf.to_float(len(gen_images))
error /= tf.to_float(len(gen_images))
# if not hparams.use_tpu:
tf.summary.scalar('psnr_all', psnr_all)
tf.summary.scalar('loss', loss)
return loss, psnr_all | [
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train | next_frame_sv2p | SV2P model hparams. | tensor2tensor/models/video/sv2p_params.py | def next_frame_sv2p():
"""SV2P model hparams."""
hparams = basic_stochastic.next_frame_basic_stochastic()
hparams.optimizer = "true_adam"
hparams.learning_rate_schedule = "constant"
hparams.learning_rate_constant = 1e-3
hparams.video_num_input_frames = 1
hparams.video_num_target_frames = 3
hparams.batch_size = 16
hparams.bottom = {
"inputs": modalities.video_raw_bottom,
"targets": modalities.video_raw_targets_bottom,
}
hparams.loss = {
"targets": modalities.video_l2_raw_loss,
}
hparams.top = {
"targets": modalities.video_raw_top,
}
hparams.video_modality_loss_cutoff = 0.0
hparams.scheduled_sampling_mode = "count"
hparams.scheduled_sampling_k = 900.0
hparams.add_hparam("reward_prediction", True)
hparams.add_hparam("reward_prediction_stop_gradient", False)
hparams.add_hparam("reward_prediction_buffer_size", 0)
hparams.add_hparam("model_options", "CDNA")
hparams.add_hparam("num_masks", 10)
hparams.add_hparam("multi_latent", False)
hparams.add_hparam("relu_shift", 1e-12)
hparams.add_hparam("dna_kernel_size", 5)
hparams.add_hparam("upsample_method", "conv2d_transpose")
hparams.add_hparam("reward_model", "basic")
hparams.add_hparam("visualize_logits_histogram", True)
return hparams | def next_frame_sv2p():
"""SV2P model hparams."""
hparams = basic_stochastic.next_frame_basic_stochastic()
hparams.optimizer = "true_adam"
hparams.learning_rate_schedule = "constant"
hparams.learning_rate_constant = 1e-3
hparams.video_num_input_frames = 1
hparams.video_num_target_frames = 3
hparams.batch_size = 16
hparams.bottom = {
"inputs": modalities.video_raw_bottom,
"targets": modalities.video_raw_targets_bottom,
}
hparams.loss = {
"targets": modalities.video_l2_raw_loss,
}
hparams.top = {
"targets": modalities.video_raw_top,
}
hparams.video_modality_loss_cutoff = 0.0
hparams.scheduled_sampling_mode = "count"
hparams.scheduled_sampling_k = 900.0
hparams.add_hparam("reward_prediction", True)
hparams.add_hparam("reward_prediction_stop_gradient", False)
hparams.add_hparam("reward_prediction_buffer_size", 0)
hparams.add_hparam("model_options", "CDNA")
hparams.add_hparam("num_masks", 10)
hparams.add_hparam("multi_latent", False)
hparams.add_hparam("relu_shift", 1e-12)
hparams.add_hparam("dna_kernel_size", 5)
hparams.add_hparam("upsample_method", "conv2d_transpose")
hparams.add_hparam("reward_model", "basic")
hparams.add_hparam("visualize_logits_histogram", True)
return hparams | [
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train | next_frame_sv2p_discrete | SV2P discrete model hparams. | tensor2tensor/models/video/sv2p_params.py | def next_frame_sv2p_discrete():
"""SV2P discrete model hparams."""
hparams = next_frame_sv2p()
hparams.action_injection = "multiplicative"
hparams.small_mode = True
hparams.add_hparam("bottleneck_bits", 128)
hparams.add_hparam("bottleneck_noise", 0.02)
hparams.add_hparam("discrete_warmup_steps", 40000)
hparams.add_hparam("full_latent_tower", False)
hparams.add_hparam("latent_predictor_state_size", 128)
hparams.add_hparam("latent_predictor_temperature", 0.5)
hparams.add_hparam("discretize_warmup_steps", 40000)
return hparams | def next_frame_sv2p_discrete():
"""SV2P discrete model hparams."""
hparams = next_frame_sv2p()
hparams.action_injection = "multiplicative"
hparams.small_mode = True
hparams.add_hparam("bottleneck_bits", 128)
hparams.add_hparam("bottleneck_noise", 0.02)
hparams.add_hparam("discrete_warmup_steps", 40000)
hparams.add_hparam("full_latent_tower", False)
hparams.add_hparam("latent_predictor_state_size", 128)
hparams.add_hparam("latent_predictor_temperature", 0.5)
hparams.add_hparam("discretize_warmup_steps", 40000)
return hparams | [
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train | next_frame_sv2p_atari | SV2P model for atari. | tensor2tensor/models/video/sv2p_params.py | def next_frame_sv2p_atari():
"""SV2P model for atari."""
hparams = next_frame_sv2p()
hparams.video_num_input_frames = 4
hparams.video_num_target_frames = 4
hparams.action_injection = "multiplicative"
hparams.num_iterations_1st_stage = 12000
hparams.num_iterations_2nd_stage = 12000
hparams.anneal_end = 40000
hparams.latent_loss_multiplier_schedule = "noisy_linear_cosine_decay"
hparams.latent_loss_multiplier = 1e-3
hparams.information_capacity = 0.0
hparams.small_mode = True
return hparams | def next_frame_sv2p_atari():
"""SV2P model for atari."""
hparams = next_frame_sv2p()
hparams.video_num_input_frames = 4
hparams.video_num_target_frames = 4
hparams.action_injection = "multiplicative"
hparams.num_iterations_1st_stage = 12000
hparams.num_iterations_2nd_stage = 12000
hparams.anneal_end = 40000
hparams.latent_loss_multiplier_schedule = "noisy_linear_cosine_decay"
hparams.latent_loss_multiplier = 1e-3
hparams.information_capacity = 0.0
hparams.small_mode = True
return hparams | [
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train | next_frame_sv2p_atari_softmax | SV2P model for atari with softmax. | tensor2tensor/models/video/sv2p_params.py | def next_frame_sv2p_atari_softmax():
"""SV2P model for atari with softmax."""
hparams = next_frame_sv2p_atari()
hparams.bottom = {}
hparams.loss = {}
hparams.top = {}
hparams.internal_loss = True
return hparams | def next_frame_sv2p_atari_softmax():
"""SV2P model for atari with softmax."""
hparams = next_frame_sv2p_atari()
hparams.bottom = {}
hparams.loss = {}
hparams.top = {}
hparams.internal_loss = True
return hparams | [
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train | next_frame_sv2p_tiny | Tiny SV2P model. | tensor2tensor/models/video/sv2p_params.py | def next_frame_sv2p_tiny():
"""Tiny SV2P model."""
hparams = next_frame_sv2p_atari_softmax()
hparams.batch_size = 2
hparams.tiny_mode = True
hparams.num_masks = 1
hparams.video_modality_loss_cutoff = 0.4
hparams.video_num_input_frames = 4
hparams.video_num_target_frames = 4
return hparams | def next_frame_sv2p_tiny():
"""Tiny SV2P model."""
hparams = next_frame_sv2p_atari_softmax()
hparams.batch_size = 2
hparams.tiny_mode = True
hparams.num_masks = 1
hparams.video_modality_loss_cutoff = 0.4
hparams.video_num_input_frames = 4
hparams.video_num_target_frames = 4
return hparams | [
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train | next_frame_sv2p_cutoff | SV2P model with additional cutoff in L2 loss for environments like pong. | tensor2tensor/models/video/sv2p_params.py | def next_frame_sv2p_cutoff():
"""SV2P model with additional cutoff in L2 loss for environments like pong."""
hparams = next_frame_sv2p()
hparams.video_modality_loss_cutoff = 0.4
hparams.video_num_input_frames = 4
hparams.video_num_target_frames = 1
return hparams | def next_frame_sv2p_cutoff():
"""SV2P model with additional cutoff in L2 loss for environments like pong."""
hparams = next_frame_sv2p()
hparams.video_modality_loss_cutoff = 0.4
hparams.video_num_input_frames = 4
hparams.video_num_target_frames = 1
return hparams | [
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train | _get_mscoco | Download and extract MSCOCO datasets to directory unless it is there. | tensor2tensor/data_generators/mscoco.py | def _get_mscoco(directory):
"""Download and extract MSCOCO datasets to directory unless it is there."""
for url in _MSCOCO_URLS:
filename = os.path.basename(url)
download_url = os.path.join(_MSCOCO_ROOT_URL, url)
path = generator_utils.maybe_download(directory, filename, download_url)
unzip_dir = os.path.join(directory, filename.strip(".zip"))
if not tf.gfile.Exists(unzip_dir):
zipfile.ZipFile(path, "r").extractall(directory) | def _get_mscoco(directory):
"""Download and extract MSCOCO datasets to directory unless it is there."""
for url in _MSCOCO_URLS:
filename = os.path.basename(url)
download_url = os.path.join(_MSCOCO_ROOT_URL, url)
path = generator_utils.maybe_download(directory, filename, download_url)
unzip_dir = os.path.join(directory, filename.strip(".zip"))
if not tf.gfile.Exists(unzip_dir):
zipfile.ZipFile(path, "r").extractall(directory) | [
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train | mscoco_generator | Image generator for MSCOCO captioning problem with token-wise captions.
Args:
data_dir: path to the data directory.
tmp_dir: path to temporary storage directory.
training: a Boolean; if true, we use the train set, otherwise the test set.
how_many: how many images and labels to generate.
start_from: from which image to start.
eos_list: optional list of end of sentence tokens, otherwise use default
value `1`.
vocab_filename: file within `tmp_dir` to read vocabulary from.
Yields:
A dictionary representing the images with the following fields:
* image/encoded: the string encoding the image as JPEG,
* image/format: the string "jpeg" representing image format,
* image/class/label: a list of integers representing the caption,
* image/height: an integer representing the height,
* image/width: an integer representing the width.
Every field is actually a list of the corresponding type. | tensor2tensor/data_generators/mscoco.py | def mscoco_generator(data_dir,
tmp_dir,
training,
how_many,
start_from=0,
eos_list=None,
vocab_filename=None):
"""Image generator for MSCOCO captioning problem with token-wise captions.
Args:
data_dir: path to the data directory.
tmp_dir: path to temporary storage directory.
training: a Boolean; if true, we use the train set, otherwise the test set.
how_many: how many images and labels to generate.
start_from: from which image to start.
eos_list: optional list of end of sentence tokens, otherwise use default
value `1`.
vocab_filename: file within `tmp_dir` to read vocabulary from.
Yields:
A dictionary representing the images with the following fields:
* image/encoded: the string encoding the image as JPEG,
* image/format: the string "jpeg" representing image format,
* image/class/label: a list of integers representing the caption,
* image/height: an integer representing the height,
* image/width: an integer representing the width.
Every field is actually a list of the corresponding type.
"""
eos_list = [1] if eos_list is None else eos_list
def get_vocab():
"""Get vocab for caption text encoder."""
if data_dir is not None and vocab_filename is not None:
vocab_filepath = os.path.join(data_dir, vocab_filename)
if tf.gfile.Exists(vocab_filepath):
tf.logging.info("Found vocab file: %s", vocab_filepath)
vocab_symbolizer = text_encoder.SubwordTextEncoder(vocab_filepath)
return vocab_symbolizer
else:
raise ValueError("Vocab file does not exist: %s" % vocab_filepath)
return None
vocab_symbolizer = get_vocab()
_get_mscoco(tmp_dir)
caption_filepath = (
_MSCOCO_TRAIN_CAPTION_FILE if training else _MSCOCO_EVAL_CAPTION_FILE)
caption_filepath = os.path.join(tmp_dir, caption_filepath)
prefix = _MSCOCO_TRAIN_PREFIX if training else _MSCOCO_EVAL_PREFIX
caption_file = io.open(caption_filepath)
caption_json = json.load(caption_file)
# Dictionary from image_id to ((filename, height, width), captions).
image_dict = {}
for image in caption_json["images"]:
image_dict[image["id"]] = [(image["file_name"], image["height"],
image["width"]), []]
annotations = caption_json["annotations"]
annotation_count = len(annotations)
image_count = len(image_dict)
tf.logging.info("Processing %d images and %d labels\n" % (image_count,
annotation_count))
for annotation in annotations:
image_id = annotation["image_id"]
image_dict[image_id][1].append(annotation["caption"])
data = list(image_dict.values())[start_from:start_from + how_many]
random.shuffle(data)
for image_info, labels in data:
image_filename = image_info[0]
image_filepath = os.path.join(tmp_dir, prefix, image_filename)
with tf.gfile.Open(image_filepath, "rb") as f:
encoded_image_data = f.read()
height, width = image_info[1], image_info[2]
for label in labels:
if vocab_filename is None or vocab_symbolizer is None:
label = [ord(c) for c in label] + eos_list
else:
label = vocab_symbolizer.encode(label) + eos_list
yield {
"image/encoded": [encoded_image_data],
"image/format": ["jpeg"],
"image/class/label": label,
"image/height": [height],
"image/width": [width]
} | def mscoco_generator(data_dir,
tmp_dir,
training,
how_many,
start_from=0,
eos_list=None,
vocab_filename=None):
"""Image generator for MSCOCO captioning problem with token-wise captions.
Args:
data_dir: path to the data directory.
tmp_dir: path to temporary storage directory.
training: a Boolean; if true, we use the train set, otherwise the test set.
how_many: how many images and labels to generate.
start_from: from which image to start.
eos_list: optional list of end of sentence tokens, otherwise use default
value `1`.
vocab_filename: file within `tmp_dir` to read vocabulary from.
Yields:
A dictionary representing the images with the following fields:
* image/encoded: the string encoding the image as JPEG,
* image/format: the string "jpeg" representing image format,
* image/class/label: a list of integers representing the caption,
* image/height: an integer representing the height,
* image/width: an integer representing the width.
Every field is actually a list of the corresponding type.
"""
eos_list = [1] if eos_list is None else eos_list
def get_vocab():
"""Get vocab for caption text encoder."""
if data_dir is not None and vocab_filename is not None:
vocab_filepath = os.path.join(data_dir, vocab_filename)
if tf.gfile.Exists(vocab_filepath):
tf.logging.info("Found vocab file: %s", vocab_filepath)
vocab_symbolizer = text_encoder.SubwordTextEncoder(vocab_filepath)
return vocab_symbolizer
else:
raise ValueError("Vocab file does not exist: %s" % vocab_filepath)
return None
vocab_symbolizer = get_vocab()
_get_mscoco(tmp_dir)
caption_filepath = (
_MSCOCO_TRAIN_CAPTION_FILE if training else _MSCOCO_EVAL_CAPTION_FILE)
caption_filepath = os.path.join(tmp_dir, caption_filepath)
prefix = _MSCOCO_TRAIN_PREFIX if training else _MSCOCO_EVAL_PREFIX
caption_file = io.open(caption_filepath)
caption_json = json.load(caption_file)
# Dictionary from image_id to ((filename, height, width), captions).
image_dict = {}
for image in caption_json["images"]:
image_dict[image["id"]] = [(image["file_name"], image["height"],
image["width"]), []]
annotations = caption_json["annotations"]
annotation_count = len(annotations)
image_count = len(image_dict)
tf.logging.info("Processing %d images and %d labels\n" % (image_count,
annotation_count))
for annotation in annotations:
image_id = annotation["image_id"]
image_dict[image_id][1].append(annotation["caption"])
data = list(image_dict.values())[start_from:start_from + how_many]
random.shuffle(data)
for image_info, labels in data:
image_filename = image_info[0]
image_filepath = os.path.join(tmp_dir, prefix, image_filename)
with tf.gfile.Open(image_filepath, "rb") as f:
encoded_image_data = f.read()
height, width = image_info[1], image_info[2]
for label in labels:
if vocab_filename is None or vocab_symbolizer is None:
label = [ord(c) for c in label] + eos_list
else:
label = vocab_symbolizer.encode(label) + eos_list
yield {
"image/encoded": [encoded_image_data],
"image/format": ["jpeg"],
"image/class/label": label,
"image/height": [height],
"image/width": [width]
} | [
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train | flags_as_args | Convert FLAGS to list of args suitable for passing on cmd line. | tensor2tensor/utils/cloud_mlengine.py | def flags_as_args():
"""Convert FLAGS to list of args suitable for passing on cmd line."""
if hasattr(FLAGS, "flag_values_dict"):
args_dict = FLAGS.flag_values_dict()
else:
args_dict = dict(FLAGS.__dict__["__flags"])
del args_dict["cloud_mlengine"]
# Configured later
del args_dict["t2t_usr_dir"]
args_dict.pop("h", None)
args_dict.pop("helpfull", None)
args_dict.pop("helpshort", None)
args_dict.pop("help", None)
args = []
for name, val in args_dict.items():
if val is None:
continue
if name.startswith("autotune"):
continue
args.extend(["--%s=%s" % (name, str(val))])
return args | def flags_as_args():
"""Convert FLAGS to list of args suitable for passing on cmd line."""
if hasattr(FLAGS, "flag_values_dict"):
args_dict = FLAGS.flag_values_dict()
else:
args_dict = dict(FLAGS.__dict__["__flags"])
del args_dict["cloud_mlengine"]
# Configured later
del args_dict["t2t_usr_dir"]
args_dict.pop("h", None)
args_dict.pop("helpfull", None)
args_dict.pop("helpshort", None)
args_dict.pop("help", None)
args = []
for name, val in args_dict.items():
if val is None:
continue
if name.startswith("autotune"):
continue
args.extend(["--%s=%s" % (name, str(val))])
return args | [
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train | get_default_master_type | Returns master_type for trainingInput. | tensor2tensor/utils/cloud_mlengine.py | def get_default_master_type(num_gpus=1):
"""Returns master_type for trainingInput."""
gpus_to_master_map = {
0: "standard",
1: "standard_p100",
4: "complex_model_m_p100",
8: "complex_model_l_gpu",
}
if num_gpus not in gpus_to_master_map:
raise ValueError("Num gpus must be in %s" %
str(sorted(list(gpus_to_master_map.keys()))))
return gpus_to_master_map[num_gpus] | def get_default_master_type(num_gpus=1):
"""Returns master_type for trainingInput."""
gpus_to_master_map = {
0: "standard",
1: "standard_p100",
4: "complex_model_m_p100",
8: "complex_model_l_gpu",
}
if num_gpus not in gpus_to_master_map:
raise ValueError("Num gpus must be in %s" %
str(sorted(list(gpus_to_master_map.keys()))))
return gpus_to_master_map[num_gpus] | [
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train | configure_job | Construct jobSpec for ML Engine job. | tensor2tensor/utils/cloud_mlengine.py | def configure_job():
"""Construct jobSpec for ML Engine job."""
# See documentation:
# https://cloud.google.com/ml-engine/reference/rest/v1/projects.jobs#traininginput
training_input = {
"pythonModule": "tensor2tensor.bin.t2t_trainer",
"args": flags_as_args(),
"region": text_encoder.native_to_unicode(default_region()),
"runtimeVersion": RUNTIME_VERSION,
"pythonVersion": "3.5" if sys.version_info.major == 3 else "2.7",
"jobDir": FLAGS.output_dir,
"scaleTier": "CUSTOM",
"masterType": FLAGS.cloud_mlengine_master_type or get_default_master_type(
num_gpus=FLAGS.worker_gpu)
}
if FLAGS.use_tpu:
training_input["masterType"] = (FLAGS.cloud_mlengine_master_type or
"standard")
training_input["workerType"] = "cloud_tpu"
training_input["workerCount"] = 1
if FLAGS.hparams_range:
tf.logging.info("Configuring hyperparameter tuning.")
training_input["hyperparameters"] = configure_autotune(
FLAGS.hparams_range,
FLAGS.autotune_objective,
FLAGS.autotune_maximize,
FLAGS.autotune_max_trials,
FLAGS.autotune_parallel_trials,
)
timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S")
job_spec = {
"jobId": "%s_%s_t2t_%s" % (FLAGS.model, FLAGS.problem, timestamp),
"labels": {
"model": FLAGS.model,
"problem": FLAGS.problem,
"hparams": FLAGS.hparams_set
},
"trainingInput": training_input,
}
return job_spec | def configure_job():
"""Construct jobSpec for ML Engine job."""
# See documentation:
# https://cloud.google.com/ml-engine/reference/rest/v1/projects.jobs#traininginput
training_input = {
"pythonModule": "tensor2tensor.bin.t2t_trainer",
"args": flags_as_args(),
"region": text_encoder.native_to_unicode(default_region()),
"runtimeVersion": RUNTIME_VERSION,
"pythonVersion": "3.5" if sys.version_info.major == 3 else "2.7",
"jobDir": FLAGS.output_dir,
"scaleTier": "CUSTOM",
"masterType": FLAGS.cloud_mlengine_master_type or get_default_master_type(
num_gpus=FLAGS.worker_gpu)
}
if FLAGS.use_tpu:
training_input["masterType"] = (FLAGS.cloud_mlengine_master_type or
"standard")
training_input["workerType"] = "cloud_tpu"
training_input["workerCount"] = 1
if FLAGS.hparams_range:
tf.logging.info("Configuring hyperparameter tuning.")
training_input["hyperparameters"] = configure_autotune(
FLAGS.hparams_range,
FLAGS.autotune_objective,
FLAGS.autotune_maximize,
FLAGS.autotune_max_trials,
FLAGS.autotune_parallel_trials,
)
timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S")
job_spec = {
"jobId": "%s_%s_t2t_%s" % (FLAGS.model, FLAGS.problem, timestamp),
"labels": {
"model": FLAGS.model,
"problem": FLAGS.problem,
"hparams": FLAGS.hparams_set
},
"trainingInput": training_input,
}
return job_spec | [
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/utils/cloud_mlengine.py#L130-L170 | [
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train | launch_job | Launch job on ML Engine. | tensor2tensor/utils/cloud_mlengine.py | def launch_job(job_spec):
"""Launch job on ML Engine."""
project_id = "projects/{}".format(
text_encoder.native_to_unicode(default_project()))
credentials = GoogleCredentials.get_application_default()
cloudml = discovery.build("ml", "v1", credentials=credentials,
cache_discovery=False)
request = cloudml.projects().jobs().create(body=job_spec, parent=project_id)
request.execute() | def launch_job(job_spec):
"""Launch job on ML Engine."""
project_id = "projects/{}".format(
text_encoder.native_to_unicode(default_project()))
credentials = GoogleCredentials.get_application_default()
cloudml = discovery.build("ml", "v1", credentials=credentials,
cache_discovery=False)
request = cloudml.projects().jobs().create(body=job_spec, parent=project_id)
request.execute() | [
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/utils/cloud_mlengine.py#L173-L181 | [
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train | _tar_and_copy | Tar and gzip src_dir and copy to GCS target_dir. | tensor2tensor/utils/cloud_mlengine.py | def _tar_and_copy(src_dir, target_dir):
"""Tar and gzip src_dir and copy to GCS target_dir."""
src_dir = src_dir.rstrip("/")
target_dir = target_dir.rstrip("/")
tmp_dir = tempfile.gettempdir().rstrip("/")
src_base = os.path.basename(src_dir)
shell_run(
"tar --exclude=.git -zcf {tmp_dir}/{src_base}.tar.gz -C {src_dir} .",
src_dir=src_dir,
src_base=src_base,
tmp_dir=tmp_dir)
final_destination = "%s/%s.tar.gz" % (target_dir, src_base)
shell_run(
("gsutil cp {tmp_dir}/{src_base}.tar.gz "
"{final_destination}"),
tmp_dir=tmp_dir,
src_base=src_base,
final_destination=final_destination)
return final_destination | def _tar_and_copy(src_dir, target_dir):
"""Tar and gzip src_dir and copy to GCS target_dir."""
src_dir = src_dir.rstrip("/")
target_dir = target_dir.rstrip("/")
tmp_dir = tempfile.gettempdir().rstrip("/")
src_base = os.path.basename(src_dir)
shell_run(
"tar --exclude=.git -zcf {tmp_dir}/{src_base}.tar.gz -C {src_dir} .",
src_dir=src_dir,
src_base=src_base,
tmp_dir=tmp_dir)
final_destination = "%s/%s.tar.gz" % (target_dir, src_base)
shell_run(
("gsutil cp {tmp_dir}/{src_base}.tar.gz "
"{final_destination}"),
tmp_dir=tmp_dir,
src_base=src_base,
final_destination=final_destination)
return final_destination | [
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"GCS",
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/utils/cloud_mlengine.py#L184-L202 | [
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train | tar_and_copy_t2t | Tar Tensor2Tensor and cp to train_dir. | tensor2tensor/utils/cloud_mlengine.py | def tar_and_copy_t2t(train_dir):
"""Tar Tensor2Tensor and cp to train_dir."""
tf.logging.info("Tarring and pushing local Tensor2Tensor package.")
output = text_encoder.native_to_unicode(shell_output(
"pip show tensor2tensor")).split("\n")
assert output[1].startswith("Version")
assert output[7].startswith("Location")
t2t_version = output[1].split(":")[1].strip()
t2t_dir = output[7].split(":")[1].strip()
# A local installation cloned from GitHub will have a setup.py file and a docs
# folder
is_local_t2t = all([
tf.gfile.Exists(os.path.join(t2t_dir, fname))
for fname in ["setup.py", "docs/cloud_mlengine.md"]
])
if is_local_t2t:
tf.logging.info("Found local T2T installation. Tarring directory %s",
t2t_dir)
else:
# PyPI installation
# Create a folder with just a setup.py file pointing to the right version
tf.logging.info("Found PyPI T2T installation. Launching tensor2tensor==%s",
t2t_version)
t2t_dir = os.path.join(tempfile.gettempdir(), "tensor2tensor_tmp")
shutil.rmtree(t2t_dir, ignore_errors=True)
os.mkdir(t2t_dir)
setup_fname = os.path.join(t2t_dir, "setup.py")
setup_file_str = get_setup_file(
name="DummyT2TPackage",
packages=["tensor2tensor==%s" % t2t_version]
)
with tf.gfile.Open(setup_fname, "w") as f:
f.write(setup_file_str)
t2t_tar = _tar_and_copy(t2t_dir, train_dir)
return t2t_tar | def tar_and_copy_t2t(train_dir):
"""Tar Tensor2Tensor and cp to train_dir."""
tf.logging.info("Tarring and pushing local Tensor2Tensor package.")
output = text_encoder.native_to_unicode(shell_output(
"pip show tensor2tensor")).split("\n")
assert output[1].startswith("Version")
assert output[7].startswith("Location")
t2t_version = output[1].split(":")[1].strip()
t2t_dir = output[7].split(":")[1].strip()
# A local installation cloned from GitHub will have a setup.py file and a docs
# folder
is_local_t2t = all([
tf.gfile.Exists(os.path.join(t2t_dir, fname))
for fname in ["setup.py", "docs/cloud_mlengine.md"]
])
if is_local_t2t:
tf.logging.info("Found local T2T installation. Tarring directory %s",
t2t_dir)
else:
# PyPI installation
# Create a folder with just a setup.py file pointing to the right version
tf.logging.info("Found PyPI T2T installation. Launching tensor2tensor==%s",
t2t_version)
t2t_dir = os.path.join(tempfile.gettempdir(), "tensor2tensor_tmp")
shutil.rmtree(t2t_dir, ignore_errors=True)
os.mkdir(t2t_dir)
setup_fname = os.path.join(t2t_dir, "setup.py")
setup_file_str = get_setup_file(
name="DummyT2TPackage",
packages=["tensor2tensor==%s" % t2t_version]
)
with tf.gfile.Open(setup_fname, "w") as f:
f.write(setup_file_str)
t2t_tar = _tar_and_copy(t2t_dir, train_dir)
return t2t_tar | [
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"Tensor2Tensor",
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/utils/cloud_mlengine.py#L205-L242 | [
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train | tar_and_copy_usr_dir | Package, tar, and copy usr_dir to GCS train_dir. | tensor2tensor/utils/cloud_mlengine.py | def tar_and_copy_usr_dir(usr_dir, train_dir):
"""Package, tar, and copy usr_dir to GCS train_dir."""
tf.logging.info("Tarring and pushing t2t_usr_dir.")
usr_dir = os.path.abspath(os.path.expanduser(usr_dir))
# Copy usr dir to a temp location
top_dir = os.path.join(tempfile.gettempdir(), "t2t_usr_container")
tmp_usr_dir = os.path.join(top_dir, usr_dir_lib.INTERNAL_USR_DIR_PACKAGE)
shutil.rmtree(top_dir, ignore_errors=True)
shutil.copytree(usr_dir, tmp_usr_dir)
# Insert setup.py if one does not exist
top_setup_fname = os.path.join(top_dir, "setup.py")
setup_file_str = get_setup_file(
name="DummyUsrDirPackage",
packages=get_requirements(usr_dir)
)
with tf.gfile.Open(top_setup_fname, "w") as f:
f.write(setup_file_str)
usr_tar = _tar_and_copy(top_dir, train_dir)
return usr_tar | def tar_and_copy_usr_dir(usr_dir, train_dir):
"""Package, tar, and copy usr_dir to GCS train_dir."""
tf.logging.info("Tarring and pushing t2t_usr_dir.")
usr_dir = os.path.abspath(os.path.expanduser(usr_dir))
# Copy usr dir to a temp location
top_dir = os.path.join(tempfile.gettempdir(), "t2t_usr_container")
tmp_usr_dir = os.path.join(top_dir, usr_dir_lib.INTERNAL_USR_DIR_PACKAGE)
shutil.rmtree(top_dir, ignore_errors=True)
shutil.copytree(usr_dir, tmp_usr_dir)
# Insert setup.py if one does not exist
top_setup_fname = os.path.join(top_dir, "setup.py")
setup_file_str = get_setup_file(
name="DummyUsrDirPackage",
packages=get_requirements(usr_dir)
)
with tf.gfile.Open(top_setup_fname, "w") as f:
f.write(setup_file_str)
usr_tar = _tar_and_copy(top_dir, train_dir)
return usr_tar | [
"Package",
"tar",
"and",
"copy",
"usr_dir",
"to",
"GCS",
"train_dir",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/utils/cloud_mlengine.py#L245-L263 | [
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train | validate_flags | Validates flags are set to acceptable values for CloudML Engine runs. | tensor2tensor/utils/cloud_mlengine.py | def validate_flags():
"""Validates flags are set to acceptable values for CloudML Engine runs."""
assert not job_dir()
assert FLAGS.output_dir.startswith("gs://")
assert FLAGS.data_dir.startswith("gs://")
assert FLAGS.worker_replicas <= 1
assert FLAGS.ps_replicas <= 0
if FLAGS.hparams_range:
assert FLAGS.autotune_objective
if FLAGS.worker_gpu:
assert FLAGS.worker_gpu in [1, 4, 8]
if FLAGS.cloud_mlengine_master_type:
if FLAGS.worker_gpu:
if FLAGS.worker_gpu == 1:
assert FLAGS.cloud_mlengine_master_type in ["standard_gpu",
"standard_p100"]
elif FLAGS.worker_gpu == 4:
assert FLAGS.cloud_mlengine_master_type in ["complex_model_m_gpu",
"complex_model_m_p100"]
else:
assert FLAGS.cloud_mlengine_master_type == "complex_model_l_gpu"
else:
assert FLAGS.cloud_mlengine_master_type in ["standard", "large_model",
"complex_model_s",
"complex_model_m",
"complex_model_l"] | def validate_flags():
"""Validates flags are set to acceptable values for CloudML Engine runs."""
assert not job_dir()
assert FLAGS.output_dir.startswith("gs://")
assert FLAGS.data_dir.startswith("gs://")
assert FLAGS.worker_replicas <= 1
assert FLAGS.ps_replicas <= 0
if FLAGS.hparams_range:
assert FLAGS.autotune_objective
if FLAGS.worker_gpu:
assert FLAGS.worker_gpu in [1, 4, 8]
if FLAGS.cloud_mlengine_master_type:
if FLAGS.worker_gpu:
if FLAGS.worker_gpu == 1:
assert FLAGS.cloud_mlengine_master_type in ["standard_gpu",
"standard_p100"]
elif FLAGS.worker_gpu == 4:
assert FLAGS.cloud_mlengine_master_type in ["complex_model_m_gpu",
"complex_model_m_p100"]
else:
assert FLAGS.cloud_mlengine_master_type == "complex_model_l_gpu"
else:
assert FLAGS.cloud_mlengine_master_type in ["standard", "large_model",
"complex_model_s",
"complex_model_m",
"complex_model_l"] | [
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"for",
"CloudML",
"Engine",
"runs",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/utils/cloud_mlengine.py#L298-L323 | [
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train | launch | Launch t2t_trainer on Cloud ML Engine. | tensor2tensor/utils/cloud_mlengine.py | def launch():
"""Launch t2t_trainer on Cloud ML Engine."""
validate_flags()
job_spec = configure_job()
job_name = job_spec["jobId"]
tf.logging.info("Launching job %s with ML Engine spec:\n%s", job_name,
pprint.pformat(job_spec))
assert confirm()
train_dir = FLAGS.output_dir
t2t_tar = tar_and_copy_t2t(train_dir)
configure_trainer_package(job_spec, t2t_tar)
if FLAGS.t2t_usr_dir:
usr_tar = tar_and_copy_usr_dir(FLAGS.t2t_usr_dir, train_dir)
configure_usr_dir(job_spec, usr_tar)
launch_job(job_spec)
tf.logging.info("Launched %s. See console to track: %s.", job_name,
CONSOLE_URL)
tf.logging.info("Interact with the training job from the command line:")
tf.logging.info("Abort job: gcloud ml-engine jobs cancel %s", job_name)
tf.logging.info("Stream logs: gcloud ml-engine jobs stream-logs %s", job_name)
tf.logging.info("Open tensorboard: tensorboard --logdir %s", train_dir) | def launch():
"""Launch t2t_trainer on Cloud ML Engine."""
validate_flags()
job_spec = configure_job()
job_name = job_spec["jobId"]
tf.logging.info("Launching job %s with ML Engine spec:\n%s", job_name,
pprint.pformat(job_spec))
assert confirm()
train_dir = FLAGS.output_dir
t2t_tar = tar_and_copy_t2t(train_dir)
configure_trainer_package(job_spec, t2t_tar)
if FLAGS.t2t_usr_dir:
usr_tar = tar_and_copy_usr_dir(FLAGS.t2t_usr_dir, train_dir)
configure_usr_dir(job_spec, usr_tar)
launch_job(job_spec)
tf.logging.info("Launched %s. See console to track: %s.", job_name,
CONSOLE_URL)
tf.logging.info("Interact with the training job from the command line:")
tf.logging.info("Abort job: gcloud ml-engine jobs cancel %s", job_name)
tf.logging.info("Stream logs: gcloud ml-engine jobs stream-logs %s", job_name)
tf.logging.info("Open tensorboard: tensorboard --logdir %s", train_dir) | [
"Launch",
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"ML",
"Engine",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/utils/cloud_mlengine.py#L331-L351 | [
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train | add_weight | Decorator for Layers, overriding add_weight for trainable initializers. | tensor2tensor/layers/bayes.py | def add_weight(cls):
"""Decorator for Layers, overriding add_weight for trainable initializers."""
@functools.wraps(cls.add_weight)
def _add_weight(self,
name=None,
shape=None,
dtype=None,
initializer=None,
regularizer=None,
**kwargs):
"""Adds weight."""
if isinstance(initializer, tf.keras.layers.Layer):
weight = initializer(shape, dtype)
self._trainable_weights.extend(initializer.trainable_weights) # pylint: disable=protected-access
self._non_trainable_weights.extend(initializer.non_trainable_weights) # pylint: disable=protected-access
if regularizer is not None:
# TODO(trandustin): Replace need for this with
# Layer._handle_weight_regularization. For Eager compatibility, random
# variable __init__s cannot apply TF ops (cl/220898007).
def loss_fn():
"""Creates a regularization loss `Tensor`."""
with tf.name_scope(name + '/Regularizer'):
return regularizer(initializer(shape, dtype))
self.add_loss(loss_fn)
return weight
return super(cls, self).add_weight(name=name,
shape=shape,
dtype=dtype,
initializer=initializer,
regularizer=regularizer,
**kwargs)
cls.add_weight = _add_weight
return cls | def add_weight(cls):
"""Decorator for Layers, overriding add_weight for trainable initializers."""
@functools.wraps(cls.add_weight)
def _add_weight(self,
name=None,
shape=None,
dtype=None,
initializer=None,
regularizer=None,
**kwargs):
"""Adds weight."""
if isinstance(initializer, tf.keras.layers.Layer):
weight = initializer(shape, dtype)
self._trainable_weights.extend(initializer.trainable_weights) # pylint: disable=protected-access
self._non_trainable_weights.extend(initializer.non_trainable_weights) # pylint: disable=protected-access
if regularizer is not None:
# TODO(trandustin): Replace need for this with
# Layer._handle_weight_regularization. For Eager compatibility, random
# variable __init__s cannot apply TF ops (cl/220898007).
def loss_fn():
"""Creates a regularization loss `Tensor`."""
with tf.name_scope(name + '/Regularizer'):
return regularizer(initializer(shape, dtype))
self.add_loss(loss_fn)
return weight
return super(cls, self).add_weight(name=name,
shape=shape,
dtype=dtype,
initializer=initializer,
regularizer=regularizer,
**kwargs)
cls.add_weight = _add_weight
return cls | [
"Decorator",
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"Layers",
"overriding",
"add_weight",
"for",
"trainable",
"initializers",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/bayes.py#L32-L64 | [
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train | NextFrameBaseVae.get_beta | Get the KL multiplier, either dynamically or schedule based.
if hparams.latent_loss_multiplier_dynamic is set to true, then beta
is being adjusted to keep KL under hparams.latent_loss_multiplier_epsilon.
In order to do so, the beta is being updated at each iteration
by taking steps of size hparams.latent_loss_multiplier_alpha.
The same formulation can be retrieved by solving the Lagrangian
with KL < epsilon as a constraint.
Args:
kl_loss: KL loss. Only used for dynamic adjustment.
Returns:
beta: the final value of beta. | tensor2tensor/models/video/base_vae.py | def get_beta(self, kl_loss=0.0):
"""Get the KL multiplier, either dynamically or schedule based.
if hparams.latent_loss_multiplier_dynamic is set to true, then beta
is being adjusted to keep KL under hparams.latent_loss_multiplier_epsilon.
In order to do so, the beta is being updated at each iteration
by taking steps of size hparams.latent_loss_multiplier_alpha.
The same formulation can be retrieved by solving the Lagrangian
with KL < epsilon as a constraint.
Args:
kl_loss: KL loss. Only used for dynamic adjustment.
Returns:
beta: the final value of beta.
"""
if self.hparams.latent_loss_multiplier_dynamic:
beta = tf.Variable(self.hparams.latent_loss_multiplier,
trainable=False, dtype=tf.float32)
alpha = self.hparams.latent_loss_multiplier_alpha
epsilon = self.hparams.latent_loss_multiplier_epsilon
shadow_beta = beta + alpha * (kl_loss - epsilon)
# Caping the beta between 0 and 1. May need to change this later on.
shadow_beta = tf.maximum(shadow_beta, 0.0)
shadow_beta = tf.minimum(shadow_beta, 1.0)
update_op = tf.assign(beta, shadow_beta)
else:
beta = common_video.beta_schedule(
schedule=self.hparams.latent_loss_multiplier_schedule,
global_step=self.get_iteration_num(),
final_beta=self.hparams.latent_loss_multiplier,
decay_start=(self.hparams.num_iterations_1st_stage +
self.hparams.num_iterations_2nd_stage),
decay_end=self.hparams.anneal_end)
update_op = tf.identity(beta) # fake update for regular beta.
with tf.control_dependencies([update_op]):
tf.summary.scalar("beta", beta)
return beta | def get_beta(self, kl_loss=0.0):
"""Get the KL multiplier, either dynamically or schedule based.
if hparams.latent_loss_multiplier_dynamic is set to true, then beta
is being adjusted to keep KL under hparams.latent_loss_multiplier_epsilon.
In order to do so, the beta is being updated at each iteration
by taking steps of size hparams.latent_loss_multiplier_alpha.
The same formulation can be retrieved by solving the Lagrangian
with KL < epsilon as a constraint.
Args:
kl_loss: KL loss. Only used for dynamic adjustment.
Returns:
beta: the final value of beta.
"""
if self.hparams.latent_loss_multiplier_dynamic:
beta = tf.Variable(self.hparams.latent_loss_multiplier,
trainable=False, dtype=tf.float32)
alpha = self.hparams.latent_loss_multiplier_alpha
epsilon = self.hparams.latent_loss_multiplier_epsilon
shadow_beta = beta + alpha * (kl_loss - epsilon)
# Caping the beta between 0 and 1. May need to change this later on.
shadow_beta = tf.maximum(shadow_beta, 0.0)
shadow_beta = tf.minimum(shadow_beta, 1.0)
update_op = tf.assign(beta, shadow_beta)
else:
beta = common_video.beta_schedule(
schedule=self.hparams.latent_loss_multiplier_schedule,
global_step=self.get_iteration_num(),
final_beta=self.hparams.latent_loss_multiplier,
decay_start=(self.hparams.num_iterations_1st_stage +
self.hparams.num_iterations_2nd_stage),
decay_end=self.hparams.anneal_end)
update_op = tf.identity(beta) # fake update for regular beta.
with tf.control_dependencies([update_op]):
tf.summary.scalar("beta", beta)
return beta | [
"Get",
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"KL",
"multiplier",
"either",
"dynamically",
"or",
"schedule",
"based",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/video/base_vae.py#L34-L72 | [
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train | NextFrameBaseVae.get_kl_loss | Get KL loss for all the predicted Gaussians. | tensor2tensor/models/video/base_vae.py | def get_kl_loss(self, means, log_vars, means_p=None, log_vars_p=None):
"""Get KL loss for all the predicted Gaussians."""
kl_loss = 0.0
if means_p is None:
means_p = tf.unstack(tf.zeros_like(means))
if log_vars_p is None:
log_vars_p = tf.unstack(tf.zeros_like(log_vars))
enumerated_inputs = enumerate(zip(means, log_vars, means_p, log_vars_p))
if self.is_training and self.hparams.stochastic_model:
for i, (mean, log_var, mean_p, log_var_p) in enumerated_inputs:
kl_loss += common_layers.kl_divergence(mean, log_var, mean_p, log_var_p)
tf.summary.histogram("posterior_mean_%d" % i, mean)
tf.summary.histogram("posterior_log_var_%d" % i, log_var)
tf.summary.histogram("prior_mean_%d" % i, mean_p)
tf.summary.histogram("prior_log_var_%d" % i, log_var_p)
tf.summary.scalar("kl_raw", tf.reduce_mean(kl_loss))
beta = self.get_beta(kl_loss)
# information capacity from "Understanding disentangling in beta-VAE"
if self.hparams.information_capacity > 0.0:
kl_loss = tf.abs(kl_loss - self.hparams.information_capacity)
return beta * kl_loss | def get_kl_loss(self, means, log_vars, means_p=None, log_vars_p=None):
"""Get KL loss for all the predicted Gaussians."""
kl_loss = 0.0
if means_p is None:
means_p = tf.unstack(tf.zeros_like(means))
if log_vars_p is None:
log_vars_p = tf.unstack(tf.zeros_like(log_vars))
enumerated_inputs = enumerate(zip(means, log_vars, means_p, log_vars_p))
if self.is_training and self.hparams.stochastic_model:
for i, (mean, log_var, mean_p, log_var_p) in enumerated_inputs:
kl_loss += common_layers.kl_divergence(mean, log_var, mean_p, log_var_p)
tf.summary.histogram("posterior_mean_%d" % i, mean)
tf.summary.histogram("posterior_log_var_%d" % i, log_var)
tf.summary.histogram("prior_mean_%d" % i, mean_p)
tf.summary.histogram("prior_log_var_%d" % i, log_var_p)
tf.summary.scalar("kl_raw", tf.reduce_mean(kl_loss))
beta = self.get_beta(kl_loss)
# information capacity from "Understanding disentangling in beta-VAE"
if self.hparams.information_capacity > 0.0:
kl_loss = tf.abs(kl_loss - self.hparams.information_capacity)
return beta * kl_loss | [
"Get",
"KL",
"loss",
"for",
"all",
"the",
"predicted",
"Gaussians",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/video/base_vae.py#L74-L95 | [
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train | NextFrameBaseVae.construct_latent_tower | Create the latent tower. | tensor2tensor/models/video/base_vae.py | def construct_latent_tower(self, images, time_axis):
"""Create the latent tower."""
# No latent in the first phase
first_phase = tf.less(
self.get_iteration_num(), self.hparams.num_iterations_1st_stage)
# use all frames by default but this allows more
# predicted frames at inference time
latent_num_frames = self.hparams.latent_num_frames
tf.logging.info("Creating latent tower with %d frames." % latent_num_frames)
if latent_num_frames > 0:
images = images[:, :latent_num_frames]
return common_video.conv_latent_tower(
images=images,
time_axis=time_axis,
latent_channels=self.hparams.latent_channels,
min_logvar=self.hparams.latent_std_min,
is_training=self.is_training,
random_latent=first_phase,
tiny_mode=self.hparams.tiny_mode,
small_mode=self.hparams.small_mode) | def construct_latent_tower(self, images, time_axis):
"""Create the latent tower."""
# No latent in the first phase
first_phase = tf.less(
self.get_iteration_num(), self.hparams.num_iterations_1st_stage)
# use all frames by default but this allows more
# predicted frames at inference time
latent_num_frames = self.hparams.latent_num_frames
tf.logging.info("Creating latent tower with %d frames." % latent_num_frames)
if latent_num_frames > 0:
images = images[:, :latent_num_frames]
return common_video.conv_latent_tower(
images=images,
time_axis=time_axis,
latent_channels=self.hparams.latent_channels,
min_logvar=self.hparams.latent_std_min,
is_training=self.is_training,
random_latent=first_phase,
tiny_mode=self.hparams.tiny_mode,
small_mode=self.hparams.small_mode) | [
"Create",
"the",
"latent",
"tower",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/video/base_vae.py#L97-L118 | [
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train | transformer_encode | Encode transformer inputs.
Args:
encoder_function: the encoder function
inputs: Transformer inputs [batch_size, input_length, 1, hidden_dim] which
will be flattened along the two spatial dimensions.
target_space: scalar, target space ID.
hparams: hyperparameters for model.
attention_weights: weight to store attention to.
features: optionally pass the entire features dictionary as well. This is
needed now for "packed" datasets.
losses: optional list onto which to append extra training losses
**kwargs: additional arguments to pass to encoder_function
Returns:
Tuple of:
encoder_output: Encoder representation.
[batch_size, input_length, hidden_dim]
encoder_decoder_attention_bias: Bias and mask weights for
encoder-decoder attention. [batch_size, input_length] | tensor2tensor/models/transformer.py | def transformer_encode(encoder_function, inputs, target_space, hparams,
attention_weights=None, features=None, losses=None,
**kwargs):
"""Encode transformer inputs.
Args:
encoder_function: the encoder function
inputs: Transformer inputs [batch_size, input_length, 1, hidden_dim] which
will be flattened along the two spatial dimensions.
target_space: scalar, target space ID.
hparams: hyperparameters for model.
attention_weights: weight to store attention to.
features: optionally pass the entire features dictionary as well. This is
needed now for "packed" datasets.
losses: optional list onto which to append extra training losses
**kwargs: additional arguments to pass to encoder_function
Returns:
Tuple of:
encoder_output: Encoder representation.
[batch_size, input_length, hidden_dim]
encoder_decoder_attention_bias: Bias and mask weights for
encoder-decoder attention. [batch_size, input_length]
"""
inputs = common_layers.flatten4d3d(inputs)
encoder_input, self_attention_bias, encoder_decoder_attention_bias = (
transformer_prepare_encoder(
inputs, target_space, hparams, features=features))
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_LAYER_POSTPROCESS_DROPOUT,
value=hparams.layer_prepostprocess_dropout,
hparams=hparams)
encoder_input = tf.nn.dropout(encoder_input,
1.0 - hparams.layer_prepostprocess_dropout)
attn_bias_for_padding = None
# Otherwise the encoder will just use encoder_self_attention_bias.
if hparams.unidirectional_encoder:
attn_bias_for_padding = encoder_decoder_attention_bias
encoder_output = encoder_function(
encoder_input,
self_attention_bias,
hparams,
nonpadding=features_to_nonpadding(features, "inputs"),
save_weights_to=attention_weights,
make_image_summary=not common_layers.is_xla_compiled(),
losses=losses,
attn_bias_for_padding=attn_bias_for_padding,
**kwargs)
return encoder_output, encoder_decoder_attention_bias | def transformer_encode(encoder_function, inputs, target_space, hparams,
attention_weights=None, features=None, losses=None,
**kwargs):
"""Encode transformer inputs.
Args:
encoder_function: the encoder function
inputs: Transformer inputs [batch_size, input_length, 1, hidden_dim] which
will be flattened along the two spatial dimensions.
target_space: scalar, target space ID.
hparams: hyperparameters for model.
attention_weights: weight to store attention to.
features: optionally pass the entire features dictionary as well. This is
needed now for "packed" datasets.
losses: optional list onto which to append extra training losses
**kwargs: additional arguments to pass to encoder_function
Returns:
Tuple of:
encoder_output: Encoder representation.
[batch_size, input_length, hidden_dim]
encoder_decoder_attention_bias: Bias and mask weights for
encoder-decoder attention. [batch_size, input_length]
"""
inputs = common_layers.flatten4d3d(inputs)
encoder_input, self_attention_bias, encoder_decoder_attention_bias = (
transformer_prepare_encoder(
inputs, target_space, hparams, features=features))
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_LAYER_POSTPROCESS_DROPOUT,
value=hparams.layer_prepostprocess_dropout,
hparams=hparams)
encoder_input = tf.nn.dropout(encoder_input,
1.0 - hparams.layer_prepostprocess_dropout)
attn_bias_for_padding = None
# Otherwise the encoder will just use encoder_self_attention_bias.
if hparams.unidirectional_encoder:
attn_bias_for_padding = encoder_decoder_attention_bias
encoder_output = encoder_function(
encoder_input,
self_attention_bias,
hparams,
nonpadding=features_to_nonpadding(features, "inputs"),
save_weights_to=attention_weights,
make_image_summary=not common_layers.is_xla_compiled(),
losses=losses,
attn_bias_for_padding=attn_bias_for_padding,
**kwargs)
return encoder_output, encoder_decoder_attention_bias | [
"Encode",
"transformer",
"inputs",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/transformer.py#L57-L111 | [
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train | transformer_decode | Decode Transformer outputs from encoder representation.
Args:
decoder_function: the decoder function
decoder_input: inputs to bottom of the model. [batch_size, decoder_length,
hidden_dim]
encoder_output: Encoder representation. [batch_size, input_length,
hidden_dim]
encoder_decoder_attention_bias: Bias and mask weights for encoder-decoder
attention. [batch_size, input_length]
decoder_self_attention_bias: Bias and mask weights for decoder
self-attention. [batch_size, decoder_length]
hparams: hyperparameters for model.
attention_weights: weight to store attention to.
cache: dict, containing tensors which are the results of previous
attentions, used for fast decoding.
decode_loop_step: An integer, step number of the decoding loop. Only used
for inference on TPU.
nonpadding: optional Tensor with shape [batch_size, decoder_length]
losses: optional list onto which to append extra training losses
**kwargs: additional arguments to pass to decoder_function
Returns:
Final decoder representation. [batch_size, decoder_length, hidden_dim] | tensor2tensor/models/transformer.py | def transformer_decode(decoder_function,
decoder_input,
encoder_output,
encoder_decoder_attention_bias,
decoder_self_attention_bias,
hparams,
attention_weights=None,
cache=None,
decode_loop_step=None,
nonpadding=None,
losses=None,
**kwargs):
"""Decode Transformer outputs from encoder representation.
Args:
decoder_function: the decoder function
decoder_input: inputs to bottom of the model. [batch_size, decoder_length,
hidden_dim]
encoder_output: Encoder representation. [batch_size, input_length,
hidden_dim]
encoder_decoder_attention_bias: Bias and mask weights for encoder-decoder
attention. [batch_size, input_length]
decoder_self_attention_bias: Bias and mask weights for decoder
self-attention. [batch_size, decoder_length]
hparams: hyperparameters for model.
attention_weights: weight to store attention to.
cache: dict, containing tensors which are the results of previous
attentions, used for fast decoding.
decode_loop_step: An integer, step number of the decoding loop. Only used
for inference on TPU.
nonpadding: optional Tensor with shape [batch_size, decoder_length]
losses: optional list onto which to append extra training losses
**kwargs: additional arguments to pass to decoder_function
Returns:
Final decoder representation. [batch_size, decoder_length, hidden_dim]
"""
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_LAYER_POSTPROCESS_DROPOUT,
value=hparams.layer_prepostprocess_dropout,
hparams=hparams)
decoder_input = tf.nn.dropout(decoder_input,
1.0 - hparams.layer_prepostprocess_dropout)
decoder_output = decoder_function(
decoder_input,
encoder_output,
decoder_self_attention_bias,
encoder_decoder_attention_bias,
hparams,
cache=cache,
decode_loop_step=decode_loop_step,
nonpadding=nonpadding,
save_weights_to=attention_weights,
losses=losses,
**kwargs)
if (common_layers.is_xla_compiled() and
hparams.mode == tf.estimator.ModeKeys.TRAIN):
# TPU does not react kindly to extra dimensions.
# TODO(noam): remove this once TPU is more forgiving of extra dims.
return decoder_output
else:
# Expand since t2t expects 4d tensors.
return tf.expand_dims(decoder_output, axis=2) | def transformer_decode(decoder_function,
decoder_input,
encoder_output,
encoder_decoder_attention_bias,
decoder_self_attention_bias,
hparams,
attention_weights=None,
cache=None,
decode_loop_step=None,
nonpadding=None,
losses=None,
**kwargs):
"""Decode Transformer outputs from encoder representation.
Args:
decoder_function: the decoder function
decoder_input: inputs to bottom of the model. [batch_size, decoder_length,
hidden_dim]
encoder_output: Encoder representation. [batch_size, input_length,
hidden_dim]
encoder_decoder_attention_bias: Bias and mask weights for encoder-decoder
attention. [batch_size, input_length]
decoder_self_attention_bias: Bias and mask weights for decoder
self-attention. [batch_size, decoder_length]
hparams: hyperparameters for model.
attention_weights: weight to store attention to.
cache: dict, containing tensors which are the results of previous
attentions, used for fast decoding.
decode_loop_step: An integer, step number of the decoding loop. Only used
for inference on TPU.
nonpadding: optional Tensor with shape [batch_size, decoder_length]
losses: optional list onto which to append extra training losses
**kwargs: additional arguments to pass to decoder_function
Returns:
Final decoder representation. [batch_size, decoder_length, hidden_dim]
"""
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_LAYER_POSTPROCESS_DROPOUT,
value=hparams.layer_prepostprocess_dropout,
hparams=hparams)
decoder_input = tf.nn.dropout(decoder_input,
1.0 - hparams.layer_prepostprocess_dropout)
decoder_output = decoder_function(
decoder_input,
encoder_output,
decoder_self_attention_bias,
encoder_decoder_attention_bias,
hparams,
cache=cache,
decode_loop_step=decode_loop_step,
nonpadding=nonpadding,
save_weights_to=attention_weights,
losses=losses,
**kwargs)
if (common_layers.is_xla_compiled() and
hparams.mode == tf.estimator.ModeKeys.TRAIN):
# TPU does not react kindly to extra dimensions.
# TODO(noam): remove this once TPU is more forgiving of extra dims.
return decoder_output
else:
# Expand since t2t expects 4d tensors.
return tf.expand_dims(decoder_output, axis=2) | [
"Decode",
"Transformer",
"outputs",
"from",
"encoder",
"representation",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/transformer.py#L114-L178 | [
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"decode_l... | 272500b6efe353aeb638d2745ed56e519462ca31 |
train | _init_transformer_cache | Create the initial cache for Transformer fast decoding. | tensor2tensor/models/transformer.py | def _init_transformer_cache(cache, hparams, batch_size, attention_init_length,
encoder_output, encoder_decoder_attention_bias,
scope_prefix):
"""Create the initial cache for Transformer fast decoding."""
key_channels = hparams.attention_key_channels or hparams.hidden_size
value_channels = hparams.attention_value_channels or hparams.hidden_size
num_layers = hparams.num_decoder_layers or hparams.num_hidden_layers
vars_3d_num_heads = (
hparams.num_heads if hparams.get("attention_variables_3d") else 0)
if cache is None:
cache = {}
cache.update({
"layer_%d" % layer: { # pylint: disable=g-complex-comprehension
"k":
common_attention.split_heads(
tf.zeros([batch_size,
attention_init_length,
key_channels]), hparams.num_heads),
"v":
common_attention.split_heads(
tf.zeros([batch_size,
attention_init_length,
value_channels]), hparams.num_heads),
} for layer in range(num_layers)
})
# If `ffn_layer` is in `["dense_relu_dense" or "conv_hidden_relu"]`, then the
# cache key "f" won't be used, which means that the` shape of cache["f"]`
# won't be changed to
# `[beamsize*batch_size, decode_length, hparams.hidden_size]` and may cause
# error when applying `nest.map reshape function` on it.
if hparams.ffn_layer not in ["dense_relu_dense", "conv_hidden_relu"]:
for layer in range(num_layers):
cache["layer_%d" % layer]["f"] = tf.zeros(
[batch_size, 0, hparams.hidden_size])
if encoder_output is not None:
for layer in range(num_layers):
layer_name = "layer_%d" % layer
with tf.variable_scope(
"%sdecoder/%s/encdec_attention/multihead_attention" %
(scope_prefix, layer_name)):
k_encdec = common_attention.compute_attention_component(
encoder_output,
key_channels,
name="k",
vars_3d_num_heads=vars_3d_num_heads)
k_encdec = common_attention.split_heads(k_encdec, hparams.num_heads)
v_encdec = common_attention.compute_attention_component(
encoder_output,
value_channels,
name="v",
vars_3d_num_heads=vars_3d_num_heads)
v_encdec = common_attention.split_heads(v_encdec, hparams.num_heads)
cache[layer_name]["k_encdec"] = k_encdec
cache[layer_name]["v_encdec"] = v_encdec
cache["encoder_output"] = encoder_output
cache["encoder_decoder_attention_bias"] = encoder_decoder_attention_bias
return cache | def _init_transformer_cache(cache, hparams, batch_size, attention_init_length,
encoder_output, encoder_decoder_attention_bias,
scope_prefix):
"""Create the initial cache for Transformer fast decoding."""
key_channels = hparams.attention_key_channels or hparams.hidden_size
value_channels = hparams.attention_value_channels or hparams.hidden_size
num_layers = hparams.num_decoder_layers or hparams.num_hidden_layers
vars_3d_num_heads = (
hparams.num_heads if hparams.get("attention_variables_3d") else 0)
if cache is None:
cache = {}
cache.update({
"layer_%d" % layer: { # pylint: disable=g-complex-comprehension
"k":
common_attention.split_heads(
tf.zeros([batch_size,
attention_init_length,
key_channels]), hparams.num_heads),
"v":
common_attention.split_heads(
tf.zeros([batch_size,
attention_init_length,
value_channels]), hparams.num_heads),
} for layer in range(num_layers)
})
# If `ffn_layer` is in `["dense_relu_dense" or "conv_hidden_relu"]`, then the
# cache key "f" won't be used, which means that the` shape of cache["f"]`
# won't be changed to
# `[beamsize*batch_size, decode_length, hparams.hidden_size]` and may cause
# error when applying `nest.map reshape function` on it.
if hparams.ffn_layer not in ["dense_relu_dense", "conv_hidden_relu"]:
for layer in range(num_layers):
cache["layer_%d" % layer]["f"] = tf.zeros(
[batch_size, 0, hparams.hidden_size])
if encoder_output is not None:
for layer in range(num_layers):
layer_name = "layer_%d" % layer
with tf.variable_scope(
"%sdecoder/%s/encdec_attention/multihead_attention" %
(scope_prefix, layer_name)):
k_encdec = common_attention.compute_attention_component(
encoder_output,
key_channels,
name="k",
vars_3d_num_heads=vars_3d_num_heads)
k_encdec = common_attention.split_heads(k_encdec, hparams.num_heads)
v_encdec = common_attention.compute_attention_component(
encoder_output,
value_channels,
name="v",
vars_3d_num_heads=vars_3d_num_heads)
v_encdec = common_attention.split_heads(v_encdec, hparams.num_heads)
cache[layer_name]["k_encdec"] = k_encdec
cache[layer_name]["v_encdec"] = v_encdec
cache["encoder_output"] = encoder_output
cache["encoder_decoder_attention_bias"] = encoder_decoder_attention_bias
return cache | [
"Create",
"the",
"initial",
"cache",
"for",
"Transformer",
"fast",
"decoding",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/transformer.py#L832-L892 | [
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"... | 272500b6efe353aeb638d2745ed56e519462ca31 |
train | fast_decode_tpu | Given encoder output and a symbols to logits function, does fast decoding.
Implements both greedy and beam search decoding for TPU, uses beam search iff
beam_size > 1, otherwise beam search related arguments are ignored.
Args:
encoder_output: A tensor, output from encoder.
encoder_decoder_attention_bias: A tensor, bias for use in encoder-decoder
attention.
symbols_to_logits_fn: Incremental decoding, function mapping triple `(ids,
step, cache)` to symbol logits.
hparams: Run hyperparameters.
decode_length: An integer, how many additional timesteps to decode.
vocab_size: Output vocabulary size.
init_cache_fn: Function that returns the initial cache dict.
beam_size: An integer, number of beams.
top_beams: An integer, how many of the beams to return.
alpha: A float that controls the length penalty. Larger the alpha, stronger
the preference for longer translations.
sos_id: Start-of-sequence symbol.
eos_id: End-of-sequence symbol.
batch_size: An integer, must be passed if there is no input.
force_decode_length: A bool, whether to force the full decode length, or if
False, stop when all beams hit eos_id.
scope_prefix: str, prefix for decoder layer variable scopes.
use_top_k_with_unique: bool, whether to use a fast (but decreased precision)
top_k during beam search.
Returns:
A dict of decoding results {
"outputs": integer `Tensor` of decoded ids of shape
[batch_size, <= decode_length] if top_beams == 1 or
[batch_size, top_beams, <= decode_length] otherwise
"scores": decoding log probs from the beam search,
None if using greedy decoding (beam_size=1)
}.
Raises:
NotImplementedError: If beam size > 1 with partial targets. | tensor2tensor/models/transformer.py | def fast_decode_tpu(encoder_output,
encoder_decoder_attention_bias,
symbols_to_logits_fn,
hparams,
decode_length,
vocab_size,
init_cache_fn=_init_transformer_cache,
beam_size=1,
top_beams=1,
alpha=1.0,
sos_id=0,
eos_id=beam_search.EOS_ID,
batch_size=None,
force_decode_length=False,
scope_prefix="body/",
use_top_k_with_unique=True):
"""Given encoder output and a symbols to logits function, does fast decoding.
Implements both greedy and beam search decoding for TPU, uses beam search iff
beam_size > 1, otherwise beam search related arguments are ignored.
Args:
encoder_output: A tensor, output from encoder.
encoder_decoder_attention_bias: A tensor, bias for use in encoder-decoder
attention.
symbols_to_logits_fn: Incremental decoding, function mapping triple `(ids,
step, cache)` to symbol logits.
hparams: Run hyperparameters.
decode_length: An integer, how many additional timesteps to decode.
vocab_size: Output vocabulary size.
init_cache_fn: Function that returns the initial cache dict.
beam_size: An integer, number of beams.
top_beams: An integer, how many of the beams to return.
alpha: A float that controls the length penalty. Larger the alpha, stronger
the preference for longer translations.
sos_id: Start-of-sequence symbol.
eos_id: End-of-sequence symbol.
batch_size: An integer, must be passed if there is no input.
force_decode_length: A bool, whether to force the full decode length, or if
False, stop when all beams hit eos_id.
scope_prefix: str, prefix for decoder layer variable scopes.
use_top_k_with_unique: bool, whether to use a fast (but decreased precision)
top_k during beam search.
Returns:
A dict of decoding results {
"outputs": integer `Tensor` of decoded ids of shape
[batch_size, <= decode_length] if top_beams == 1 or
[batch_size, top_beams, <= decode_length] otherwise
"scores": decoding log probs from the beam search,
None if using greedy decoding (beam_size=1)
}.
Raises:
NotImplementedError: If beam size > 1 with partial targets.
"""
if encoder_output is not None:
batch_size = common_layers.shape_list(encoder_output)[0]
cache = init_cache_fn(None, hparams, batch_size, decode_length,
encoder_output, encoder_decoder_attention_bias,
scope_prefix)
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_SEQ_BEAM_SEARCH,
value={
"vocab_size": vocab_size,
"batch_size": batch_size,
"beam_size": beam_size,
"alpha": alpha,
"max_decode_length": decode_length
},
hparams=hparams)
if beam_size > 1: # Beam Search
initial_ids = sos_id * tf.ones([batch_size], dtype=tf.int32)
decoded_ids, scores, _ = beam_search.beam_search(
symbols_to_logits_fn,
initial_ids,
beam_size,
decode_length,
vocab_size,
alpha,
states=cache,
eos_id=eos_id,
stop_early=(top_beams == 1),
use_tpu=True,
use_top_k_with_unique=use_top_k_with_unique)
if top_beams == 1:
decoded_ids = decoded_ids[:, 0, 1:]
scores = scores[:, 0]
else:
decoded_ids = decoded_ids[:, :top_beams, 1:]
scores = scores[:, :top_beams]
else: # Greedy
def inner_loop(i, hit_eos, next_id, decoded_ids, cache, log_prob):
"""One step of greedy decoding."""
logits, cache = symbols_to_logits_fn(next_id, i, cache)
log_probs = common_layers.log_prob_from_logits(logits)
temperature = getattr(hparams, "sampling_temp", 0.0)
keep_top = getattr(hparams, "sampling_keep_top_k", -1)
if hparams.sampling_method == "argmax":
temperature = 0.0
next_id = common_layers.sample_with_temperature(
logits, temperature, keep_top)
hit_eos |= tf.equal(next_id, eos_id)
log_prob_indices = tf.stack([tf.range(tf.to_int64(batch_size)), next_id],
axis=1)
log_prob += tf.gather_nd(log_probs, log_prob_indices)
next_id = tf.expand_dims(next_id, axis=1)
decoded_ids = tf.transpose(decoded_ids)
decoded_ids = inplace_ops.alias_inplace_update(
decoded_ids, i, tf.squeeze(next_id, axis=1))
decoded_ids = tf.transpose(decoded_ids)
return i + 1, hit_eos, next_id, decoded_ids, cache, log_prob
def is_not_finished(i, hit_eos, *_):
finished = i >= decode_length
if not force_decode_length:
finished |= tf.reduce_all(hit_eos)
return tf.logical_not(finished)
decoded_ids = tf.zeros([batch_size, decode_length], dtype=tf.int64)
hit_eos = tf.fill([batch_size], False)
next_id = sos_id * tf.ones([batch_size, 1], dtype=tf.int64)
initial_log_prob = tf.zeros([batch_size], dtype=tf.float32)
def compute_cache_shape_invariants(tensor):
return tf.TensorShape(tensor.shape.as_list())
_, _, _, decoded_ids, _, log_prob = tf.while_loop(
is_not_finished,
inner_loop, [
tf.constant(0), hit_eos, next_id, decoded_ids, cache,
initial_log_prob
],
shape_invariants=[
tf.TensorShape([]),
tf.TensorShape([batch_size]),
tf.TensorShape([batch_size, 1]),
tf.TensorShape([batch_size, decode_length]),
nest.map_structure(compute_cache_shape_invariants, cache),
tf.TensorShape([batch_size]),
])
scores = log_prob
return {"outputs": decoded_ids, "scores": scores} | def fast_decode_tpu(encoder_output,
encoder_decoder_attention_bias,
symbols_to_logits_fn,
hparams,
decode_length,
vocab_size,
init_cache_fn=_init_transformer_cache,
beam_size=1,
top_beams=1,
alpha=1.0,
sos_id=0,
eos_id=beam_search.EOS_ID,
batch_size=None,
force_decode_length=False,
scope_prefix="body/",
use_top_k_with_unique=True):
"""Given encoder output and a symbols to logits function, does fast decoding.
Implements both greedy and beam search decoding for TPU, uses beam search iff
beam_size > 1, otherwise beam search related arguments are ignored.
Args:
encoder_output: A tensor, output from encoder.
encoder_decoder_attention_bias: A tensor, bias for use in encoder-decoder
attention.
symbols_to_logits_fn: Incremental decoding, function mapping triple `(ids,
step, cache)` to symbol logits.
hparams: Run hyperparameters.
decode_length: An integer, how many additional timesteps to decode.
vocab_size: Output vocabulary size.
init_cache_fn: Function that returns the initial cache dict.
beam_size: An integer, number of beams.
top_beams: An integer, how many of the beams to return.
alpha: A float that controls the length penalty. Larger the alpha, stronger
the preference for longer translations.
sos_id: Start-of-sequence symbol.
eos_id: End-of-sequence symbol.
batch_size: An integer, must be passed if there is no input.
force_decode_length: A bool, whether to force the full decode length, or if
False, stop when all beams hit eos_id.
scope_prefix: str, prefix for decoder layer variable scopes.
use_top_k_with_unique: bool, whether to use a fast (but decreased precision)
top_k during beam search.
Returns:
A dict of decoding results {
"outputs": integer `Tensor` of decoded ids of shape
[batch_size, <= decode_length] if top_beams == 1 or
[batch_size, top_beams, <= decode_length] otherwise
"scores": decoding log probs from the beam search,
None if using greedy decoding (beam_size=1)
}.
Raises:
NotImplementedError: If beam size > 1 with partial targets.
"""
if encoder_output is not None:
batch_size = common_layers.shape_list(encoder_output)[0]
cache = init_cache_fn(None, hparams, batch_size, decode_length,
encoder_output, encoder_decoder_attention_bias,
scope_prefix)
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_SEQ_BEAM_SEARCH,
value={
"vocab_size": vocab_size,
"batch_size": batch_size,
"beam_size": beam_size,
"alpha": alpha,
"max_decode_length": decode_length
},
hparams=hparams)
if beam_size > 1: # Beam Search
initial_ids = sos_id * tf.ones([batch_size], dtype=tf.int32)
decoded_ids, scores, _ = beam_search.beam_search(
symbols_to_logits_fn,
initial_ids,
beam_size,
decode_length,
vocab_size,
alpha,
states=cache,
eos_id=eos_id,
stop_early=(top_beams == 1),
use_tpu=True,
use_top_k_with_unique=use_top_k_with_unique)
if top_beams == 1:
decoded_ids = decoded_ids[:, 0, 1:]
scores = scores[:, 0]
else:
decoded_ids = decoded_ids[:, :top_beams, 1:]
scores = scores[:, :top_beams]
else: # Greedy
def inner_loop(i, hit_eos, next_id, decoded_ids, cache, log_prob):
"""One step of greedy decoding."""
logits, cache = symbols_to_logits_fn(next_id, i, cache)
log_probs = common_layers.log_prob_from_logits(logits)
temperature = getattr(hparams, "sampling_temp", 0.0)
keep_top = getattr(hparams, "sampling_keep_top_k", -1)
if hparams.sampling_method == "argmax":
temperature = 0.0
next_id = common_layers.sample_with_temperature(
logits, temperature, keep_top)
hit_eos |= tf.equal(next_id, eos_id)
log_prob_indices = tf.stack([tf.range(tf.to_int64(batch_size)), next_id],
axis=1)
log_prob += tf.gather_nd(log_probs, log_prob_indices)
next_id = tf.expand_dims(next_id, axis=1)
decoded_ids = tf.transpose(decoded_ids)
decoded_ids = inplace_ops.alias_inplace_update(
decoded_ids, i, tf.squeeze(next_id, axis=1))
decoded_ids = tf.transpose(decoded_ids)
return i + 1, hit_eos, next_id, decoded_ids, cache, log_prob
def is_not_finished(i, hit_eos, *_):
finished = i >= decode_length
if not force_decode_length:
finished |= tf.reduce_all(hit_eos)
return tf.logical_not(finished)
decoded_ids = tf.zeros([batch_size, decode_length], dtype=tf.int64)
hit_eos = tf.fill([batch_size], False)
next_id = sos_id * tf.ones([batch_size, 1], dtype=tf.int64)
initial_log_prob = tf.zeros([batch_size], dtype=tf.float32)
def compute_cache_shape_invariants(tensor):
return tf.TensorShape(tensor.shape.as_list())
_, _, _, decoded_ids, _, log_prob = tf.while_loop(
is_not_finished,
inner_loop, [
tf.constant(0), hit_eos, next_id, decoded_ids, cache,
initial_log_prob
],
shape_invariants=[
tf.TensorShape([]),
tf.TensorShape([batch_size]),
tf.TensorShape([batch_size, 1]),
tf.TensorShape([batch_size, decode_length]),
nest.map_structure(compute_cache_shape_invariants, cache),
tf.TensorShape([batch_size]),
])
scores = log_prob
return {"outputs": decoded_ids, "scores": scores} | [
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/transformer.py#L895-L1045 | [
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train | fast_decode | Given encoder output and a symbols to logits function, does fast decoding.
Implements both greedy and beam search decoding, uses beam search iff
beam_size > 1, otherwise beam search related arguments are ignored.
Args:
encoder_output: Output from encoder.
encoder_decoder_attention_bias: a bias tensor for use in encoder-decoder
attention
symbols_to_logits_fn: Incremental decoding; function mapping triple `(ids,
step, cache)` to symbol logits.
hparams: run hyperparameters
decode_length: an integer. How many additional timesteps to decode.
vocab_size: Output vocabulary size.
init_cache_fn: Function that returns the initial cache dict.
beam_size: number of beams.
top_beams: an integer. How many of the beams to return.
alpha: Float that controls the length penalty. larger the alpha, stronger
the preference for longer translations.
sos_id: End-of-sequence symbol in beam search.
eos_id: End-of-sequence symbol in beam search.
batch_size: an integer scalar - must be passed if there is no input
force_decode_length: bool, whether to force the full decode length, or if
False, stop when all beams hit eos_id.
scope_prefix: str, prefix for decoder layer variable scopes.
cache: cache dictionary for additional predictions.
Returns:
A dict of decoding results {
"outputs": integer `Tensor` of decoded ids of shape
[batch_size, <= decode_length] if top_beams == 1 or
[batch_size, top_beams, <= decode_length] otherwise
"scores": decoding log probs from the beam search,
None if using greedy decoding (beam_size=1)
}
Raises:
NotImplementedError: If beam size > 1 with partial targets. | tensor2tensor/models/transformer.py | def fast_decode(encoder_output,
encoder_decoder_attention_bias,
symbols_to_logits_fn,
hparams,
decode_length,
vocab_size,
init_cache_fn=_init_transformer_cache,
beam_size=1,
top_beams=1,
alpha=1.0,
sos_id=0,
eos_id=beam_search.EOS_ID,
batch_size=None,
force_decode_length=False,
scope_prefix="body/",
cache=None):
"""Given encoder output and a symbols to logits function, does fast decoding.
Implements both greedy and beam search decoding, uses beam search iff
beam_size > 1, otherwise beam search related arguments are ignored.
Args:
encoder_output: Output from encoder.
encoder_decoder_attention_bias: a bias tensor for use in encoder-decoder
attention
symbols_to_logits_fn: Incremental decoding; function mapping triple `(ids,
step, cache)` to symbol logits.
hparams: run hyperparameters
decode_length: an integer. How many additional timesteps to decode.
vocab_size: Output vocabulary size.
init_cache_fn: Function that returns the initial cache dict.
beam_size: number of beams.
top_beams: an integer. How many of the beams to return.
alpha: Float that controls the length penalty. larger the alpha, stronger
the preference for longer translations.
sos_id: End-of-sequence symbol in beam search.
eos_id: End-of-sequence symbol in beam search.
batch_size: an integer scalar - must be passed if there is no input
force_decode_length: bool, whether to force the full decode length, or if
False, stop when all beams hit eos_id.
scope_prefix: str, prefix for decoder layer variable scopes.
cache: cache dictionary for additional predictions.
Returns:
A dict of decoding results {
"outputs": integer `Tensor` of decoded ids of shape
[batch_size, <= decode_length] if top_beams == 1 or
[batch_size, top_beams, <= decode_length] otherwise
"scores": decoding log probs from the beam search,
None if using greedy decoding (beam_size=1)
}
Raises:
NotImplementedError: If beam size > 1 with partial targets.
"""
if encoder_output is not None:
batch_size = common_layers.shape_list(encoder_output)[0]
cache = init_cache_fn(
cache=cache,
hparams=hparams,
batch_size=batch_size,
attention_init_length=0,
encoder_output=encoder_output,
encoder_decoder_attention_bias=encoder_decoder_attention_bias,
scope_prefix=scope_prefix)
if beam_size > 1: # Beam Search
initial_ids = sos_id * tf.ones([batch_size], dtype=tf.int32)
decoded_ids, scores, cache = beam_search.beam_search(
symbols_to_logits_fn,
initial_ids,
beam_size,
decode_length,
vocab_size,
alpha,
states=cache,
eos_id=eos_id,
stop_early=(top_beams == 1))
if top_beams == 1:
decoded_ids = decoded_ids[:, 0, 1:]
scores = scores[:, 0]
else:
decoded_ids = decoded_ids[:, :top_beams, 1:]
scores = scores[:, :top_beams]
else: # Greedy
def inner_loop(i, hit_eos, next_id, decoded_ids, cache, log_prob):
"""One step of greedy decoding."""
logits, cache = symbols_to_logits_fn(next_id, i, cache)
log_probs = common_layers.log_prob_from_logits(logits)
temperature = getattr(hparams, "sampling_temp", 0.0)
keep_top = getattr(hparams, "sampling_keep_top_k", -1)
if hparams.sampling_method == "argmax":
temperature = 0.0
next_id = common_layers.sample_with_temperature(
logits, temperature, keep_top)
hit_eos |= tf.equal(next_id, eos_id)
log_prob_indices = tf.stack([tf.range(tf.to_int64(batch_size)), next_id],
axis=1)
log_prob += tf.gather_nd(log_probs, log_prob_indices)
next_id = tf.expand_dims(next_id, axis=1)
decoded_ids = tf.concat([decoded_ids, next_id], axis=1)
return i + 1, hit_eos, next_id, decoded_ids, cache, log_prob
def is_not_finished(i, hit_eos, *_):
finished = i >= decode_length
if not force_decode_length:
finished |= tf.reduce_all(hit_eos)
return tf.logical_not(finished)
decoded_ids = tf.zeros([batch_size, 0], dtype=tf.int64)
hit_eos = tf.fill([batch_size], False)
next_id = sos_id * tf.ones([batch_size, 1], dtype=tf.int64)
initial_log_prob = tf.zeros([batch_size], dtype=tf.float32)
_, _, _, decoded_ids, cache, log_prob = tf.while_loop(
is_not_finished,
inner_loop, [
tf.constant(0), hit_eos, next_id, decoded_ids, cache,
initial_log_prob
],
shape_invariants=[
tf.TensorShape([]),
tf.TensorShape([None]),
tf.TensorShape([None, None]),
tf.TensorShape([None, None]),
nest.map_structure(beam_search.get_state_shape_invariants, cache),
tf.TensorShape([None]),
])
scores = log_prob
return {"outputs": decoded_ids, "scores": scores, "cache": cache} | def fast_decode(encoder_output,
encoder_decoder_attention_bias,
symbols_to_logits_fn,
hparams,
decode_length,
vocab_size,
init_cache_fn=_init_transformer_cache,
beam_size=1,
top_beams=1,
alpha=1.0,
sos_id=0,
eos_id=beam_search.EOS_ID,
batch_size=None,
force_decode_length=False,
scope_prefix="body/",
cache=None):
"""Given encoder output and a symbols to logits function, does fast decoding.
Implements both greedy and beam search decoding, uses beam search iff
beam_size > 1, otherwise beam search related arguments are ignored.
Args:
encoder_output: Output from encoder.
encoder_decoder_attention_bias: a bias tensor for use in encoder-decoder
attention
symbols_to_logits_fn: Incremental decoding; function mapping triple `(ids,
step, cache)` to symbol logits.
hparams: run hyperparameters
decode_length: an integer. How many additional timesteps to decode.
vocab_size: Output vocabulary size.
init_cache_fn: Function that returns the initial cache dict.
beam_size: number of beams.
top_beams: an integer. How many of the beams to return.
alpha: Float that controls the length penalty. larger the alpha, stronger
the preference for longer translations.
sos_id: End-of-sequence symbol in beam search.
eos_id: End-of-sequence symbol in beam search.
batch_size: an integer scalar - must be passed if there is no input
force_decode_length: bool, whether to force the full decode length, or if
False, stop when all beams hit eos_id.
scope_prefix: str, prefix for decoder layer variable scopes.
cache: cache dictionary for additional predictions.
Returns:
A dict of decoding results {
"outputs": integer `Tensor` of decoded ids of shape
[batch_size, <= decode_length] if top_beams == 1 or
[batch_size, top_beams, <= decode_length] otherwise
"scores": decoding log probs from the beam search,
None if using greedy decoding (beam_size=1)
}
Raises:
NotImplementedError: If beam size > 1 with partial targets.
"""
if encoder_output is not None:
batch_size = common_layers.shape_list(encoder_output)[0]
cache = init_cache_fn(
cache=cache,
hparams=hparams,
batch_size=batch_size,
attention_init_length=0,
encoder_output=encoder_output,
encoder_decoder_attention_bias=encoder_decoder_attention_bias,
scope_prefix=scope_prefix)
if beam_size > 1: # Beam Search
initial_ids = sos_id * tf.ones([batch_size], dtype=tf.int32)
decoded_ids, scores, cache = beam_search.beam_search(
symbols_to_logits_fn,
initial_ids,
beam_size,
decode_length,
vocab_size,
alpha,
states=cache,
eos_id=eos_id,
stop_early=(top_beams == 1))
if top_beams == 1:
decoded_ids = decoded_ids[:, 0, 1:]
scores = scores[:, 0]
else:
decoded_ids = decoded_ids[:, :top_beams, 1:]
scores = scores[:, :top_beams]
else: # Greedy
def inner_loop(i, hit_eos, next_id, decoded_ids, cache, log_prob):
"""One step of greedy decoding."""
logits, cache = symbols_to_logits_fn(next_id, i, cache)
log_probs = common_layers.log_prob_from_logits(logits)
temperature = getattr(hparams, "sampling_temp", 0.0)
keep_top = getattr(hparams, "sampling_keep_top_k", -1)
if hparams.sampling_method == "argmax":
temperature = 0.0
next_id = common_layers.sample_with_temperature(
logits, temperature, keep_top)
hit_eos |= tf.equal(next_id, eos_id)
log_prob_indices = tf.stack([tf.range(tf.to_int64(batch_size)), next_id],
axis=1)
log_prob += tf.gather_nd(log_probs, log_prob_indices)
next_id = tf.expand_dims(next_id, axis=1)
decoded_ids = tf.concat([decoded_ids, next_id], axis=1)
return i + 1, hit_eos, next_id, decoded_ids, cache, log_prob
def is_not_finished(i, hit_eos, *_):
finished = i >= decode_length
if not force_decode_length:
finished |= tf.reduce_all(hit_eos)
return tf.logical_not(finished)
decoded_ids = tf.zeros([batch_size, 0], dtype=tf.int64)
hit_eos = tf.fill([batch_size], False)
next_id = sos_id * tf.ones([batch_size, 1], dtype=tf.int64)
initial_log_prob = tf.zeros([batch_size], dtype=tf.float32)
_, _, _, decoded_ids, cache, log_prob = tf.while_loop(
is_not_finished,
inner_loop, [
tf.constant(0), hit_eos, next_id, decoded_ids, cache,
initial_log_prob
],
shape_invariants=[
tf.TensorShape([]),
tf.TensorShape([None]),
tf.TensorShape([None, None]),
tf.TensorShape([None, None]),
nest.map_structure(beam_search.get_state_shape_invariants, cache),
tf.TensorShape([None]),
])
scores = log_prob
return {"outputs": decoded_ids, "scores": scores, "cache": cache} | [
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"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/transformer.py#L1048-L1182 | [
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... | 272500b6efe353aeb638d2745ed56e519462ca31 |
train | transformer_prepare_decoder | Prepare one shard of the model for the decoder.
Args:
targets: a Tensor.
hparams: run hyperparameters
features: optionally pass the entire features dictionary as well. This is
needed now for "packed" datasets.
Returns:
decoder_input: a Tensor, bottom of decoder stack
decoder_self_attention_bias: a bias tensor for use in decoder self-attention | tensor2tensor/models/transformer.py | def transformer_prepare_decoder(targets, hparams, features=None):
"""Prepare one shard of the model for the decoder.
Args:
targets: a Tensor.
hparams: run hyperparameters
features: optionally pass the entire features dictionary as well. This is
needed now for "packed" datasets.
Returns:
decoder_input: a Tensor, bottom of decoder stack
decoder_self_attention_bias: a bias tensor for use in decoder self-attention
"""
if hparams.causal_decoder_self_attention:
# Causal attention.
if hparams.prepend_mode == "prepend_inputs_full_attention":
decoder_self_attention_bias = (
common_attention.attention_bias_prepend_inputs_full_attention(
common_attention.embedding_to_padding(targets)))
else:
decoder_self_attention_bias = (
common_attention.attention_bias_lower_triangle(
common_layers.shape_list(targets)[1]))
else:
# Full attention.
decoder_padding = common_attention.embedding_to_padding(targets)
decoder_self_attention_bias = (
common_attention.attention_bias_ignore_padding(decoder_padding))
if features and "targets_segmentation" in features:
# "Packed" dataset - keep the examples from seeing each other.
targets_segmentation = features["targets_segmentation"]
targets_position = features["targets_position"]
decoder_self_attention_bias += common_attention.attention_bias_same_segment(
targets_segmentation, targets_segmentation)
else:
targets_position = None
if hparams.proximity_bias:
decoder_self_attention_bias += common_attention.attention_bias_proximal(
common_layers.shape_list(targets)[1])
decoder_input = common_layers.shift_right_3d(targets)
if hparams.pos == "timing":
if targets_position is not None:
decoder_input = common_attention.add_timing_signal_1d_given_position(
decoder_input, targets_position)
else:
decoder_input = common_attention.add_timing_signal_1d(decoder_input)
elif hparams.pos == "emb":
decoder_input = common_attention.add_positional_embedding(
decoder_input, hparams.max_length, "targets_positional_embedding",
targets_position)
if hparams.activation_dtype == "bfloat16":
decoder_self_attention_bias = tf.cast(decoder_self_attention_bias,
tf.bfloat16)
return (decoder_input, decoder_self_attention_bias) | def transformer_prepare_decoder(targets, hparams, features=None):
"""Prepare one shard of the model for the decoder.
Args:
targets: a Tensor.
hparams: run hyperparameters
features: optionally pass the entire features dictionary as well. This is
needed now for "packed" datasets.
Returns:
decoder_input: a Tensor, bottom of decoder stack
decoder_self_attention_bias: a bias tensor for use in decoder self-attention
"""
if hparams.causal_decoder_self_attention:
# Causal attention.
if hparams.prepend_mode == "prepend_inputs_full_attention":
decoder_self_attention_bias = (
common_attention.attention_bias_prepend_inputs_full_attention(
common_attention.embedding_to_padding(targets)))
else:
decoder_self_attention_bias = (
common_attention.attention_bias_lower_triangle(
common_layers.shape_list(targets)[1]))
else:
# Full attention.
decoder_padding = common_attention.embedding_to_padding(targets)
decoder_self_attention_bias = (
common_attention.attention_bias_ignore_padding(decoder_padding))
if features and "targets_segmentation" in features:
# "Packed" dataset - keep the examples from seeing each other.
targets_segmentation = features["targets_segmentation"]
targets_position = features["targets_position"]
decoder_self_attention_bias += common_attention.attention_bias_same_segment(
targets_segmentation, targets_segmentation)
else:
targets_position = None
if hparams.proximity_bias:
decoder_self_attention_bias += common_attention.attention_bias_proximal(
common_layers.shape_list(targets)[1])
decoder_input = common_layers.shift_right_3d(targets)
if hparams.pos == "timing":
if targets_position is not None:
decoder_input = common_attention.add_timing_signal_1d_given_position(
decoder_input, targets_position)
else:
decoder_input = common_attention.add_timing_signal_1d(decoder_input)
elif hparams.pos == "emb":
decoder_input = common_attention.add_positional_embedding(
decoder_input, hparams.max_length, "targets_positional_embedding",
targets_position)
if hparams.activation_dtype == "bfloat16":
decoder_self_attention_bias = tf.cast(decoder_self_attention_bias,
tf.bfloat16)
return (decoder_input, decoder_self_attention_bias) | [
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/models/transformer.py#L1281-L1336 | [
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train | transformer_decoder | A stack of transformer layers.
Args:
decoder_input: a Tensor
encoder_output: a Tensor
decoder_self_attention_bias: bias Tensor for self-attention (see
common_attention.attention_bias())
encoder_decoder_attention_bias: bias Tensor for encoder-decoder attention
(see common_attention.attention_bias())
hparams: hyperparameters for model
cache: dict, containing tensors which are the results of previous
attentions, used for fast decoding.
decode_loop_step: An integer, step number of the decoding loop. Only used
for inference on TPU.
name: a string
nonpadding: optional Tensor with shape [batch_size, encoder_length]
indicating what positions are not padding. This is used to mask out
padding in convolutional layers. We generally only need this mask for
"packed" datasets, because for ordinary datasets, no padding is ever
followed by nonpadding.
save_weights_to: an optional dictionary to capture attention weights for
visualization; the weights tensor will be appended there under a string
key created from the variable scope (including name).
make_image_summary: Whether to make an attention image summary.
losses: optional list onto which to append extra training losses
layer_collection: A tensorflow_kfac.LayerCollection. Only used by the
KFAC optimizer. Default is None.
recurrent_memory_by_layer: Optional dict, mapping layer names to instances
of transformer_memory.RecurrentMemory. Default is None.
chunk_number: an optional integer Tensor with shape [batch] used to operate
the recurrent_memory.
Returns:
y: a Tensors | tensor2tensor/models/transformer.py | def transformer_decoder(decoder_input,
encoder_output,
decoder_self_attention_bias,
encoder_decoder_attention_bias,
hparams,
cache=None,
decode_loop_step=None,
name="decoder",
nonpadding=None,
save_weights_to=None,
make_image_summary=True,
losses=None,
layer_collection=None,
recurrent_memory_by_layer=None,
chunk_number=None,
):
"""A stack of transformer layers.
Args:
decoder_input: a Tensor
encoder_output: a Tensor
decoder_self_attention_bias: bias Tensor for self-attention (see
common_attention.attention_bias())
encoder_decoder_attention_bias: bias Tensor for encoder-decoder attention
(see common_attention.attention_bias())
hparams: hyperparameters for model
cache: dict, containing tensors which are the results of previous
attentions, used for fast decoding.
decode_loop_step: An integer, step number of the decoding loop. Only used
for inference on TPU.
name: a string
nonpadding: optional Tensor with shape [batch_size, encoder_length]
indicating what positions are not padding. This is used to mask out
padding in convolutional layers. We generally only need this mask for
"packed" datasets, because for ordinary datasets, no padding is ever
followed by nonpadding.
save_weights_to: an optional dictionary to capture attention weights for
visualization; the weights tensor will be appended there under a string
key created from the variable scope (including name).
make_image_summary: Whether to make an attention image summary.
losses: optional list onto which to append extra training losses
layer_collection: A tensorflow_kfac.LayerCollection. Only used by the
KFAC optimizer. Default is None.
recurrent_memory_by_layer: Optional dict, mapping layer names to instances
of transformer_memory.RecurrentMemory. Default is None.
chunk_number: an optional integer Tensor with shape [batch] used to operate
the recurrent_memory.
Returns:
y: a Tensors
"""
x = decoder_input
attention_dropout_broadcast_dims = (
common_layers.comma_separated_string_to_integer_list(
getattr(hparams, "attention_dropout_broadcast_dims", "")))
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_NUM_HIDDEN_LAYERS,
value=hparams.num_decoder_layers or hparams.num_hidden_layers,
hparams=hparams)
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_ATTENTION_DROPOUT,
value=hparams.attention_dropout,
hparams=hparams)
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_ATTENTION_DENSE,
value={
"use_bias": "false",
"num_heads": hparams.num_heads,
"hidden_size": hparams.hidden_size
},
hparams=hparams)
with tf.variable_scope(name):
for layer in range(hparams.num_decoder_layers or hparams.num_hidden_layers):
layer_name = "layer_%d" % layer
layer_cache = cache[layer_name] if cache is not None else None
if recurrent_memory_by_layer is not None:
recurrent_memory = recurrent_memory_by_layer[layer_name]
else:
recurrent_memory = None
if layer < hparams.get("num_area_layers", 0):
max_area_width = hparams.get("max_area_width", 1)
max_area_height = hparams.get("max_area_height", 1)
memory_height = hparams.get("max_area_height", 1)
else:
max_area_width = 1
max_area_height = 1
memory_height = 1
with tf.variable_scope(layer_name):
with tf.variable_scope("self_attention"):
y = common_attention.multihead_attention(
common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection),
None,
decoder_self_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=hparams.self_attention_type,
max_relative_position=hparams.max_relative_position,
heads_share_relative_embedding=(
hparams.heads_share_relative_embedding),
add_relative_to_values=hparams.add_relative_to_values,
save_weights_to=save_weights_to,
cache=layer_cache,
make_image_summary=make_image_summary,
dropout_broadcast_dims=attention_dropout_broadcast_dims,
max_length=hparams.get("max_length"),
decode_loop_step=decode_loop_step,
vars_3d=hparams.get("attention_variables_3d"),
activation_dtype=hparams.get("activation_dtype", "float32"),
weight_dtype=hparams.get("weight_dtype", "float32"),
layer_collection=layer_collection,
recurrent_memory=recurrent_memory,
chunk_number=chunk_number,
hard_attention_k=hparams.get("hard_attention_k", 0),
max_area_width=max_area_width,
max_area_height=max_area_height,
memory_height=memory_height,
area_key_mode=hparams.get("area_key_mode", "none"),
area_value_mode=hparams.get("area_value_mode", "none"),
training=(hparams.get("mode", tf.estimator.ModeKeys.TRAIN)
== tf.estimator.ModeKeys.TRAIN))
x = common_layers.layer_postprocess(x, y, hparams)
if encoder_output is not None:
with tf.variable_scope("encdec_attention"):
y = common_attention.multihead_attention(
common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection),
encoder_output,
encoder_decoder_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
max_relative_position=hparams.max_relative_position,
heads_share_relative_embedding=(
hparams.heads_share_relative_embedding),
add_relative_to_values=hparams.add_relative_to_values,
save_weights_to=save_weights_to,
cache=layer_cache,
make_image_summary=make_image_summary,
dropout_broadcast_dims=attention_dropout_broadcast_dims,
max_length=hparams.get("max_length"),
vars_3d=hparams.get("attention_variables_3d"),
activation_dtype=hparams.get("activation_dtype", "float32"),
weight_dtype=hparams.get("weight_dtype", "float32"),
layer_collection=layer_collection,
hard_attention_k=hparams.get("hard_attention_k", 0),
max_area_width=max_area_width,
max_area_height=max_area_height,
memory_height=memory_height,
area_key_mode=hparams.get("area_key_mode", "none"),
area_value_mode=hparams.get("area_value_mode", "none"),
training=(hparams.get("mode", tf.estimator.ModeKeys.TRAIN)
== tf.estimator.ModeKeys.TRAIN))
x = common_layers.layer_postprocess(x, y, hparams)
with tf.variable_scope("ffn"):
y = transformer_ffn_layer(
common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection),
hparams,
conv_padding="LEFT",
nonpadding_mask=nonpadding,
losses=losses,
cache=layer_cache,
decode_loop_step=decode_loop_step,
layer_collection=layer_collection)
x = common_layers.layer_postprocess(x, y, hparams)
# if normalization is done in layer_preprocess, then it should also be done
# on the output, since the output can grow very large, being the sum of
# a whole stack of unnormalized layer outputs.
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_NORM,
value={"hidden_size": hparams.hidden_size})
return common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection) | def transformer_decoder(decoder_input,
encoder_output,
decoder_self_attention_bias,
encoder_decoder_attention_bias,
hparams,
cache=None,
decode_loop_step=None,
name="decoder",
nonpadding=None,
save_weights_to=None,
make_image_summary=True,
losses=None,
layer_collection=None,
recurrent_memory_by_layer=None,
chunk_number=None,
):
"""A stack of transformer layers.
Args:
decoder_input: a Tensor
encoder_output: a Tensor
decoder_self_attention_bias: bias Tensor for self-attention (see
common_attention.attention_bias())
encoder_decoder_attention_bias: bias Tensor for encoder-decoder attention
(see common_attention.attention_bias())
hparams: hyperparameters for model
cache: dict, containing tensors which are the results of previous
attentions, used for fast decoding.
decode_loop_step: An integer, step number of the decoding loop. Only used
for inference on TPU.
name: a string
nonpadding: optional Tensor with shape [batch_size, encoder_length]
indicating what positions are not padding. This is used to mask out
padding in convolutional layers. We generally only need this mask for
"packed" datasets, because for ordinary datasets, no padding is ever
followed by nonpadding.
save_weights_to: an optional dictionary to capture attention weights for
visualization; the weights tensor will be appended there under a string
key created from the variable scope (including name).
make_image_summary: Whether to make an attention image summary.
losses: optional list onto which to append extra training losses
layer_collection: A tensorflow_kfac.LayerCollection. Only used by the
KFAC optimizer. Default is None.
recurrent_memory_by_layer: Optional dict, mapping layer names to instances
of transformer_memory.RecurrentMemory. Default is None.
chunk_number: an optional integer Tensor with shape [batch] used to operate
the recurrent_memory.
Returns:
y: a Tensors
"""
x = decoder_input
attention_dropout_broadcast_dims = (
common_layers.comma_separated_string_to_integer_list(
getattr(hparams, "attention_dropout_broadcast_dims", "")))
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_NUM_HIDDEN_LAYERS,
value=hparams.num_decoder_layers or hparams.num_hidden_layers,
hparams=hparams)
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_ATTENTION_DROPOUT,
value=hparams.attention_dropout,
hparams=hparams)
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_ATTENTION_DENSE,
value={
"use_bias": "false",
"num_heads": hparams.num_heads,
"hidden_size": hparams.hidden_size
},
hparams=hparams)
with tf.variable_scope(name):
for layer in range(hparams.num_decoder_layers or hparams.num_hidden_layers):
layer_name = "layer_%d" % layer
layer_cache = cache[layer_name] if cache is not None else None
if recurrent_memory_by_layer is not None:
recurrent_memory = recurrent_memory_by_layer[layer_name]
else:
recurrent_memory = None
if layer < hparams.get("num_area_layers", 0):
max_area_width = hparams.get("max_area_width", 1)
max_area_height = hparams.get("max_area_height", 1)
memory_height = hparams.get("max_area_height", 1)
else:
max_area_width = 1
max_area_height = 1
memory_height = 1
with tf.variable_scope(layer_name):
with tf.variable_scope("self_attention"):
y = common_attention.multihead_attention(
common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection),
None,
decoder_self_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=hparams.self_attention_type,
max_relative_position=hparams.max_relative_position,
heads_share_relative_embedding=(
hparams.heads_share_relative_embedding),
add_relative_to_values=hparams.add_relative_to_values,
save_weights_to=save_weights_to,
cache=layer_cache,
make_image_summary=make_image_summary,
dropout_broadcast_dims=attention_dropout_broadcast_dims,
max_length=hparams.get("max_length"),
decode_loop_step=decode_loop_step,
vars_3d=hparams.get("attention_variables_3d"),
activation_dtype=hparams.get("activation_dtype", "float32"),
weight_dtype=hparams.get("weight_dtype", "float32"),
layer_collection=layer_collection,
recurrent_memory=recurrent_memory,
chunk_number=chunk_number,
hard_attention_k=hparams.get("hard_attention_k", 0),
max_area_width=max_area_width,
max_area_height=max_area_height,
memory_height=memory_height,
area_key_mode=hparams.get("area_key_mode", "none"),
area_value_mode=hparams.get("area_value_mode", "none"),
training=(hparams.get("mode", tf.estimator.ModeKeys.TRAIN)
== tf.estimator.ModeKeys.TRAIN))
x = common_layers.layer_postprocess(x, y, hparams)
if encoder_output is not None:
with tf.variable_scope("encdec_attention"):
y = common_attention.multihead_attention(
common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection),
encoder_output,
encoder_decoder_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
max_relative_position=hparams.max_relative_position,
heads_share_relative_embedding=(
hparams.heads_share_relative_embedding),
add_relative_to_values=hparams.add_relative_to_values,
save_weights_to=save_weights_to,
cache=layer_cache,
make_image_summary=make_image_summary,
dropout_broadcast_dims=attention_dropout_broadcast_dims,
max_length=hparams.get("max_length"),
vars_3d=hparams.get("attention_variables_3d"),
activation_dtype=hparams.get("activation_dtype", "float32"),
weight_dtype=hparams.get("weight_dtype", "float32"),
layer_collection=layer_collection,
hard_attention_k=hparams.get("hard_attention_k", 0),
max_area_width=max_area_width,
max_area_height=max_area_height,
memory_height=memory_height,
area_key_mode=hparams.get("area_key_mode", "none"),
area_value_mode=hparams.get("area_value_mode", "none"),
training=(hparams.get("mode", tf.estimator.ModeKeys.TRAIN)
== tf.estimator.ModeKeys.TRAIN))
x = common_layers.layer_postprocess(x, y, hparams)
with tf.variable_scope("ffn"):
y = transformer_ffn_layer(
common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection),
hparams,
conv_padding="LEFT",
nonpadding_mask=nonpadding,
losses=losses,
cache=layer_cache,
decode_loop_step=decode_loop_step,
layer_collection=layer_collection)
x = common_layers.layer_postprocess(x, y, hparams)
# if normalization is done in layer_preprocess, then it should also be done
# on the output, since the output can grow very large, being the sum of
# a whole stack of unnormalized layer outputs.
mlperf_log.transformer_print(
key=mlperf_log.MODEL_HP_NORM,
value={"hidden_size": hparams.hidden_size})
return common_layers.layer_preprocess(
x, hparams, layer_collection=layer_collection) | [
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train | transformer_base_v1 | Set of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_base_v1():
"""Set of hyperparameters."""
hparams = common_hparams.basic_params1()
hparams.norm_type = "layer"
hparams.hidden_size = 512
hparams.batch_size = 4096
hparams.max_length = 256
hparams.clip_grad_norm = 0. # i.e. no gradient clipping
hparams.optimizer_adam_epsilon = 1e-9
hparams.learning_rate_schedule = "legacy"
hparams.learning_rate_decay_scheme = "noam"
hparams.learning_rate = 0.1
hparams.learning_rate_warmup_steps = 4000
hparams.initializer_gain = 1.0
hparams.num_hidden_layers = 6
hparams.initializer = "uniform_unit_scaling"
hparams.weight_decay = 0.0
hparams.optimizer_adam_beta1 = 0.9
hparams.optimizer_adam_beta2 = 0.98
hparams.num_sampled_classes = 0
hparams.label_smoothing = 0.1
hparams.shared_embedding_and_softmax_weights = True
hparams.symbol_modality_num_shards = 16
# Add new ones like this.
hparams.add_hparam("filter_size", 2048)
# Layer-related flags. If zero, these fall back on hparams.num_hidden_layers.
hparams.add_hparam("num_encoder_layers", 0)
hparams.add_hparam("num_decoder_layers", 0)
# Attention-related flags.
hparams.add_hparam("num_heads", 8)
hparams.add_hparam("attention_key_channels", 0)
hparams.add_hparam("attention_value_channels", 0)
hparams.add_hparam("ffn_layer", "dense_relu_dense")
hparams.add_hparam("parameter_attention_key_channels", 0)
hparams.add_hparam("parameter_attention_value_channels", 0)
# All hyperparameters ending in "dropout" are automatically set to 0.0
# when not in training mode.
hparams.add_hparam("attention_dropout", 0.0)
hparams.add_hparam("attention_dropout_broadcast_dims", "")
hparams.add_hparam("relu_dropout", 0.0)
hparams.add_hparam("relu_dropout_broadcast_dims", "")
hparams.add_hparam("pos", "timing") # timing, none
hparams.add_hparam("nbr_decoder_problems", 1)
hparams.add_hparam("proximity_bias", False)
hparams.add_hparam("causal_decoder_self_attention", True)
hparams.add_hparam("use_pad_remover", True)
hparams.add_hparam("self_attention_type", "dot_product")
hparams.add_hparam("conv_first_kernel", 3)
hparams.add_hparam("attention_variables_3d", False)
hparams.add_hparam("use_target_space_embedding", True)
# These parameters are only used when ffn_layer=="local_moe_tpu"
hparams.add_hparam("moe_overhead_train", 1.0)
hparams.add_hparam("moe_overhead_eval", 2.0)
hparams.moe_num_experts = 16
hparams.moe_loss_coef = 1e-3
# If specified, use this value instead of problem name in metrics.py.
# This is useful for programs that can automatically compare experiments side
# by side based on the same metric names.
hparams.add_hparam("overload_eval_metric_name", "")
# For making a transformer encoder unidirectional by using masked
# attention.
hparams.add_hparam("unidirectional_encoder", False)
# For hard attention.
hparams.add_hparam("hard_attention_k", 0)
return hparams | def transformer_base_v1():
"""Set of hyperparameters."""
hparams = common_hparams.basic_params1()
hparams.norm_type = "layer"
hparams.hidden_size = 512
hparams.batch_size = 4096
hparams.max_length = 256
hparams.clip_grad_norm = 0. # i.e. no gradient clipping
hparams.optimizer_adam_epsilon = 1e-9
hparams.learning_rate_schedule = "legacy"
hparams.learning_rate_decay_scheme = "noam"
hparams.learning_rate = 0.1
hparams.learning_rate_warmup_steps = 4000
hparams.initializer_gain = 1.0
hparams.num_hidden_layers = 6
hparams.initializer = "uniform_unit_scaling"
hparams.weight_decay = 0.0
hparams.optimizer_adam_beta1 = 0.9
hparams.optimizer_adam_beta2 = 0.98
hparams.num_sampled_classes = 0
hparams.label_smoothing = 0.1
hparams.shared_embedding_and_softmax_weights = True
hparams.symbol_modality_num_shards = 16
# Add new ones like this.
hparams.add_hparam("filter_size", 2048)
# Layer-related flags. If zero, these fall back on hparams.num_hidden_layers.
hparams.add_hparam("num_encoder_layers", 0)
hparams.add_hparam("num_decoder_layers", 0)
# Attention-related flags.
hparams.add_hparam("num_heads", 8)
hparams.add_hparam("attention_key_channels", 0)
hparams.add_hparam("attention_value_channels", 0)
hparams.add_hparam("ffn_layer", "dense_relu_dense")
hparams.add_hparam("parameter_attention_key_channels", 0)
hparams.add_hparam("parameter_attention_value_channels", 0)
# All hyperparameters ending in "dropout" are automatically set to 0.0
# when not in training mode.
hparams.add_hparam("attention_dropout", 0.0)
hparams.add_hparam("attention_dropout_broadcast_dims", "")
hparams.add_hparam("relu_dropout", 0.0)
hparams.add_hparam("relu_dropout_broadcast_dims", "")
hparams.add_hparam("pos", "timing") # timing, none
hparams.add_hparam("nbr_decoder_problems", 1)
hparams.add_hparam("proximity_bias", False)
hparams.add_hparam("causal_decoder_self_attention", True)
hparams.add_hparam("use_pad_remover", True)
hparams.add_hparam("self_attention_type", "dot_product")
hparams.add_hparam("conv_first_kernel", 3)
hparams.add_hparam("attention_variables_3d", False)
hparams.add_hparam("use_target_space_embedding", True)
# These parameters are only used when ffn_layer=="local_moe_tpu"
hparams.add_hparam("moe_overhead_train", 1.0)
hparams.add_hparam("moe_overhead_eval", 2.0)
hparams.moe_num_experts = 16
hparams.moe_loss_coef = 1e-3
# If specified, use this value instead of problem name in metrics.py.
# This is useful for programs that can automatically compare experiments side
# by side based on the same metric names.
hparams.add_hparam("overload_eval_metric_name", "")
# For making a transformer encoder unidirectional by using masked
# attention.
hparams.add_hparam("unidirectional_encoder", False)
# For hard attention.
hparams.add_hparam("hard_attention_k", 0)
return hparams | [
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train | transformer_base_v2 | Set of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_base_v2():
"""Set of hyperparameters."""
hparams = transformer_base_v1()
hparams.layer_preprocess_sequence = "n"
hparams.layer_postprocess_sequence = "da"
hparams.layer_prepostprocess_dropout = 0.1
hparams.attention_dropout = 0.1
hparams.relu_dropout = 0.1
hparams.learning_rate_warmup_steps = 8000
hparams.learning_rate = 0.2
return hparams | def transformer_base_v2():
"""Set of hyperparameters."""
hparams = transformer_base_v1()
hparams.layer_preprocess_sequence = "n"
hparams.layer_postprocess_sequence = "da"
hparams.layer_prepostprocess_dropout = 0.1
hparams.attention_dropout = 0.1
hparams.relu_dropout = 0.1
hparams.learning_rate_warmup_steps = 8000
hparams.learning_rate = 0.2
return hparams | [
"Set",
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train | transformer_base_vq_ada_32ex_packed | Set of hyperparameters for lm1b packed following tpu params. | tensor2tensor/models/transformer.py | def transformer_base_vq_ada_32ex_packed():
"""Set of hyperparameters for lm1b packed following tpu params."""
hparams = transformer_base_v2()
expert_utils.update_hparams_for_vq_gating(hparams)
hparams.moe_num_experts = 32
hparams.gating_type = "vq"
# this gives us a batch size of 16 because each seq is len 256
hparams.batch_size = 5072
hparams.ffn_layer = "local_moe"
hparams.shared_embedding_and_softmax_weights = False
hparams.learning_rate_warmup_steps = 10000
# one epoch for languagemodel_lm1b32k_packed = 27200 steps w/ bsize 128
hparams.learning_rate_decay_steps = 27200
hparams.num_heads = 4
hparams.num_blocks = 1
hparams.moe_k = 1
hparams.num_decoder_layers = 6
hparams.label_smoothing = 0.
hparams.layer_prepostprocess_dropout = 0.1
hparams.layer_postprocess_sequence = "dan"
hparams.layer_preprocess_sequence = "none"
hparams.weight_decay = 1e-06
hparams.attention_dropout = 0.1
hparams.optimizer = "Adafactor"
hparams.learning_rate_schedule = "linear_warmup*rsqrt_decay*linear_decay"
hparams.activation_dtype = "float32"
hparams.learning_rate = 0.1
hparams.learning_rate_constant = 1.0
return hparams | def transformer_base_vq_ada_32ex_packed():
"""Set of hyperparameters for lm1b packed following tpu params."""
hparams = transformer_base_v2()
expert_utils.update_hparams_for_vq_gating(hparams)
hparams.moe_num_experts = 32
hparams.gating_type = "vq"
# this gives us a batch size of 16 because each seq is len 256
hparams.batch_size = 5072
hparams.ffn_layer = "local_moe"
hparams.shared_embedding_and_softmax_weights = False
hparams.learning_rate_warmup_steps = 10000
# one epoch for languagemodel_lm1b32k_packed = 27200 steps w/ bsize 128
hparams.learning_rate_decay_steps = 27200
hparams.num_heads = 4
hparams.num_blocks = 1
hparams.moe_k = 1
hparams.num_decoder_layers = 6
hparams.label_smoothing = 0.
hparams.layer_prepostprocess_dropout = 0.1
hparams.layer_postprocess_sequence = "dan"
hparams.layer_preprocess_sequence = "none"
hparams.weight_decay = 1e-06
hparams.attention_dropout = 0.1
hparams.optimizer = "Adafactor"
hparams.learning_rate_schedule = "linear_warmup*rsqrt_decay*linear_decay"
hparams.activation_dtype = "float32"
hparams.learning_rate = 0.1
hparams.learning_rate_constant = 1.0
return hparams | [
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train | transformer_base_vq1_16_nb1_packed_nda_b01_scales | Set of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_base_vq1_16_nb1_packed_nda_b01_scales():
"""Set of hyperparameters."""
hparams = transformer_base_vq_ada_32ex_packed()
hparams.use_scales = int(True)
hparams.moe_num_experts = 16
hparams.moe_k = 1
hparams.beta = 0.1
hparams.layer_preprocess_sequence = "n"
hparams.layer_postprocess_sequence = "da"
hparams.ema = False
return hparams | def transformer_base_vq1_16_nb1_packed_nda_b01_scales():
"""Set of hyperparameters."""
hparams = transformer_base_vq_ada_32ex_packed()
hparams.use_scales = int(True)
hparams.moe_num_experts = 16
hparams.moe_k = 1
hparams.beta = 0.1
hparams.layer_preprocess_sequence = "n"
hparams.layer_postprocess_sequence = "da"
hparams.ema = False
return hparams | [
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train | transformer_base_vq1_16_nb1_packed_dan_b01_scales | Set of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_base_vq1_16_nb1_packed_dan_b01_scales():
"""Set of hyperparameters."""
hparams = transformer_base_vq_ada_32ex_packed()
hparams.use_scales = int(True)
hparams.moe_num_experts = 16
hparams.moe_k = 1
hparams.beta = 0.1
hparams.ema = False
return hparams | def transformer_base_vq1_16_nb1_packed_dan_b01_scales():
"""Set of hyperparameters."""
hparams = transformer_base_vq_ada_32ex_packed()
hparams.use_scales = int(True)
hparams.moe_num_experts = 16
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hparams.beta = 0.1
hparams.ema = False
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train | transformer_base_vq1_16_nb1_packed_nda_b01_scales_dialog | Set of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_base_vq1_16_nb1_packed_nda_b01_scales_dialog():
"""Set of hyperparameters."""
hparams = transformer_base_vq1_16_nb1_packed_nda_b01_scales()
hparams.batch_size = 2048
hparams.max_length = 1024
hparams.filter_size = 3072
return hparams | def transformer_base_vq1_16_nb1_packed_nda_b01_scales_dialog():
"""Set of hyperparameters."""
hparams = transformer_base_vq1_16_nb1_packed_nda_b01_scales()
hparams.batch_size = 2048
hparams.max_length = 1024
hparams.filter_size = 3072
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train | transformer_ada_lmpackedbase_dialog | Set of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_ada_lmpackedbase_dialog():
"""Set of hyperparameters."""
hparams = transformer_base_vq_ada_32ex_packed()
hparams.max_length = 1024
hparams.ffn_layer = "dense_relu_dense"
hparams.batch_size = 4096
return hparams | def transformer_ada_lmpackedbase_dialog():
"""Set of hyperparameters."""
hparams = transformer_base_vq_ada_32ex_packed()
hparams.max_length = 1024
hparams.ffn_layer = "dense_relu_dense"
hparams.batch_size = 4096
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train | transformer_base_v3 | Base parameters for Transformer model. | tensor2tensor/models/transformer.py | def transformer_base_v3():
"""Base parameters for Transformer model."""
# Update parameters here, then occasionally cut a versioned set, e.g.
# transformer_base_v2.
hparams = transformer_base_v2()
hparams.optimizer_adam_beta2 = 0.997
# New way of specifying learning rate schedule.
# Equivalent to previous version.
hparams.learning_rate_schedule = (
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hparams.learning_rate_constant = 2.0
return hparams | def transformer_base_v3():
"""Base parameters for Transformer model."""
# Update parameters here, then occasionally cut a versioned set, e.g.
# transformer_base_v2.
hparams = transformer_base_v2()
hparams.optimizer_adam_beta2 = 0.997
# New way of specifying learning rate schedule.
# Equivalent to previous version.
hparams.learning_rate_schedule = (
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hparams.learning_rate_constant = 2.0
return hparams | [
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train | transformer_big | HParams for transformer big model on WMT. | tensor2tensor/models/transformer.py | def transformer_big():
"""HParams for transformer big model on WMT."""
hparams = transformer_base()
hparams.hidden_size = 1024
hparams.filter_size = 4096
# Reduce batch size to 2048 from 4096 to be able to train the model on a GPU
# with 12 GB memory. For example, NVIDIA TITAN V GPU.
hparams.batch_size = 2048
hparams.num_heads = 16
hparams.layer_prepostprocess_dropout = 0.3
return hparams | def transformer_big():
"""HParams for transformer big model on WMT."""
hparams = transformer_base()
hparams.hidden_size = 1024
hparams.filter_size = 4096
# Reduce batch size to 2048 from 4096 to be able to train the model on a GPU
# with 12 GB memory. For example, NVIDIA TITAN V GPU.
hparams.batch_size = 2048
hparams.num_heads = 16
hparams.layer_prepostprocess_dropout = 0.3
return hparams | [
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train | transformer_tall | Hparams for transformer on LM for pretraining/finetuning/mixing. | tensor2tensor/models/transformer.py | def transformer_tall():
"""Hparams for transformer on LM for pretraining/finetuning/mixing."""
hparams = transformer_base()
hparams.batch_size = 2048
hparams.hidden_size = 768
hparams.filter_size = 3072
hparams.num_hidden_layers = 12
hparams.num_heads = 12
hparams.label_smoothing = 0.0
hparams.max_length = 1024
hparams.eval_drop_long_sequences = True
hparams.multiproblem_mixing_schedule = "pretrain"
hparams.multiproblem_vocab_size = 65536
hparams.clip_grad_norm = 1.0
return hparams | def transformer_tall():
"""Hparams for transformer on LM for pretraining/finetuning/mixing."""
hparams = transformer_base()
hparams.batch_size = 2048
hparams.hidden_size = 768
hparams.filter_size = 3072
hparams.num_hidden_layers = 12
hparams.num_heads = 12
hparams.label_smoothing = 0.0
hparams.max_length = 1024
hparams.eval_drop_long_sequences = True
hparams.multiproblem_mixing_schedule = "pretrain"
hparams.multiproblem_vocab_size = 65536
hparams.clip_grad_norm = 1.0
return hparams | [
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train | transformer_tall_finetune_tied | Tied means fine-tune CNN/DM summarization as LM. | tensor2tensor/models/transformer.py | def transformer_tall_finetune_tied():
"""Tied means fine-tune CNN/DM summarization as LM."""
hparams = transformer_tall()
hparams.multiproblem_max_input_length = 750
hparams.multiproblem_max_target_length = 100
hparams.multiproblem_schedule_max_examples = 0
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
hparams.learning_rate_constant = 5e-5
hparams.learning_rate_warmup_steps = 100
# Set train steps to learning_rate_decay_steps or less
hparams.learning_rate_decay_steps = 80000
hparams.multiproblem_target_eval_only = True
hparams.multiproblem_reweight_label_loss = True
hparams.multiproblem_label_weight = 1.0
hparams.optimizer = "true_adam"
return hparams | def transformer_tall_finetune_tied():
"""Tied means fine-tune CNN/DM summarization as LM."""
hparams = transformer_tall()
hparams.multiproblem_max_input_length = 750
hparams.multiproblem_max_target_length = 100
hparams.multiproblem_schedule_max_examples = 0
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
hparams.learning_rate_constant = 5e-5
hparams.learning_rate_warmup_steps = 100
# Set train steps to learning_rate_decay_steps or less
hparams.learning_rate_decay_steps = 80000
hparams.multiproblem_target_eval_only = True
hparams.multiproblem_reweight_label_loss = True
hparams.multiproblem_label_weight = 1.0
hparams.optimizer = "true_adam"
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train | transformer_tall_finetune_uniencdec | Fine-tune CNN/DM with a unidirectional encoder and decoder. | tensor2tensor/models/transformer.py | def transformer_tall_finetune_uniencdec():
"""Fine-tune CNN/DM with a unidirectional encoder and decoder."""
hparams = transformer_tall()
hparams.max_input_seq_length = 750
hparams.max_target_seq_length = 100
hparams.optimizer = "true_adam"
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
hparams.learning_rate_decay_steps = 80000
hparams.learning_rate_constant = 5e-5
hparams.learning_rate_warmup_steps = 100
hparams.unidirectional_encoder = True
return hparams | def transformer_tall_finetune_uniencdec():
"""Fine-tune CNN/DM with a unidirectional encoder and decoder."""
hparams = transformer_tall()
hparams.max_input_seq_length = 750
hparams.max_target_seq_length = 100
hparams.optimizer = "true_adam"
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
hparams.learning_rate_decay_steps = 80000
hparams.learning_rate_constant = 5e-5
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hparams.unidirectional_encoder = True
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train | transformer_tall_train_uniencdec | Train CNN/DM with a unidirectional encoder and decoder. | tensor2tensor/models/transformer.py | def transformer_tall_train_uniencdec():
"""Train CNN/DM with a unidirectional encoder and decoder."""
hparams = transformer_tall()
hparams.max_input_seq_length = 750
hparams.max_target_seq_length = 100
hparams.optimizer = "true_adam"
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
hparams.learning_rate_decay_steps = 150000
hparams.learning_rate_constant = 2e-4
hparams.unidirectional_encoder = True
return hparams | def transformer_tall_train_uniencdec():
"""Train CNN/DM with a unidirectional encoder and decoder."""
hparams = transformer_tall()
hparams.max_input_seq_length = 750
hparams.max_target_seq_length = 100
hparams.optimizer = "true_adam"
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
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train | transformer_tall_finetune_textclass | Hparams for transformer on LM for finetuning on text class problems. | tensor2tensor/models/transformer.py | def transformer_tall_finetune_textclass():
"""Hparams for transformer on LM for finetuning on text class problems."""
hparams = transformer_tall()
hparams.learning_rate_constant = 6.25e-5
hparams.learning_rate_schedule = ("linear_warmup*constant*linear_decay")
hparams.multiproblem_schedule_max_examples = 0
hparams.multiproblem_target_eval_only = True
hparams.learning_rate_warmup_steps = 50
# Set train steps to learning_rate_decay_steps or less
hparams.learning_rate_decay_steps = 25000
hparams.multiproblem_reweight_label_loss = True
hparams.multiproblem_label_weight = 0.95
return hparams | def transformer_tall_finetune_textclass():
"""Hparams for transformer on LM for finetuning on text class problems."""
hparams = transformer_tall()
hparams.learning_rate_constant = 6.25e-5
hparams.learning_rate_schedule = ("linear_warmup*constant*linear_decay")
hparams.multiproblem_schedule_max_examples = 0
hparams.multiproblem_target_eval_only = True
hparams.learning_rate_warmup_steps = 50
# Set train steps to learning_rate_decay_steps or less
hparams.learning_rate_decay_steps = 25000
hparams.multiproblem_reweight_label_loss = True
hparams.multiproblem_label_weight = 0.95
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train | transformer_tall_pretrain_lm | Hparams for transformer on LM pretraining (with 64k vocab). | tensor2tensor/models/transformer.py | def transformer_tall_pretrain_lm():
"""Hparams for transformer on LM pretraining (with 64k vocab)."""
hparams = transformer_tall()
hparams.learning_rate_constant = 2e-4
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
hparams.optimizer = "adam_w"
hparams.optimizer_adam_beta1 = 0.9
hparams.optimizer_adam_beta2 = 0.999
hparams.optimizer_adam_epsilon = 1e-8
# Set max examples to something big when pretraining only the LM, definitely
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hparams.multiproblem_schedule_max_examples = 5e8
# Set train steps to learning_rate_decay_steps or less
hparams.learning_rate_decay_steps = 5000000
return hparams | def transformer_tall_pretrain_lm():
"""Hparams for transformer on LM pretraining (with 64k vocab)."""
hparams = transformer_tall()
hparams.learning_rate_constant = 2e-4
hparams.learning_rate_schedule = ("linear_warmup*constant*cosdecay")
hparams.optimizer = "adam_w"
hparams.optimizer_adam_beta1 = 0.9
hparams.optimizer_adam_beta2 = 0.999
hparams.optimizer_adam_epsilon = 1e-8
# Set max examples to something big when pretraining only the LM, definitely
# something an order of magnitude bigger than number of train steps.
hparams.multiproblem_schedule_max_examples = 5e8
# Set train steps to learning_rate_decay_steps or less
hparams.learning_rate_decay_steps = 5000000
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train | transformer_tall_pretrain_lm_tpu_adafactor | Hparams for transformer on LM pretraining (with 64k vocab) on TPU. | tensor2tensor/models/transformer.py | def transformer_tall_pretrain_lm_tpu_adafactor():
"""Hparams for transformer on LM pretraining (with 64k vocab) on TPU."""
hparams = transformer_tall_pretrain_lm()
update_hparams_for_tpu(hparams)
hparams.max_length = 1024
# For multi-problem on TPU we need it in absolute examples.
hparams.batch_size = 8
hparams.multiproblem_vocab_size = 2**16
return hparams | def transformer_tall_pretrain_lm_tpu_adafactor():
"""Hparams for transformer on LM pretraining (with 64k vocab) on TPU."""
hparams = transformer_tall_pretrain_lm()
update_hparams_for_tpu(hparams)
hparams.max_length = 1024
# For multi-problem on TPU we need it in absolute examples.
hparams.batch_size = 8
hparams.multiproblem_vocab_size = 2**16
return hparams | [
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train | transformer_tall_pretrain_lm_tpu_adafactor_large | Hparams for transformer on LM pretraining on TPU, large model. | tensor2tensor/models/transformer.py | def transformer_tall_pretrain_lm_tpu_adafactor_large():
"""Hparams for transformer on LM pretraining on TPU, large model."""
hparams = transformer_tall_pretrain_lm_tpu_adafactor()
hparams.hidden_size = 1024
hparams.num_heads = 16
hparams.filter_size = 32768 # max fitting in 16G memory is 49152, batch 2
hparams.batch_size = 4
hparams.multiproblem_mixing_schedule = "constant"
# Task order: lm/en-de/en-fr/en-ro/de-en/fr-en/ro-en/cnndm/mnli/squad.
hparams.multiproblem_per_task_threshold = "320,80,160,1,80,160,2,20,10,5"
return hparams | def transformer_tall_pretrain_lm_tpu_adafactor_large():
"""Hparams for transformer on LM pretraining on TPU, large model."""
hparams = transformer_tall_pretrain_lm_tpu_adafactor()
hparams.hidden_size = 1024
hparams.num_heads = 16
hparams.filter_size = 32768 # max fitting in 16G memory is 49152, batch 2
hparams.batch_size = 4
hparams.multiproblem_mixing_schedule = "constant"
# Task order: lm/en-de/en-fr/en-ro/de-en/fr-en/ro-en/cnndm/mnli/squad.
hparams.multiproblem_per_task_threshold = "320,80,160,1,80,160,2,20,10,5"
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train | transformer_tall_pretrain_lm_tpu | Hparams for transformer on LM pretraining on TPU with AdamW. | tensor2tensor/models/transformer.py | def transformer_tall_pretrain_lm_tpu():
"""Hparams for transformer on LM pretraining on TPU with AdamW."""
hparams = transformer_tall_pretrain_lm_tpu_adafactor()
# Optimizer gets reset in update_hparams_for_tpu so we set it again here.
hparams.learning_rate_constant = 2e-4
hparams.learning_rate_schedule = ("linear_warmup * constant * cosdecay")
hparams.optimizer = "adam_w"
return hparams | def transformer_tall_pretrain_lm_tpu():
"""Hparams for transformer on LM pretraining on TPU with AdamW."""
hparams = transformer_tall_pretrain_lm_tpu_adafactor()
# Optimizer gets reset in update_hparams_for_tpu so we set it again here.
hparams.learning_rate_constant = 2e-4
hparams.learning_rate_schedule = ("linear_warmup * constant * cosdecay")
hparams.optimizer = "adam_w"
return hparams | [
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train | transformer_base_single_gpu | HParams for transformer base model for single GPU. | tensor2tensor/models/transformer.py | def transformer_base_single_gpu():
"""HParams for transformer base model for single GPU."""
hparams = transformer_base()
hparams.batch_size = 1024
hparams.learning_rate_schedule = "constant*linear_warmup*rsqrt_decay"
hparams.learning_rate_constant = 0.1
hparams.learning_rate_warmup_steps = 16000
return hparams | def transformer_base_single_gpu():
"""HParams for transformer base model for single GPU."""
hparams = transformer_base()
hparams.batch_size = 1024
hparams.learning_rate_schedule = "constant*linear_warmup*rsqrt_decay"
hparams.learning_rate_constant = 0.1
hparams.learning_rate_warmup_steps = 16000
return hparams | [
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train | transformer_parsing_base | HParams for parsing on WSJ only. | tensor2tensor/models/transformer.py | def transformer_parsing_base():
"""HParams for parsing on WSJ only."""
hparams = transformer_base()
hparams.attention_dropout = 0.2
hparams.layer_prepostprocess_dropout = 0.2
hparams.max_length = 512
hparams.learning_rate_warmup_steps = 16000
hparams.hidden_size = 1024
hparams.learning_rate = 0.05
hparams.shared_embedding_and_softmax_weights = False
return hparams | def transformer_parsing_base():
"""HParams for parsing on WSJ only."""
hparams = transformer_base()
hparams.attention_dropout = 0.2
hparams.layer_prepostprocess_dropout = 0.2
hparams.max_length = 512
hparams.learning_rate_warmup_steps = 16000
hparams.hidden_size = 1024
hparams.learning_rate = 0.05
hparams.shared_embedding_and_softmax_weights = False
return hparams | [
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train | transformer_parsing_big | HParams for parsing on WSJ semi-supervised. | tensor2tensor/models/transformer.py | def transformer_parsing_big():
"""HParams for parsing on WSJ semi-supervised."""
hparams = transformer_big()
hparams.max_length = 512
hparams.shared_source_target_embedding = False
hparams.learning_rate_warmup_steps = 4000
hparams.layer_prepostprocess_dropout = 0.1
hparams.batch_size = 2048
hparams.learning_rate = 0.05
return hparams | def transformer_parsing_big():
"""HParams for parsing on WSJ semi-supervised."""
hparams = transformer_big()
hparams.max_length = 512
hparams.shared_source_target_embedding = False
hparams.learning_rate_warmup_steps = 4000
hparams.layer_prepostprocess_dropout = 0.1
hparams.batch_size = 2048
hparams.learning_rate = 0.05
return hparams | [
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train | transformer_base_range | Small range of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_base_range(rhp):
"""Small range of hyperparameters."""
# After starting from base, set intervals for some parameters.
rhp.set_float("learning_rate", 0.3, 3.0, scale=rhp.LOG_SCALE)
rhp.set_discrete("learning_rate_warmup_steps",
[1000, 2000, 4000, 8000, 16000])
rhp.set_float("initializer_gain", 0.5, 2.0)
rhp.set_float("optimizer_adam_beta1", 0.85, 0.95)
rhp.set_float("optimizer_adam_beta2", 0.97, 0.99)
rhp.set_float("weight_decay", 0.0, 1e-4) | def transformer_base_range(rhp):
"""Small range of hyperparameters."""
# After starting from base, set intervals for some parameters.
rhp.set_float("learning_rate", 0.3, 3.0, scale=rhp.LOG_SCALE)
rhp.set_discrete("learning_rate_warmup_steps",
[1000, 2000, 4000, 8000, 16000])
rhp.set_float("initializer_gain", 0.5, 2.0)
rhp.set_float("optimizer_adam_beta1", 0.85, 0.95)
rhp.set_float("optimizer_adam_beta2", 0.97, 0.99)
rhp.set_float("weight_decay", 0.0, 1e-4) | [
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train | transformer_relative | Use relative position embeddings instead of absolute position encodings. | tensor2tensor/models/transformer.py | def transformer_relative():
"""Use relative position embeddings instead of absolute position encodings."""
hparams = transformer_base()
hparams.pos = None
hparams.self_attention_type = "dot_product_relative"
hparams.max_relative_position = 20
return hparams | def transformer_relative():
"""Use relative position embeddings instead of absolute position encodings."""
hparams = transformer_base()
hparams.pos = None
hparams.self_attention_type = "dot_product_relative"
hparams.max_relative_position = 20
return hparams | [
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train | transformer_mlperf_tpu | HParams for Transformer model on TPU for MLPerf on TPU 2x2. | tensor2tensor/models/transformer.py | def transformer_mlperf_tpu():
"""HParams for Transformer model on TPU for MLPerf on TPU 2x2."""
hparams = transformer_base_v3()
hparams.mlperf_mode = True
hparams.symbol_modality_num_shards = 1
hparams.max_length = 256 # ignored when using "_packed" problems
hparams.batch_size = 2048 # per-chip batch size matches the reference model
hparams.hidden_size = 1024
hparams.filter_size = 4096
hparams.num_heads = 16
hparams.attention_dropout_broadcast_dims = "0,1" # batch, heads
hparams.relu_dropout_broadcast_dims = "1" # length
hparams.layer_prepostprocess_dropout_broadcast_dims = "1" # length
return hparams | def transformer_mlperf_tpu():
"""HParams for Transformer model on TPU for MLPerf on TPU 2x2."""
hparams = transformer_base_v3()
hparams.mlperf_mode = True
hparams.symbol_modality_num_shards = 1
hparams.max_length = 256 # ignored when using "_packed" problems
hparams.batch_size = 2048 # per-chip batch size matches the reference model
hparams.hidden_size = 1024
hparams.filter_size = 4096
hparams.num_heads = 16
hparams.attention_dropout_broadcast_dims = "0,1" # batch, heads
hparams.relu_dropout_broadcast_dims = "1" # length
hparams.layer_prepostprocess_dropout_broadcast_dims = "1" # length
return hparams | [
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train | update_hparams_for_tpu | Change hparams to be compatible with TPU training. | tensor2tensor/models/transformer.py | def update_hparams_for_tpu(hparams):
"""Change hparams to be compatible with TPU training."""
# Adafactor uses less memory than Adam.
# switch to Adafactor with its recommended learning rate scheme.
hparams.optimizer = "Adafactor"
hparams.learning_rate_schedule = "rsqrt_decay"
hparams.learning_rate_warmup_steps = 10000
# Avoid an expensive concat on TPU.
# >1 shards helps with faster parameter distribution on multi-GPU machines
hparams.symbol_modality_num_shards = 1
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# For problems with fixed sequence lengths - e.g. the "_packed" problems,
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hparams.max_length = 64
# TPUs have less memory than GPUs, so decrease the batch size
hparams.batch_size = 2048
# Using noise broadcast in the dropout layers saves memory during training.
hparams.attention_dropout_broadcast_dims = "0,1" # batch, heads
hparams.relu_dropout_broadcast_dims = "1" # length
hparams.layer_prepostprocess_dropout_broadcast_dims = "1" # length
return hparams | def update_hparams_for_tpu(hparams):
"""Change hparams to be compatible with TPU training."""
# Adafactor uses less memory than Adam.
# switch to Adafactor with its recommended learning rate scheme.
hparams.optimizer = "Adafactor"
hparams.learning_rate_schedule = "rsqrt_decay"
hparams.learning_rate_warmup_steps = 10000
# Avoid an expensive concat on TPU.
# >1 shards helps with faster parameter distribution on multi-GPU machines
hparams.symbol_modality_num_shards = 1
# Adaptive batch sizes and sequence lengths are not supported on TPU.
# Instead, every batch has the same sequence length and the same batch size.
# Longer sequences are dropped and shorter ones are padded.
#
# It is therefore suggested to use a problem where examples have been combined
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#
# For problems with fixed sequence lengths - e.g. the "_packed" problems,
# this hyperparameter is ignored.
hparams.max_length = 64
# TPUs have less memory than GPUs, so decrease the batch size
hparams.batch_size = 2048
# Using noise broadcast in the dropout layers saves memory during training.
hparams.attention_dropout_broadcast_dims = "0,1" # batch, heads
hparams.relu_dropout_broadcast_dims = "1" # length
hparams.layer_prepostprocess_dropout_broadcast_dims = "1" # length
return hparams | [
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train | transformer_tpu_range | Small range of hyperparameters. | tensor2tensor/models/transformer.py | def transformer_tpu_range(rhp):
"""Small range of hyperparameters."""
# After starting from base, set intervals for some parameters.
rhp.set_float("learning_rate", 0.3, 3.0, scale=rhp.LOG_SCALE)
rhp.set_discrete("learning_rate_warmup_steps",
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rhp.set_float("initializer_gain", 0.5, 2.0)
rhp.set_float("optimizer_adam_beta1", 0.85, 0.95)
rhp.set_float("optimizer_adam_beta2", 0.97, 0.99)
rhp.set_float("weight_decay", 0.0, 2.0) | def transformer_tpu_range(rhp):
"""Small range of hyperparameters."""
# After starting from base, set intervals for some parameters.
rhp.set_float("learning_rate", 0.3, 3.0, scale=rhp.LOG_SCALE)
rhp.set_discrete("learning_rate_warmup_steps",
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rhp.set_float("initializer_gain", 0.5, 2.0)
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rhp.set_float("weight_decay", 0.0, 2.0) | [
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train | transformer_clean | No dropout, label smoothing, max_length. | tensor2tensor/models/transformer.py | def transformer_clean():
"""No dropout, label smoothing, max_length."""
hparams = transformer_base_v2()
hparams.label_smoothing = 0.0
hparams.layer_prepostprocess_dropout = 0.0
hparams.attention_dropout = 0.0
hparams.relu_dropout = 0.0
hparams.max_length = 0
return hparams | def transformer_clean():
"""No dropout, label smoothing, max_length."""
hparams = transformer_base_v2()
hparams.label_smoothing = 0.0
hparams.layer_prepostprocess_dropout = 0.0
hparams.attention_dropout = 0.0
hparams.relu_dropout = 0.0
hparams.max_length = 0
return hparams | [
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train | transformer_lm_tpu_0 | HParams for training languagemodel_lm1b8k on tpu. 92M Params. | tensor2tensor/models/transformer.py | def transformer_lm_tpu_0():
"""HParams for training languagemodel_lm1b8k on tpu. 92M Params."""
hparams = transformer_clean_big()
update_hparams_for_tpu(hparams)
hparams.num_heads = 4 # Heads are expensive on TPUs.
hparams.batch_size = 4096
hparams.shared_embedding_and_softmax_weights = False
hparams.layer_prepostprocess_dropout = 0.1
return hparams | def transformer_lm_tpu_0():
"""HParams for training languagemodel_lm1b8k on tpu. 92M Params."""
hparams = transformer_clean_big()
update_hparams_for_tpu(hparams)
hparams.num_heads = 4 # Heads are expensive on TPUs.
hparams.batch_size = 4096
hparams.shared_embedding_and_softmax_weights = False
hparams.layer_prepostprocess_dropout = 0.1
return hparams | [
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train | transformer_librispeech_v1 | HParams for training ASR model on LibriSpeech V1. | tensor2tensor/models/transformer.py | def transformer_librispeech_v1():
"""HParams for training ASR model on LibriSpeech V1."""
hparams = transformer_base()
hparams.num_heads = 4
hparams.filter_size = 1024
hparams.hidden_size = 256
hparams.num_encoder_layers = 5
hparams.num_decoder_layers = 3
hparams.learning_rate = 0.15
hparams.batch_size = 6000000
librispeech.set_librispeech_length_hparams(hparams)
return hparams | def transformer_librispeech_v1():
"""HParams for training ASR model on LibriSpeech V1."""
hparams = transformer_base()
hparams.num_heads = 4
hparams.filter_size = 1024
hparams.hidden_size = 256
hparams.num_encoder_layers = 5
hparams.num_decoder_layers = 3
hparams.learning_rate = 0.15
hparams.batch_size = 6000000
librispeech.set_librispeech_length_hparams(hparams)
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train | transformer_librispeech_v2 | HParams for training ASR model on LibriSpeech V2. | tensor2tensor/models/transformer.py | def transformer_librispeech_v2():
"""HParams for training ASR model on LibriSpeech V2."""
hparams = transformer_base()
hparams.max_length = 1240000
hparams.max_input_seq_length = 1550
hparams.max_target_seq_length = 350
hparams.batch_size = 16
hparams.num_decoder_layers = 4
hparams.num_encoder_layers = 6
hparams.hidden_size = 384
hparams.learning_rate = 0.15
hparams.daisy_chain_variables = False
hparams.filter_size = 1536
hparams.num_heads = 2
hparams.ffn_layer = "conv_relu_conv"
hparams.conv_first_kernel = 9
hparams.weight_decay = 0
hparams.layer_prepostprocess_dropout = 0.2
hparams.relu_dropout = 0.2
return hparams | def transformer_librispeech_v2():
"""HParams for training ASR model on LibriSpeech V2."""
hparams = transformer_base()
hparams.max_length = 1240000
hparams.max_input_seq_length = 1550
hparams.max_target_seq_length = 350
hparams.batch_size = 16
hparams.num_decoder_layers = 4
hparams.num_encoder_layers = 6
hparams.hidden_size = 384
hparams.learning_rate = 0.15
hparams.daisy_chain_variables = False
hparams.filter_size = 1536
hparams.num_heads = 2
hparams.ffn_layer = "conv_relu_conv"
hparams.conv_first_kernel = 9
hparams.weight_decay = 0
hparams.layer_prepostprocess_dropout = 0.2
hparams.relu_dropout = 0.2
return hparams | [
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train | transformer_librispeech_tpu_v1 | HParams for training ASR model on Librispeech on TPU v1. | tensor2tensor/models/transformer.py | def transformer_librispeech_tpu_v1():
"""HParams for training ASR model on Librispeech on TPU v1."""
hparams = transformer_librispeech_v1()
update_hparams_for_tpu(hparams)
hparams.batch_size = 16
librispeech.set_librispeech_length_hparams(hparams)
return hparams | def transformer_librispeech_tpu_v1():
"""HParams for training ASR model on Librispeech on TPU v1."""
hparams = transformer_librispeech_v1()
update_hparams_for_tpu(hparams)
hparams.batch_size = 16
librispeech.set_librispeech_length_hparams(hparams)
return hparams | [
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train | transformer_librispeech_tpu_v2 | HParams for training ASR model on Librispeech on TPU v2. | tensor2tensor/models/transformer.py | def transformer_librispeech_tpu_v2():
"""HParams for training ASR model on Librispeech on TPU v2."""
hparams = transformer_librispeech_v2()
update_hparams_for_tpu(hparams)
hparams.batch_size = 16
librispeech.set_librispeech_length_hparams(hparams)
return hparams | def transformer_librispeech_tpu_v2():
"""HParams for training ASR model on Librispeech on TPU v2."""
hparams = transformer_librispeech_v2()
update_hparams_for_tpu(hparams)
hparams.batch_size = 16
librispeech.set_librispeech_length_hparams(hparams)
return hparams | [
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train | transformer_tpu_1b | Hparams for machine translation with ~1.1B parameters. | tensor2tensor/models/transformer.py | def transformer_tpu_1b():
"""Hparams for machine translation with ~1.1B parameters."""
hparams = transformer_tpu()
hparams.hidden_size = 2048
hparams.filter_size = 8192
hparams.num_hidden_layers = 8
# smaller batch size to avoid OOM
hparams.batch_size = 1024
hparams.activation_dtype = "bfloat16"
hparams.weight_dtype = "bfloat16"
# maximize number of parameters relative to computation by not sharing.
hparams.shared_embedding_and_softmax_weights = False
return hparams | def transformer_tpu_1b():
"""Hparams for machine translation with ~1.1B parameters."""
hparams = transformer_tpu()
hparams.hidden_size = 2048
hparams.filter_size = 8192
hparams.num_hidden_layers = 8
# smaller batch size to avoid OOM
hparams.batch_size = 1024
hparams.activation_dtype = "bfloat16"
hparams.weight_dtype = "bfloat16"
# maximize number of parameters relative to computation by not sharing.
hparams.shared_embedding_and_softmax_weights = False
return hparams | [
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train | transformer_wikitext103_l4k_v0 | HParams for training languagemodel_wikitext103_l4k. | tensor2tensor/models/transformer.py | def transformer_wikitext103_l4k_v0():
"""HParams for training languagemodel_wikitext103_l4k."""
hparams = transformer_big()
# Adafactor uses less memory than Adam.
# switch to Adafactor with its recommended learning rate scheme.
hparams.optimizer = "Adafactor"
hparams.learning_rate_schedule = "rsqrt_decay"
hparams.learning_rate_warmup_steps = 10000
hparams.num_heads = 4
hparams.max_length = 4096
hparams.batch_size = 4096
hparams.shared_embedding_and_softmax_weights = False
hparams.num_hidden_layers = 8
hparams.attention_dropout = 0.1
hparams.layer_prepostprocess_dropout = 0.2
hparams.relu_dropout = 0.1
hparams.label_smoothing = 0.0
# Using noise broadcast in the dropout layers saves memory during training.
hparams.attention_dropout_broadcast_dims = "0,1" # batch, heads
hparams.relu_dropout_broadcast_dims = "1" # length
hparams.layer_prepostprocess_dropout_broadcast_dims = "1" # length
# Avoid an expensive concat on TPU.
# >1 shards helps with faster parameter distribution on multi-GPU machines
hparams.symbol_modality_num_shards = 1
return hparams | def transformer_wikitext103_l4k_v0():
"""HParams for training languagemodel_wikitext103_l4k."""
hparams = transformer_big()
# Adafactor uses less memory than Adam.
# switch to Adafactor with its recommended learning rate scheme.
hparams.optimizer = "Adafactor"
hparams.learning_rate_schedule = "rsqrt_decay"
hparams.learning_rate_warmup_steps = 10000
hparams.num_heads = 4
hparams.max_length = 4096
hparams.batch_size = 4096
hparams.shared_embedding_and_softmax_weights = False
hparams.num_hidden_layers = 8
hparams.attention_dropout = 0.1
hparams.layer_prepostprocess_dropout = 0.2
hparams.relu_dropout = 0.1
hparams.label_smoothing = 0.0
# Using noise broadcast in the dropout layers saves memory during training.
hparams.attention_dropout_broadcast_dims = "0,1" # batch, heads
hparams.relu_dropout_broadcast_dims = "1" # length
hparams.layer_prepostprocess_dropout_broadcast_dims = "1" # length
# Avoid an expensive concat on TPU.
# >1 shards helps with faster parameter distribution on multi-GPU machines
hparams.symbol_modality_num_shards = 1
return hparams | [
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train | transformer_wikitext103_l4k_memory_v0 | HParams for training languagemodel_wikitext103_l4k with memory. | tensor2tensor/models/transformer.py | def transformer_wikitext103_l4k_memory_v0():
"""HParams for training languagemodel_wikitext103_l4k with memory."""
hparams = transformer_wikitext103_l4k_v0()
hparams.split_targets_chunk_length = 64
hparams.split_targets_max_chunks = 64
hparams.split_targets_strided_training = True
hparams.add_hparam("memory_type", "transformer_xl")
# The hparams specify batch size *before* chunking, but we want to have a
# consistent 4K batch size *after* chunking to fully utilize the hardware.
target_tokens_per_batch = 4096
hparams.batch_size = int(target_tokens_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length)) # 262144
hparams.pos = None
hparams.self_attention_type = "dot_product_relative"
hparams.max_relative_position = 2 * hparams.split_targets_chunk_length
hparams.add_hparam("unconditional", True)
hparams.add_hparam("recurrent_memory_batch_size", 0) # 0 = try to guess
# By default, cache one chunk only (like Transformer-XL)
hparams.add_hparam("num_memory_items", hparams.split_targets_chunk_length)
return hparams | def transformer_wikitext103_l4k_memory_v0():
"""HParams for training languagemodel_wikitext103_l4k with memory."""
hparams = transformer_wikitext103_l4k_v0()
hparams.split_targets_chunk_length = 64
hparams.split_targets_max_chunks = 64
hparams.split_targets_strided_training = True
hparams.add_hparam("memory_type", "transformer_xl")
# The hparams specify batch size *before* chunking, but we want to have a
# consistent 4K batch size *after* chunking to fully utilize the hardware.
target_tokens_per_batch = 4096
hparams.batch_size = int(target_tokens_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length)) # 262144
hparams.pos = None
hparams.self_attention_type = "dot_product_relative"
hparams.max_relative_position = 2 * hparams.split_targets_chunk_length
hparams.add_hparam("unconditional", True)
hparams.add_hparam("recurrent_memory_batch_size", 0) # 0 = try to guess
# By default, cache one chunk only (like Transformer-XL)
hparams.add_hparam("num_memory_items", hparams.split_targets_chunk_length)
return hparams | [
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train | transformer_wikitext103_l16k_memory_v0 | HParams for training languagemodel_wikitext103_l16k with memory. | tensor2tensor/models/transformer.py | def transformer_wikitext103_l16k_memory_v0():
"""HParams for training languagemodel_wikitext103_l16k with memory."""
hparams = transformer_wikitext103_l4k_memory_v0()
hparams.max_length = 16384
hparams.split_targets_chunk_length = 64
hparams.split_targets_max_chunks = int(
hparams.max_length / hparams.split_targets_chunk_length)
# The hparams specify batch size *before* chunking, but we want to have a
# consistent 4K batch size *after* chunking to fully utilize the hardware.
target_tokens_per_batch = 4096
hparams.batch_size = int(target_tokens_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length))
hparams.max_relative_position = 2 * hparams.split_targets_chunk_length
return hparams | def transformer_wikitext103_l16k_memory_v0():
"""HParams for training languagemodel_wikitext103_l16k with memory."""
hparams = transformer_wikitext103_l4k_memory_v0()
hparams.max_length = 16384
hparams.split_targets_chunk_length = 64
hparams.split_targets_max_chunks = int(
hparams.max_length / hparams.split_targets_chunk_length)
# The hparams specify batch size *before* chunking, but we want to have a
# consistent 4K batch size *after* chunking to fully utilize the hardware.
target_tokens_per_batch = 4096
hparams.batch_size = int(target_tokens_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length))
hparams.max_relative_position = 2 * hparams.split_targets_chunk_length
return hparams | [
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train | transformer_cifar10_memory_v0 | HParams for training image_cifar10_plain_gen_flat_rev with memory. | tensor2tensor/models/transformer.py | def transformer_cifar10_memory_v0():
"""HParams for training image_cifar10_plain_gen_flat_rev with memory."""
hparams = transformer_wikitext103_l4k_memory_v0()
hparams.num_hidden_layers = 6
hparams.max_length = 32 * 32 * 3
hparams.split_targets_chunk_length = 64 * 3
hparams.split_targets_max_chunks = int(
hparams.max_length / hparams.split_targets_chunk_length)
hparams.num_memory_items = 128 * 3
# Since this is an image problem, batch size refers to examples (not tokens)
target_images_per_batch = 4
hparams.batch_size = int(target_images_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length))
# The recurrent memory needs to know the actual batch size (in sequences)
hparams.recurrent_memory_batch_size = hparams.batch_size
hparams.max_relative_position = (
hparams.num_memory_items + hparams.split_targets_chunk_length)
return hparams | def transformer_cifar10_memory_v0():
"""HParams for training image_cifar10_plain_gen_flat_rev with memory."""
hparams = transformer_wikitext103_l4k_memory_v0()
hparams.num_hidden_layers = 6
hparams.max_length = 32 * 32 * 3
hparams.split_targets_chunk_length = 64 * 3
hparams.split_targets_max_chunks = int(
hparams.max_length / hparams.split_targets_chunk_length)
hparams.num_memory_items = 128 * 3
# Since this is an image problem, batch size refers to examples (not tokens)
target_images_per_batch = 4
hparams.batch_size = int(target_images_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length))
# The recurrent memory needs to know the actual batch size (in sequences)
hparams.recurrent_memory_batch_size = hparams.batch_size
hparams.max_relative_position = (
hparams.num_memory_items + hparams.split_targets_chunk_length)
return hparams | [
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train | transformer_imagenet64_memory_v0 | HParams for training image_imagenet64_gen_flat_rev with memory. | tensor2tensor/models/transformer.py | def transformer_imagenet64_memory_v0():
"""HParams for training image_imagenet64_gen_flat_rev with memory."""
hparams = transformer_cifar10_memory_v0()
hparams.max_length = 64 * 64 * 3
hparams.split_targets_chunk_length = 64 * 3
hparams.split_targets_max_chunks = int(
hparams.max_length / hparams.split_targets_chunk_length)
hparams.num_memory_items = 128 * 3
# Since this is an image problem, batch size refers to examples (not tokens)
target_images_per_batch = 2
hparams.batch_size = int(target_images_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length))
# The recurrent memory needs to know the actual batch size (in sequences)
hparams.recurrent_memory_batch_size = hparams.batch_size
hparams.max_relative_position = 3072
return hparams | def transformer_imagenet64_memory_v0():
"""HParams for training image_imagenet64_gen_flat_rev with memory."""
hparams = transformer_cifar10_memory_v0()
hparams.max_length = 64 * 64 * 3
hparams.split_targets_chunk_length = 64 * 3
hparams.split_targets_max_chunks = int(
hparams.max_length / hparams.split_targets_chunk_length)
hparams.num_memory_items = 128 * 3
# Since this is an image problem, batch size refers to examples (not tokens)
target_images_per_batch = 2
hparams.batch_size = int(target_images_per_batch * (
hparams.max_length / hparams.split_targets_chunk_length))
# The recurrent memory needs to know the actual batch size (in sequences)
hparams.recurrent_memory_batch_size = hparams.batch_size
hparams.max_relative_position = 3072
return hparams | [
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train | maybe_reshape_4d_to_3d | Reshape input from 4D to 3D if necessary. | tensor2tensor/layers/common_image_attention.py | def maybe_reshape_4d_to_3d(x):
"""Reshape input from 4D to 3D if necessary."""
x_shape = common_layers.shape_list(x)
is_4d = False
if len(x_shape) == 4:
x = tf.reshape(x, [x_shape[0], x_shape[1]*x_shape[2], x_shape[3]])
is_4d = True
return x, x_shape, is_4d | def maybe_reshape_4d_to_3d(x):
"""Reshape input from 4D to 3D if necessary."""
x_shape = common_layers.shape_list(x)
is_4d = False
if len(x_shape) == 4:
x = tf.reshape(x, [x_shape[0], x_shape[1]*x_shape[2], x_shape[3]])
is_4d = True
return x, x_shape, is_4d | [
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L72-L79 | [
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train | local_attention_2d | Local 2d, self attention layer. | tensor2tensor/layers/common_image_attention.py | def local_attention_2d(x, hparams, attention_type="local_attention_2d"):
"""Local 2d, self attention layer."""
# self-attention
with tf.variable_scope("local_2d_self_att"):
y = common_attention.multihead_attention_2d(
x,
None,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
attention_type=attention_type,
query_shape=hparams.query_shape,
memory_flange=hparams.memory_flange,
name="self_attention")
return y | def local_attention_2d(x, hparams, attention_type="local_attention_2d"):
"""Local 2d, self attention layer."""
# self-attention
with tf.variable_scope("local_2d_self_att"):
y = common_attention.multihead_attention_2d(
x,
None,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
attention_type=attention_type,
query_shape=hparams.query_shape,
memory_flange=hparams.memory_flange,
name="self_attention")
return y | [
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L82-L97 | [
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train | local_within_block_attention | Local within block self attention. | tensor2tensor/layers/common_image_attention.py | def local_within_block_attention(x,
self_attention_bias,
hparams,
attention_type="local_within_block_mask_right",
q_padding="VALID",
kv_padding="VALID"):
"""Local within block self attention."""
x_new, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
with tf.variable_scope("local_within_block"):
y = common_attention.multihead_attention(
common_layers.layer_preprocess(x_new, hparams),
None,
self_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=attention_type,
block_width=hparams.block_width,
block_length=hparams.block_length,
q_padding=q_padding,
kv_padding=kv_padding,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
name="local_within_block")
if is_4d:
y = tf.reshape(y, x_shape)
return y | def local_within_block_attention(x,
self_attention_bias,
hparams,
attention_type="local_within_block_mask_right",
q_padding="VALID",
kv_padding="VALID"):
"""Local within block self attention."""
x_new, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
with tf.variable_scope("local_within_block"):
y = common_attention.multihead_attention(
common_layers.layer_preprocess(x_new, hparams),
None,
self_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=attention_type,
block_width=hparams.block_width,
block_length=hparams.block_length,
q_padding=q_padding,
kv_padding=kv_padding,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
name="local_within_block")
if is_4d:
y = tf.reshape(y, x_shape)
return y | [
"Local",
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"block",
"self",
"attention",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L100-L128 | [
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train | local_attention_1d | Local 1d self attention. | tensor2tensor/layers/common_image_attention.py | def local_attention_1d(x,
hparams,
attention_type="local_unmasked",
q_padding="VALID",
kv_padding="VALID"):
"""Local 1d self attention."""
# self-attention
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
with tf.variable_scope("local_1d_self_att"):
y = common_attention.multihead_attention(
x,
None,
None,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=attention_type,
shared_rel=hparams.shared_rel,
block_width=hparams.block_width,
block_length=hparams.block_length,
q_padding=q_padding,
kv_padding=kv_padding,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
make_image_summary=False,
name="self_attention")
if is_4d:
y = tf.reshape(y, x_shape)
return y | def local_attention_1d(x,
hparams,
attention_type="local_unmasked",
q_padding="VALID",
kv_padding="VALID"):
"""Local 1d self attention."""
# self-attention
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
with tf.variable_scope("local_1d_self_att"):
y = common_attention.multihead_attention(
x,
None,
None,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=attention_type,
shared_rel=hparams.shared_rel,
block_width=hparams.block_width,
block_length=hparams.block_length,
q_padding=q_padding,
kv_padding=kv_padding,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
make_image_summary=False,
name="self_attention")
if is_4d:
y = tf.reshape(y, x_shape)
return y | [
"Local",
"1d",
"self",
"attention",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L131-L161 | [
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train | get_dilated_1d_attention_mask | Dilated attention with a masking strategy. | tensor2tensor/layers/common_image_attention.py | def get_dilated_1d_attention_mask(
num_heads, block_size,
num_blocks, memory_size, gap_size,
name="dilated_mask"):
"""Dilated attention with a masking strategy."""
mask = np.ones((num_heads, block_size, 2*block_size), np.bool)
# now going over every row to do the right assignment of
# memory blocks
for i in range(block_size):
visible = 2*block_size - (block_size-i)
# You always attend to yourself, set the mask for that
mask[:, i, -(block_size - i)] = 0
# Maybe num_blocks can be automatically calculated?
for j in range(num_blocks):
for k in range(memory_size):
index = ((gap_size + memory_size)*j) + k
if index >= visible:
break
mask[:, i, -(index + block_size - i + 1)] = 0 # Verify
# adding a num blocks dimension
mask = np.expand_dims(mask, axis=1)
return tf.constant(mask, dtype=tf.int32, name=name) | def get_dilated_1d_attention_mask(
num_heads, block_size,
num_blocks, memory_size, gap_size,
name="dilated_mask"):
"""Dilated attention with a masking strategy."""
mask = np.ones((num_heads, block_size, 2*block_size), np.bool)
# now going over every row to do the right assignment of
# memory blocks
for i in range(block_size):
visible = 2*block_size - (block_size-i)
# You always attend to yourself, set the mask for that
mask[:, i, -(block_size - i)] = 0
# Maybe num_blocks can be automatically calculated?
for j in range(num_blocks):
for k in range(memory_size):
index = ((gap_size + memory_size)*j) + k
if index >= visible:
break
mask[:, i, -(index + block_size - i + 1)] = 0 # Verify
# adding a num blocks dimension
mask = np.expand_dims(mask, axis=1)
return tf.constant(mask, dtype=tf.int32, name=name) | [
"Dilated",
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L164-L187 | [
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train | dilated_attention_1d | Dilated 1d self attention. | tensor2tensor/layers/common_image_attention.py | def dilated_attention_1d(x,
hparams,
attention_type="masked_dilated_1d",
q_padding="VALID",
kv_padding="VALID",
gap_size=2):
"""Dilated 1d self attention."""
# self-attention
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
with tf.variable_scope("masked_dilated_1d"):
y = common_attention.multihead_attention(
x,
None,
None,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=attention_type,
block_width=hparams.block_width,
block_length=hparams.block_length,
q_padding=q_padding,
kv_padding=kv_padding,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
gap_size=gap_size,
num_memory_blocks=hparams.num_memory_blocks,
name="self_attention")
if is_4d:
y = tf.reshape(y, x_shape)
y.set_shape([None, None, None, hparams.hidden_size])
return y | def dilated_attention_1d(x,
hparams,
attention_type="masked_dilated_1d",
q_padding="VALID",
kv_padding="VALID",
gap_size=2):
"""Dilated 1d self attention."""
# self-attention
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
with tf.variable_scope("masked_dilated_1d"):
y = common_attention.multihead_attention(
x,
None,
None,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
attention_type=attention_type,
block_width=hparams.block_width,
block_length=hparams.block_length,
q_padding=q_padding,
kv_padding=kv_padding,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
gap_size=gap_size,
num_memory_blocks=hparams.num_memory_blocks,
name="self_attention")
if is_4d:
y = tf.reshape(y, x_shape)
y.set_shape([None, None, None, hparams.hidden_size])
return y | [
"Dilated",
"1d",
"self",
"attention",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L190-L222 | [
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train | local_global_attention | Local and global 1d self attention. | tensor2tensor/layers/common_image_attention.py | def local_global_attention(x,
self_attention_bias,
hparams,
q_padding="LEFT",
kv_padding="LEFT"):
"""Local and global 1d self attention."""
with tf.variable_scope("self_local_global_att"):
[x_global, x_local] = tf.split(x, 2, axis=-1)
split_hidden_size = int(hparams.hidden_size / 2)
split_heads = int(hparams.num_heads / 2)
if self_attention_bias is not None:
self_attention_bias = get_self_attention_bias(x)
y_global = common_attention.multihead_attention(
x_global,
None,
self_attention_bias,
hparams.attention_key_channels or split_hidden_size,
hparams.attention_value_channels or split_hidden_size,
split_hidden_size,
split_heads,
hparams.attention_dropout,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
q_padding=q_padding,
kv_padding=kv_padding,
name="global_self_att")
y_local = common_attention.multihead_attention(
x_local,
None,
None,
hparams.attention_key_channels or split_hidden_size,
hparams.attention_value_channels or split_hidden_size,
split_hidden_size,
split_heads,
hparams.attention_dropout,
attention_type="local_masked",
block_length=hparams.block_length,
block_width=hparams.block_width,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
q_padding=q_padding,
kv_padding=kv_padding,
name="local_self_att")
y = tf.concat([y_global, y_local], axis=-1)
return y | def local_global_attention(x,
self_attention_bias,
hparams,
q_padding="LEFT",
kv_padding="LEFT"):
"""Local and global 1d self attention."""
with tf.variable_scope("self_local_global_att"):
[x_global, x_local] = tf.split(x, 2, axis=-1)
split_hidden_size = int(hparams.hidden_size / 2)
split_heads = int(hparams.num_heads / 2)
if self_attention_bias is not None:
self_attention_bias = get_self_attention_bias(x)
y_global = common_attention.multihead_attention(
x_global,
None,
self_attention_bias,
hparams.attention_key_channels or split_hidden_size,
hparams.attention_value_channels or split_hidden_size,
split_hidden_size,
split_heads,
hparams.attention_dropout,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
q_padding=q_padding,
kv_padding=kv_padding,
name="global_self_att")
y_local = common_attention.multihead_attention(
x_local,
None,
None,
hparams.attention_key_channels or split_hidden_size,
hparams.attention_value_channels or split_hidden_size,
split_hidden_size,
split_heads,
hparams.attention_dropout,
attention_type="local_masked",
block_length=hparams.block_length,
block_width=hparams.block_width,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
q_padding=q_padding,
kv_padding=kv_padding,
name="local_self_att")
y = tf.concat([y_global, y_local], axis=-1)
return y | [
"Local",
"and",
"global",
"1d",
"self",
"attention",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L225-L269 | [
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train | full_self_attention | Full self-attention layer. | tensor2tensor/layers/common_image_attention.py | def full_self_attention(x,
self_attention_bias,
hparams,
q_padding="LEFT",
kv_padding="LEFT"):
"""Full self-attention layer."""
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
if self_attention_bias is not None:
self_attention_bias = get_self_attention_bias(x)
with tf.variable_scope("self_att"):
y = common_attention.multihead_attention(
x,
None,
self_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
q_padding=q_padding,
kv_padding=kv_padding,
name="self_att")
if is_4d:
y = tf.reshape(y, [x_shape[0], x_shape[1], x_shape[2], x_shape[3]])
y.set_shape([None, None, None, hparams.hidden_size])
return y | def full_self_attention(x,
self_attention_bias,
hparams,
q_padding="LEFT",
kv_padding="LEFT"):
"""Full self-attention layer."""
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
if self_attention_bias is not None:
self_attention_bias = get_self_attention_bias(x)
with tf.variable_scope("self_att"):
y = common_attention.multihead_attention(
x,
None,
self_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
q_filter_width=hparams.q_filter_width,
kv_filter_width=hparams.kv_filter_width,
q_padding=q_padding,
kv_padding=kv_padding,
name="self_att")
if is_4d:
y = tf.reshape(y, [x_shape[0], x_shape[1], x_shape[2], x_shape[3]])
y.set_shape([None, None, None, hparams.hidden_size])
return y | [
"Full",
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"layer",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L272-L299 | [
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train | encdec_attention_1d | Local 1d self attention. | tensor2tensor/layers/common_image_attention.py | def encdec_attention_1d(x,
encoder_output,
encoder_decoder_attention_bias,
hparams):
"""Local 1d self attention."""
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
encoder_output, _, _ = maybe_reshape_4d_to_3d(encoder_output)
with tf.variable_scope("encdec_attention"):
# Encoder Decoder attention
y = common_attention.multihead_attention(
x,
encoder_output,
encoder_decoder_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
name="encdec_attention")
if is_4d:
y = tf.reshape(y, x_shape)
y.set_shape([None, None, None, hparams.hidden_size])
return y | def encdec_attention_1d(x,
encoder_output,
encoder_decoder_attention_bias,
hparams):
"""Local 1d self attention."""
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
encoder_output, _, _ = maybe_reshape_4d_to_3d(encoder_output)
with tf.variable_scope("encdec_attention"):
# Encoder Decoder attention
y = common_attention.multihead_attention(
x,
encoder_output,
encoder_decoder_attention_bias,
hparams.attention_key_channels or hparams.hidden_size,
hparams.attention_value_channels or hparams.hidden_size,
hparams.hidden_size,
hparams.num_heads,
hparams.attention_dropout,
name="encdec_attention")
if is_4d:
y = tf.reshape(y, x_shape)
y.set_shape([None, None, None, hparams.hidden_size])
return y | [
"Local",
"1d",
"self",
"attention",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L302-L324 | [
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train | transformer_decoder_layers | Multi layer transformer. | tensor2tensor/layers/common_image_attention.py | def transformer_decoder_layers(inputs,
encoder_output,
num_layers,
hparams,
self_attention_bias=None,
encoder_decoder_attention_bias=None,
attention_type=AttentionType.LOCAL_2D,
losses=None,
name="transformer"):
"""Multi layer transformer."""
x = inputs
x = tf.nn.dropout(x, 1.0 - hparams.layer_prepostprocess_dropout)
if attention_type == AttentionType.DILATED:
assert len(hparams.gap_sizes) == num_layers
for layer in range(num_layers):
with tf.variable_scope("%s_layer_%d" % (name, layer)):
# self-attention + skip connections
if attention_type == AttentionType.LOCAL_2D:
y = local_attention_2d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="masked_local_attention_2d")
elif attention_type == AttentionType.LOCAL_1D:
y = local_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_mask_right",
q_padding="LEFT", kv_padding="LEFT")
elif attention_type == AttentionType.RELATIVE_LOCAL_1D:
y = local_attention_1d(
common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_relative_mask_right",
q_padding="LEFT",
kv_padding="LEFT")
elif attention_type == AttentionType.NON_CAUSAL_1D:
y = local_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_unmasked",
q_padding="VALID", kv_padding="VALID")
elif attention_type == AttentionType.LOCAL_BLOCK:
y = local_within_block_attention(
common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
attention_type="local_within_block_mask_right",
q_padding="LEFT", kv_padding="LEFT")
elif attention_type == AttentionType.GLOCAL:
y = local_global_attention(common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
q_padding="LEFT", kv_padding="LEFT")
elif attention_type == AttentionType.DILATED:
y = dilated_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams, q_padding="LEFT",
kv_padding="LEFT",
gap_size=hparams.gap_sizes[layer])
elif attention_type == AttentionType.GLOBAL:
y = full_self_attention(common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
q_padding="LEFT", kv_padding="LEFT")
x = common_layers.layer_postprocess(x, y, hparams)
# enc-dec attention + skip connections
if encoder_output is not None:
y = encdec_attention_1d(common_layers.layer_preprocess(x, hparams),
encoder_output,
encoder_decoder_attention_bias,
hparams)
x = common_layers.layer_postprocess(x, y, hparams)
# feed-fwd layers + skip connections
y = ffn_layer(common_layers.layer_preprocess(x, hparams), hparams,
losses=losses)
x = common_layers.layer_postprocess(x, y, hparams)
return common_layers.layer_preprocess(x, hparams) | def transformer_decoder_layers(inputs,
encoder_output,
num_layers,
hparams,
self_attention_bias=None,
encoder_decoder_attention_bias=None,
attention_type=AttentionType.LOCAL_2D,
losses=None,
name="transformer"):
"""Multi layer transformer."""
x = inputs
x = tf.nn.dropout(x, 1.0 - hparams.layer_prepostprocess_dropout)
if attention_type == AttentionType.DILATED:
assert len(hparams.gap_sizes) == num_layers
for layer in range(num_layers):
with tf.variable_scope("%s_layer_%d" % (name, layer)):
# self-attention + skip connections
if attention_type == AttentionType.LOCAL_2D:
y = local_attention_2d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="masked_local_attention_2d")
elif attention_type == AttentionType.LOCAL_1D:
y = local_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_mask_right",
q_padding="LEFT", kv_padding="LEFT")
elif attention_type == AttentionType.RELATIVE_LOCAL_1D:
y = local_attention_1d(
common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_relative_mask_right",
q_padding="LEFT",
kv_padding="LEFT")
elif attention_type == AttentionType.NON_CAUSAL_1D:
y = local_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_unmasked",
q_padding="VALID", kv_padding="VALID")
elif attention_type == AttentionType.LOCAL_BLOCK:
y = local_within_block_attention(
common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
attention_type="local_within_block_mask_right",
q_padding="LEFT", kv_padding="LEFT")
elif attention_type == AttentionType.GLOCAL:
y = local_global_attention(common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
q_padding="LEFT", kv_padding="LEFT")
elif attention_type == AttentionType.DILATED:
y = dilated_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams, q_padding="LEFT",
kv_padding="LEFT",
gap_size=hparams.gap_sizes[layer])
elif attention_type == AttentionType.GLOBAL:
y = full_self_attention(common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
q_padding="LEFT", kv_padding="LEFT")
x = common_layers.layer_postprocess(x, y, hparams)
# enc-dec attention + skip connections
if encoder_output is not None:
y = encdec_attention_1d(common_layers.layer_preprocess(x, hparams),
encoder_output,
encoder_decoder_attention_bias,
hparams)
x = common_layers.layer_postprocess(x, y, hparams)
# feed-fwd layers + skip connections
y = ffn_layer(common_layers.layer_preprocess(x, hparams), hparams,
losses=losses)
x = common_layers.layer_postprocess(x, y, hparams)
return common_layers.layer_preprocess(x, hparams) | [
"Multi",
"layer",
"transformer",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L327-L396 | [
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train | transformer_encoder_layers | Multi layer transformer encoder. | tensor2tensor/layers/common_image_attention.py | def transformer_encoder_layers(inputs,
num_layers,
hparams,
attention_type=AttentionType.GLOBAL,
self_attention_bias=None,
q_padding="VALID",
kv_padding="VALID",
name="transformer"):
"""Multi layer transformer encoder."""
x = inputs
x = tf.nn.dropout(x, 1.0 - hparams.layer_prepostprocess_dropout)
for layer in range(num_layers):
# attention layers + skip connections
with tf.variable_scope("%s_layer_%d" % (name, layer)):
if attention_type == AttentionType.LOCAL_2D:
y = local_attention_2d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_attention_2d")
elif attention_type == AttentionType.LOCAL_1D:
y = local_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_unmasked",
q_padding=q_padding, kv_padding=kv_padding)
elif attention_type == AttentionType.GLOBAL:
y = full_self_attention(common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
q_padding=q_padding, kv_padding=kv_padding)
x = common_layers.layer_postprocess(x, y, hparams)
# feed-fwd layer + skip connections
y = ffn_layer(common_layers.layer_preprocess(x, hparams), hparams)
x = common_layers.layer_postprocess(x, y, hparams)
return common_layers.layer_preprocess(x, hparams) | def transformer_encoder_layers(inputs,
num_layers,
hparams,
attention_type=AttentionType.GLOBAL,
self_attention_bias=None,
q_padding="VALID",
kv_padding="VALID",
name="transformer"):
"""Multi layer transformer encoder."""
x = inputs
x = tf.nn.dropout(x, 1.0 - hparams.layer_prepostprocess_dropout)
for layer in range(num_layers):
# attention layers + skip connections
with tf.variable_scope("%s_layer_%d" % (name, layer)):
if attention_type == AttentionType.LOCAL_2D:
y = local_attention_2d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_attention_2d")
elif attention_type == AttentionType.LOCAL_1D:
y = local_attention_1d(common_layers.layer_preprocess(x, hparams),
hparams,
attention_type="local_unmasked",
q_padding=q_padding, kv_padding=kv_padding)
elif attention_type == AttentionType.GLOBAL:
y = full_self_attention(common_layers.layer_preprocess(x, hparams),
self_attention_bias, hparams,
q_padding=q_padding, kv_padding=kv_padding)
x = common_layers.layer_postprocess(x, y, hparams)
# feed-fwd layer + skip connections
y = ffn_layer(common_layers.layer_preprocess(x, hparams), hparams)
x = common_layers.layer_postprocess(x, y, hparams)
return common_layers.layer_preprocess(x, hparams) | [
"Multi",
"layer",
"transformer",
"encoder",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L399-L431 | [
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train | ffn_layer | ffn layer transformer. | tensor2tensor/layers/common_image_attention.py | def ffn_layer(x, hparams, losses=None):
"""ffn layer transformer."""
with tf.variable_scope("ffn"):
if hparams.ffn_layer == "none":
return x
if hparams.ffn_layer == "conv_hidden_relu":
y = common_layers.dense_relu_dense(
x,
hparams.filter_size,
hparams.hidden_size,
dropout=hparams.relu_dropout)
elif hparams.ffn_layer == "normed_conv_hidden_relu":
y = common_layers.normed_conv_hidden_relu(
x,
hparams.norm_type,
hparams.layer_norm_epsilon,
hparams.filter_size,
hparams.hidden_size,
dropout=hparams.relu_dropout,
norm_name="convnorm")
elif hparams.ffn_layer == "self_attention_ffn":
x_shape = tf.shape(x)
x = tf.reshape(x, [x_shape[0], -1, hparams.hidden_size])
y = common_attention.ffn_self_attention_layer(
x, hparams.filter_size, hparams.hidden_size, hparams.num_parts,
hparams.attention_dropout, hparams.share_kv)
y = tf.reshape(y, x_shape)
elif hparams.ffn_layer == "local_moe_tpu":
overhead = (hparams.moe_overhead_train
if hparams.mode == tf.estimator.ModeKeys.TRAIN
else hparams.moe_overhead_eval)
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
y, loss = expert_utils.local_moe_tpu(
x, hparams.filter_size // 2,
hparams.hidden_size,
hparams.moe_num_experts, overhead=overhead,
loss_coef=hparams.moe_loss_coef)
if is_4d:
y = tf.reshape(y, x_shape)
if losses is None:
raise ValueError(
"transformer_ffn_layer with type local_moe_tpu must pass in "
"a losses list")
losses.append(loss)
else:
assert hparams.ffn_layer == "glu_ffn"
y = common_layers.gated_linear_unit_layer(x)
return y | def ffn_layer(x, hparams, losses=None):
"""ffn layer transformer."""
with tf.variable_scope("ffn"):
if hparams.ffn_layer == "none":
return x
if hparams.ffn_layer == "conv_hidden_relu":
y = common_layers.dense_relu_dense(
x,
hparams.filter_size,
hparams.hidden_size,
dropout=hparams.relu_dropout)
elif hparams.ffn_layer == "normed_conv_hidden_relu":
y = common_layers.normed_conv_hidden_relu(
x,
hparams.norm_type,
hparams.layer_norm_epsilon,
hparams.filter_size,
hparams.hidden_size,
dropout=hparams.relu_dropout,
norm_name="convnorm")
elif hparams.ffn_layer == "self_attention_ffn":
x_shape = tf.shape(x)
x = tf.reshape(x, [x_shape[0], -1, hparams.hidden_size])
y = common_attention.ffn_self_attention_layer(
x, hparams.filter_size, hparams.hidden_size, hparams.num_parts,
hparams.attention_dropout, hparams.share_kv)
y = tf.reshape(y, x_shape)
elif hparams.ffn_layer == "local_moe_tpu":
overhead = (hparams.moe_overhead_train
if hparams.mode == tf.estimator.ModeKeys.TRAIN
else hparams.moe_overhead_eval)
x, x_shape, is_4d = maybe_reshape_4d_to_3d(x)
y, loss = expert_utils.local_moe_tpu(
x, hparams.filter_size // 2,
hparams.hidden_size,
hparams.moe_num_experts, overhead=overhead,
loss_coef=hparams.moe_loss_coef)
if is_4d:
y = tf.reshape(y, x_shape)
if losses is None:
raise ValueError(
"transformer_ffn_layer with type local_moe_tpu must pass in "
"a losses list")
losses.append(loss)
else:
assert hparams.ffn_layer == "glu_ffn"
y = common_layers.gated_linear_unit_layer(x)
return y | [
"ffn",
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"transformer",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L434-L481 | [
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train | get_self_attention_bias | Creates masked self attention bias.
Args:
x: A tensor of shape [batch, length, depth]
Returns:
self_attention_bias: A tensor of shape [length, length, 1] | tensor2tensor/layers/common_image_attention.py | def get_self_attention_bias(x):
"""Creates masked self attention bias.
Args:
x: A tensor of shape [batch, length, depth]
Returns:
self_attention_bias: A tensor of shape [length, length, 1]
"""
x_shape = common_layers.shape_list(x)
self_attention_bias = common_attention.attention_bias_lower_triangle(
x_shape[1])
return self_attention_bias | def get_self_attention_bias(x):
"""Creates masked self attention bias.
Args:
x: A tensor of shape [batch, length, depth]
Returns:
self_attention_bias: A tensor of shape [length, length, 1]
"""
x_shape = common_layers.shape_list(x)
self_attention_bias = common_attention.attention_bias_lower_triangle(
x_shape[1])
return self_attention_bias | [
"Creates",
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"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L484-L497 | [
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train | postprocess_image | Postprocessing after decoding.
Args:
x: Tensor of shape [batch, ...], where ... can be any rank such that the
number of elements in x is batch * rows * cols * hparams.hidden_size.
rows: Integer representing number of rows in a 2-D data point.
cols: Integer representing number of columns in a 2-D data point.
hparams: HParams set.
Returns:
Tensor of shape [batch, rows, cols, depth], where depth is
hparams.num_mixtures * 10 if hparams.likelihood is DMOL, otherwise 256. In
the special case of inference and block raster scan order, it is a Tensor
of shape [batch, num_blocks_rows, num_block_cols, block_length, block_width,
depth]. | tensor2tensor/layers/common_image_attention.py | def postprocess_image(x, rows, cols, hparams):
"""Postprocessing after decoding.
Args:
x: Tensor of shape [batch, ...], where ... can be any rank such that the
number of elements in x is batch * rows * cols * hparams.hidden_size.
rows: Integer representing number of rows in a 2-D data point.
cols: Integer representing number of columns in a 2-D data point.
hparams: HParams set.
Returns:
Tensor of shape [batch, rows, cols, depth], where depth is
hparams.num_mixtures * 10 if hparams.likelihood is DMOL, otherwise 256. In
the special case of inference and block raster scan order, it is a Tensor
of shape [batch, num_blocks_rows, num_block_cols, block_length, block_width,
depth].
"""
batch = common_layers.shape_list(x)[0]
x = tf.reshape(x, [batch, rows, cols, hparams.hidden_size])
likelihood = getattr(hparams, "likelihood", DistributionType.CAT)
if likelihood == DistributionType.DMOL:
depth = hparams.num_mixtures * 10
targets = tf.layers.dense(x,
depth,
use_bias=False,
activation=None,
name="output_conv")
else:
depth = 256
targets = tf.layers.dense(x,
depth,
use_bias=True,
activation=None,
name="output_conv")
if (hparams.mode == tf.estimator.ModeKeys.PREDICT and
hparams.block_raster_scan):
y = targets
yshape = common_layers.shape_list(y)
block_length = hparams.query_shape[0]
block_width = hparams.query_shape[1]
# Break into block row wise.
y = tf.reshape(y,
[batch, yshape[1] // block_length, block_length,
yshape[2], depth])
yshape = common_layers.shape_list(y)
# Break into blocks width wise.
y_blocks = tf.reshape(y,
[batch, yshape[1], yshape[2],
yshape[3] // block_width, block_width, depth])
# Reshape targets as [batch, num_blocks_rows, num_block_cols, block_length,
# block_width, depth].
targets = tf.transpose(y_blocks, [0, 1, 3, 2, 4, 5])
return targets | def postprocess_image(x, rows, cols, hparams):
"""Postprocessing after decoding.
Args:
x: Tensor of shape [batch, ...], where ... can be any rank such that the
number of elements in x is batch * rows * cols * hparams.hidden_size.
rows: Integer representing number of rows in a 2-D data point.
cols: Integer representing number of columns in a 2-D data point.
hparams: HParams set.
Returns:
Tensor of shape [batch, rows, cols, depth], where depth is
hparams.num_mixtures * 10 if hparams.likelihood is DMOL, otherwise 256. In
the special case of inference and block raster scan order, it is a Tensor
of shape [batch, num_blocks_rows, num_block_cols, block_length, block_width,
depth].
"""
batch = common_layers.shape_list(x)[0]
x = tf.reshape(x, [batch, rows, cols, hparams.hidden_size])
likelihood = getattr(hparams, "likelihood", DistributionType.CAT)
if likelihood == DistributionType.DMOL:
depth = hparams.num_mixtures * 10
targets = tf.layers.dense(x,
depth,
use_bias=False,
activation=None,
name="output_conv")
else:
depth = 256
targets = tf.layers.dense(x,
depth,
use_bias=True,
activation=None,
name="output_conv")
if (hparams.mode == tf.estimator.ModeKeys.PREDICT and
hparams.block_raster_scan):
y = targets
yshape = common_layers.shape_list(y)
block_length = hparams.query_shape[0]
block_width = hparams.query_shape[1]
# Break into block row wise.
y = tf.reshape(y,
[batch, yshape[1] // block_length, block_length,
yshape[2], depth])
yshape = common_layers.shape_list(y)
# Break into blocks width wise.
y_blocks = tf.reshape(y,
[batch, yshape[1], yshape[2],
yshape[3] // block_width, block_width, depth])
# Reshape targets as [batch, num_blocks_rows, num_block_cols, block_length,
# block_width, depth].
targets = tf.transpose(y_blocks, [0, 1, 3, 2, 4, 5])
return targets | [
"Postprocessing",
"after",
"decoding",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L500-L555 | [
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train | prepare_encoder | Prepare encoder for images. | tensor2tensor/layers/common_image_attention.py | def prepare_encoder(inputs, hparams, attention_type="local_1d"):
"""Prepare encoder for images."""
x = prepare_image(inputs, hparams, name="enc_channels")
# Add position signals.
x = add_pos_signals(x, hparams, "enc_pos")
x_shape = common_layers.shape_list(x)
if attention_type == "local_1d":
x = tf.reshape(x, [x_shape[0], x_shape[1]*x_shape[2], hparams.hidden_size])
x.set_shape([None, None, hparams.hidden_size])
elif attention_type == "local_2d":
x.set_shape([None, None, None, hparams.hidden_size])
return x | def prepare_encoder(inputs, hparams, attention_type="local_1d"):
"""Prepare encoder for images."""
x = prepare_image(inputs, hparams, name="enc_channels")
# Add position signals.
x = add_pos_signals(x, hparams, "enc_pos")
x_shape = common_layers.shape_list(x)
if attention_type == "local_1d":
x = tf.reshape(x, [x_shape[0], x_shape[1]*x_shape[2], hparams.hidden_size])
x.set_shape([None, None, hparams.hidden_size])
elif attention_type == "local_2d":
x.set_shape([None, None, None, hparams.hidden_size])
return x | [
"Prepare",
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train | prepare_decoder | Prepare decoder for images. | tensor2tensor/layers/common_image_attention.py | def prepare_decoder(targets, hparams):
"""Prepare decoder for images."""
targets_shape = common_layers.shape_list(targets)
channels = hparams.num_channels
curr_infer_length = None
# during training, images are [batch, IMG_LEN, IMG_LEN, 3].
# At inference, they are [batch, curr_infer_length, 1, 1]
if hparams.mode == tf.estimator.ModeKeys.PREDICT:
curr_infer_length = targets_shape[1]
if hparams.block_raster_scan:
assert hparams.img_len*channels % hparams.query_shape[1] == 0
assert hparams.img_len % hparams.query_shape[0] == 0
total_block_width = hparams.img_len*channels
# Decoding is in block raster scan order. We divide the image into
# hparams.query_shape blocks and then decode each block in raster scan.
# To make that compatible with our inference pipeline, pad the target so
# that rows is a multiple of query_shape and columns is a multiple of
# hparams.img_len*channels
curr_infer_length = targets_shape[1]
block_padding_factor = total_block_width * hparams.query_shape[0]
targets = tf.pad(targets, [
[0, 0], [0, -curr_infer_length % block_padding_factor],
[0, 0], [0, 0]])
num_blocks = total_block_width // hparams.query_shape[1]
# Reshape the image to represent blocks
target_blocks = tf.reshape(
targets, [targets_shape[0], -1, num_blocks, hparams.query_shape[0],
hparams.query_shape[1]])
# Transpose to read the image in 2D fashion.
targets = tf.transpose(target_blocks, [0, 1, 3, 2, 4])
else:
# add padding to make sure the size of targets is a multiple of img_height
# times number of channels. This is needed for positional encodings and
# for doing the RGB lookup.
padding_factor = channels * hparams.img_len
targets = tf.pad(targets, [
[0, 0], [0, -curr_infer_length % padding_factor], [0, 0], [0, 0]])
targets = tf.reshape(targets,
[targets_shape[0], -1, hparams.img_len, channels])
# Preprocess image
x = prepare_image(targets, hparams, name="dec_channels")
x_shape = common_layers.shape_list(x)
if (hparams.dec_attention_type == AttentionType.LOCAL_2D or
hparams.dec_attention_type == AttentionType.LOCAL_BLOCK):
x = common_attention.right_shift_blockwise(x, hparams.query_shape)
x = add_pos_signals(x, hparams, "dec_pos")
else:
# Add position signals
x = tf.reshape(x, [targets_shape[0],
x_shape[1]*x_shape[2], hparams.hidden_size])
x = common_layers.shift_right_3d(x)
x = tf.reshape(x, [targets_shape[0],
x_shape[1], x_shape[2], hparams.hidden_size])
x = add_pos_signals(x, hparams, "dec_pos")
x = common_layers.cast_like(x, targets)
return x, x_shape[1], x_shape[2] | def prepare_decoder(targets, hparams):
"""Prepare decoder for images."""
targets_shape = common_layers.shape_list(targets)
channels = hparams.num_channels
curr_infer_length = None
# during training, images are [batch, IMG_LEN, IMG_LEN, 3].
# At inference, they are [batch, curr_infer_length, 1, 1]
if hparams.mode == tf.estimator.ModeKeys.PREDICT:
curr_infer_length = targets_shape[1]
if hparams.block_raster_scan:
assert hparams.img_len*channels % hparams.query_shape[1] == 0
assert hparams.img_len % hparams.query_shape[0] == 0
total_block_width = hparams.img_len*channels
# Decoding is in block raster scan order. We divide the image into
# hparams.query_shape blocks and then decode each block in raster scan.
# To make that compatible with our inference pipeline, pad the target so
# that rows is a multiple of query_shape and columns is a multiple of
# hparams.img_len*channels
curr_infer_length = targets_shape[1]
block_padding_factor = total_block_width * hparams.query_shape[0]
targets = tf.pad(targets, [
[0, 0], [0, -curr_infer_length % block_padding_factor],
[0, 0], [0, 0]])
num_blocks = total_block_width // hparams.query_shape[1]
# Reshape the image to represent blocks
target_blocks = tf.reshape(
targets, [targets_shape[0], -1, num_blocks, hparams.query_shape[0],
hparams.query_shape[1]])
# Transpose to read the image in 2D fashion.
targets = tf.transpose(target_blocks, [0, 1, 3, 2, 4])
else:
# add padding to make sure the size of targets is a multiple of img_height
# times number of channels. This is needed for positional encodings and
# for doing the RGB lookup.
padding_factor = channels * hparams.img_len
targets = tf.pad(targets, [
[0, 0], [0, -curr_infer_length % padding_factor], [0, 0], [0, 0]])
targets = tf.reshape(targets,
[targets_shape[0], -1, hparams.img_len, channels])
# Preprocess image
x = prepare_image(targets, hparams, name="dec_channels")
x_shape = common_layers.shape_list(x)
if (hparams.dec_attention_type == AttentionType.LOCAL_2D or
hparams.dec_attention_type == AttentionType.LOCAL_BLOCK):
x = common_attention.right_shift_blockwise(x, hparams.query_shape)
x = add_pos_signals(x, hparams, "dec_pos")
else:
# Add position signals
x = tf.reshape(x, [targets_shape[0],
x_shape[1]*x_shape[2], hparams.hidden_size])
x = common_layers.shift_right_3d(x)
x = tf.reshape(x, [targets_shape[0],
x_shape[1], x_shape[2], hparams.hidden_size])
x = add_pos_signals(x, hparams, "dec_pos")
x = common_layers.cast_like(x, targets)
return x, x_shape[1], x_shape[2] | [
"Prepare",
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train | create_output | Creates output from decoder output and vars.
Args:
decoder_output: Tensor of shape [batch, ...], where ... can be any rank such
that the number of elements is batch * rows * cols * hparams.hidden_size.
rows: Integer representing number of rows in a 2-D data point.
cols: Integer representing number of columns in a 2-D data point.
targets: Tensor of shape [batch, hparams.img_len, hparams.img_len,
hparams.num_channels].
hparams: HParams set.
Returns:
Tensor of shape [batch, hparams.img_len, hparams.img_len,
hparams.num_mixtures * 10] if hparams.likelihood is DMOL, otherwise
[batch, hparams.img_len, hparams.img_len, hparams.num_channels, 256].
In the special case of predict mode, it is a Tensor of rank 5. | tensor2tensor/layers/common_image_attention.py | def create_output(decoder_output, rows, cols, targets, hparams):
"""Creates output from decoder output and vars.
Args:
decoder_output: Tensor of shape [batch, ...], where ... can be any rank such
that the number of elements is batch * rows * cols * hparams.hidden_size.
rows: Integer representing number of rows in a 2-D data point.
cols: Integer representing number of columns in a 2-D data point.
targets: Tensor of shape [batch, hparams.img_len, hparams.img_len,
hparams.num_channels].
hparams: HParams set.
Returns:
Tensor of shape [batch, hparams.img_len, hparams.img_len,
hparams.num_mixtures * 10] if hparams.likelihood is DMOL, otherwise
[batch, hparams.img_len, hparams.img_len, hparams.num_channels, 256].
In the special case of predict mode, it is a Tensor of rank 5.
"""
del targets # unused arg
decoded_image = postprocess_image(decoder_output, rows, cols, hparams)
batch = common_layers.shape_list(decoded_image)[0]
depth = common_layers.shape_list(decoded_image)[-1]
likelihood = getattr(hparams, "likelihood", DistributionType.CAT)
if hparams.mode == tf.estimator.ModeKeys.PREDICT:
y = tf.reshape(decoded_image, [batch, -1, 1, 1, depth])
output = y[:, :rows, :, :, :]
elif likelihood == DistributionType.CAT:
# Unpack the cols dimension of the Categorical.
channels = hparams.num_channels
output = tf.reshape(decoded_image,
[batch, rows, cols // channels, channels, depth])
else:
output = decoded_image
return output | def create_output(decoder_output, rows, cols, targets, hparams):
"""Creates output from decoder output and vars.
Args:
decoder_output: Tensor of shape [batch, ...], where ... can be any rank such
that the number of elements is batch * rows * cols * hparams.hidden_size.
rows: Integer representing number of rows in a 2-D data point.
cols: Integer representing number of columns in a 2-D data point.
targets: Tensor of shape [batch, hparams.img_len, hparams.img_len,
hparams.num_channels].
hparams: HParams set.
Returns:
Tensor of shape [batch, hparams.img_len, hparams.img_len,
hparams.num_mixtures * 10] if hparams.likelihood is DMOL, otherwise
[batch, hparams.img_len, hparams.img_len, hparams.num_channels, 256].
In the special case of predict mode, it is a Tensor of rank 5.
"""
del targets # unused arg
decoded_image = postprocess_image(decoder_output, rows, cols, hparams)
batch = common_layers.shape_list(decoded_image)[0]
depth = common_layers.shape_list(decoded_image)[-1]
likelihood = getattr(hparams, "likelihood", DistributionType.CAT)
if hparams.mode == tf.estimator.ModeKeys.PREDICT:
y = tf.reshape(decoded_image, [batch, -1, 1, 1, depth])
output = y[:, :rows, :, :, :]
elif likelihood == DistributionType.CAT:
# Unpack the cols dimension of the Categorical.
channels = hparams.num_channels
output = tf.reshape(decoded_image,
[batch, rows, cols // channels, channels, depth])
else:
output = decoded_image
return output | [
"Creates",
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] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/layers/common_image_attention.py#L639-L672 | [
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train | get_channel_embeddings | Get separate embedding for each of the channels. | tensor2tensor/layers/common_image_attention.py | def get_channel_embeddings(io_depth, targets, hidden_size, name="channel"):
"""Get separate embedding for each of the channels."""
targets_split = tf.split(targets, io_depth, axis=3)
rgb_embedding_var = tf.get_variable("rgb_target_emb_%s" % name,
[256 * io_depth, hidden_size])
rgb_embedding_var = tf.identity(rgb_embedding_var)
rgb_embedding_var *= float(hidden_size)**0.5
channel_target_embs = []
for i in range(io_depth):
# Adding the channel offsets to get the right embedding since the
# embedding tensor has shape 256 * io_depth, hidden_size
target_ids = tf.squeeze(targets_split[i], axis=3) + i * 256
target_embs = common_layers.gather(rgb_embedding_var, target_ids)
channel_target_embs.append(target_embs)
return tf.concat(channel_target_embs, axis=-1) | def get_channel_embeddings(io_depth, targets, hidden_size, name="channel"):
"""Get separate embedding for each of the channels."""
targets_split = tf.split(targets, io_depth, axis=3)
rgb_embedding_var = tf.get_variable("rgb_target_emb_%s" % name,
[256 * io_depth, hidden_size])
rgb_embedding_var = tf.identity(rgb_embedding_var)
rgb_embedding_var *= float(hidden_size)**0.5
channel_target_embs = []
for i in range(io_depth):
# Adding the channel offsets to get the right embedding since the
# embedding tensor has shape 256 * io_depth, hidden_size
target_ids = tf.squeeze(targets_split[i], axis=3) + i * 256
target_embs = common_layers.gather(rgb_embedding_var, target_ids)
channel_target_embs.append(target_embs)
return tf.concat(channel_target_embs, axis=-1) | [
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train | PyFuncBatchEnv.simulate | Step the batch of environments.
The results of the step can be accessed from the variables defined below.
Args:
action: Tensor holding the batch of actions to apply.
Returns:
Operation. | tensor2tensor/rl/envs/py_func_batch_env.py | def simulate(self, action):
"""Step the batch of environments.
The results of the step can be accessed from the variables defined below.
Args:
action: Tensor holding the batch of actions to apply.
Returns:
Operation.
"""
with tf.name_scope("environment/simulate"):
if action.dtype in (tf.float16, tf.float32, tf.float64):
action = tf.check_numerics(action, "action")
def step(action):
step_response = self._batch_env.step(action)
# Current env doesn't return `info`, but EnvProblem does.
# TODO(afrozm): The proper way to do this is to make T2TGymEnv return
# an empty info return value.
if len(step_response) == 3:
(observ, reward, done) = step_response
else:
(observ, reward, done, _) = step_response
return (observ, reward.astype(np.float32), done)
observ, reward, done = tf.py_func(
step, [action],
[self.observ_dtype, tf.float32, tf.bool], name="step")
reward = tf.check_numerics(reward, "reward")
reward.set_shape((len(self),))
done.set_shape((len(self),))
with tf.control_dependencies([self._observ.assign(observ)]):
return tf.identity(reward), tf.identity(done) | def simulate(self, action):
"""Step the batch of environments.
The results of the step can be accessed from the variables defined below.
Args:
action: Tensor holding the batch of actions to apply.
Returns:
Operation.
"""
with tf.name_scope("environment/simulate"):
if action.dtype in (tf.float16, tf.float32, tf.float64):
action = tf.check_numerics(action, "action")
def step(action):
step_response = self._batch_env.step(action)
# Current env doesn't return `info`, but EnvProblem does.
# TODO(afrozm): The proper way to do this is to make T2TGymEnv return
# an empty info return value.
if len(step_response) == 3:
(observ, reward, done) = step_response
else:
(observ, reward, done, _) = step_response
return (observ, reward.astype(np.float32), done)
observ, reward, done = tf.py_func(
step, [action],
[self.observ_dtype, tf.float32, tf.bool], name="step")
reward = tf.check_numerics(reward, "reward")
reward.set_shape((len(self),))
done.set_shape((len(self),))
with tf.control_dependencies([self._observ.assign(observ)]):
return tf.identity(reward), tf.identity(done) | [
"Step",
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train | PyFuncBatchEnv._reset_non_empty | Reset the batch of environments.
Args:
indices: The batch indices of the environments to reset; defaults to all.
Returns:
Batch tensor of the new observations. | tensor2tensor/rl/envs/py_func_batch_env.py | def _reset_non_empty(self, indices):
"""Reset the batch of environments.
Args:
indices: The batch indices of the environments to reset; defaults to all.
Returns:
Batch tensor of the new observations.
"""
observ = tf.py_func(
self._batch_env.reset, [indices], self.observ_dtype, name="reset")
observ.set_shape(indices.get_shape().concatenate(self.observ_shape))
with tf.control_dependencies([
tf.scatter_update(self._observ, indices, observ)]):
return tf.identity(observ) | def _reset_non_empty(self, indices):
"""Reset the batch of environments.
Args:
indices: The batch indices of the environments to reset; defaults to all.
Returns:
Batch tensor of the new observations.
"""
observ = tf.py_func(
self._batch_env.reset, [indices], self.observ_dtype, name="reset")
observ.set_shape(indices.get_shape().concatenate(self.observ_shape))
with tf.control_dependencies([
tf.scatter_update(self._observ, indices, observ)]):
return tf.identity(observ) | [
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train | include_revision | Decide whether to include a revision.
If the number of revisions is large, we exclude some revisions to avoid
a quadratic blowup in runtime, since the article is likely also large.
We make the ratio between consecutive included revision numbers
appproximately equal to "factor".
Args:
revision_num: an integer
skip_factor: a floating point number >= 1.0
Returns:
a boolean | tensor2tensor/data_generators/wiki_revision_utils.py | def include_revision(revision_num, skip_factor=1.1):
"""Decide whether to include a revision.
If the number of revisions is large, we exclude some revisions to avoid
a quadratic blowup in runtime, since the article is likely also large.
We make the ratio between consecutive included revision numbers
appproximately equal to "factor".
Args:
revision_num: an integer
skip_factor: a floating point number >= 1.0
Returns:
a boolean
"""
if skip_factor <= 1.0:
return True
return (int(math.log1p(revision_num) / math.log(skip_factor)) != int(
math.log(revision_num + 2.0) / math.log(skip_factor))) | def include_revision(revision_num, skip_factor=1.1):
"""Decide whether to include a revision.
If the number of revisions is large, we exclude some revisions to avoid
a quadratic blowup in runtime, since the article is likely also large.
We make the ratio between consecutive included revision numbers
appproximately equal to "factor".
Args:
revision_num: an integer
skip_factor: a floating point number >= 1.0
Returns:
a boolean
"""
if skip_factor <= 1.0:
return True
return (int(math.log1p(revision_num) / math.log(skip_factor)) != int(
math.log(revision_num + 2.0) / math.log(skip_factor))) | [
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train | file_page_generator | Read wikipedia pages from a history dump.
Since some pages can be terabytes in size (with all the revisions),
we limit page size to max_page_size bytes.
Args:
my_file: an open file object.
max_page_size: an integer
Yields:
strings | tensor2tensor/data_generators/wiki_revision_utils.py | def file_page_generator(my_file, max_page_size=2**28):
"""Read wikipedia pages from a history dump.
Since some pages can be terabytes in size (with all the revisions),
we limit page size to max_page_size bytes.
Args:
my_file: an open file object.
max_page_size: an integer
Yields:
strings
"""
page_start = " <page>\n"
page_end = " </page>\n"
chunk_size = max_page_size
page_start = " <page>\n"
page_end = " </page>\n"
leftovers = ""
while True:
chunk = my_file.read(chunk_size)
if not chunk:
break
chunk = leftovers + chunk
current_pos = 0
while True:
start_pos = chunk.find(page_start, current_pos)
if start_pos == -1:
break
end_pos = chunk.find(page_end, start_pos)
if end_pos == -1:
if len(chunk) - start_pos > max_page_size:
leftovers = ""
else:
leftovers = chunk[start_pos:]
break
raw_page = chunk[start_pos + len(page_start):end_pos]
if len(raw_page) < max_page_size:
ret = parse_page(raw_page)
if ret:
yield ret
current_pos = end_pos + len(page_end) | def file_page_generator(my_file, max_page_size=2**28):
"""Read wikipedia pages from a history dump.
Since some pages can be terabytes in size (with all the revisions),
we limit page size to max_page_size bytes.
Args:
my_file: an open file object.
max_page_size: an integer
Yields:
strings
"""
page_start = " <page>\n"
page_end = " </page>\n"
chunk_size = max_page_size
page_start = " <page>\n"
page_end = " </page>\n"
leftovers = ""
while True:
chunk = my_file.read(chunk_size)
if not chunk:
break
chunk = leftovers + chunk
current_pos = 0
while True:
start_pos = chunk.find(page_start, current_pos)
if start_pos == -1:
break
end_pos = chunk.find(page_end, start_pos)
if end_pos == -1:
if len(chunk) - start_pos > max_page_size:
leftovers = ""
else:
leftovers = chunk[start_pos:]
break
raw_page = chunk[start_pos + len(page_start):end_pos]
if len(raw_page) < max_page_size:
ret = parse_page(raw_page)
if ret:
yield ret
current_pos = end_pos + len(page_end) | [
"Read",
"wikipedia",
"pages",
"from",
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"history",
"dump",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L58-L99 | [
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... | 272500b6efe353aeb638d2745ed56e519462ca31 |
train | get_title | Extract the title from a page.
Args:
page: a string
Returns:
a string | tensor2tensor/data_generators/wiki_revision_utils.py | def get_title(page):
"""Extract the title from a page.
Args:
page: a string
Returns:
a string
"""
start_pos = page.find("<title>")
end_pos = page.find("</title>")
assert start_pos != -1
assert end_pos != -1
start_pos += len("<title>")
return text_encoder.to_unicode_utf8(page[start_pos:end_pos]) | def get_title(page):
"""Extract the title from a page.
Args:
page: a string
Returns:
a string
"""
start_pos = page.find("<title>")
end_pos = page.find("</title>")
assert start_pos != -1
assert end_pos != -1
start_pos += len("<title>")
return text_encoder.to_unicode_utf8(page[start_pos:end_pos]) | [
"Extract",
"the",
"title",
"from",
"a",
"page",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L102-L115 | [
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train | get_id | Extract the id from a page.
Args:
page: a string
Returns:
an integer | tensor2tensor/data_generators/wiki_revision_utils.py | def get_id(page):
"""Extract the id from a page.
Args:
page: a string
Returns:
an integer
"""
start_pos = page.find("<id>")
end_pos = page.find("</id>")
assert start_pos != -1
assert end_pos != -1
start_pos += len("<id>")
return int(page[start_pos:end_pos]) | def get_id(page):
"""Extract the id from a page.
Args:
page: a string
Returns:
an integer
"""
start_pos = page.find("<id>")
end_pos = page.find("</id>")
assert start_pos != -1
assert end_pos != -1
start_pos += len("<id>")
return int(page[start_pos:end_pos]) | [
"Extract",
"the",
"id",
"from",
"a",
"page",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L118-L131 | [
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... | 272500b6efe353aeb638d2745ed56e519462ca31 |
train | get_revisions | Extract the revisions of a page.
Args:
page: a string
Returns:
a list of strings | tensor2tensor/data_generators/wiki_revision_utils.py | def get_revisions(page):
"""Extract the revisions of a page.
Args:
page: a string
Returns:
a list of strings
"""
start_string = " <revision>\n"
end_string = " </revision>\n"
ret = []
current_pos = 0
while True:
start_pos = page.find(start_string, current_pos)
if start_pos == -1:
break
end_pos = page.find(end_string, start_pos)
assert end_pos != -1
ret.append(page[start_pos + len(start_string):end_pos])
current_pos = end_pos + len(end_string)
return ret | def get_revisions(page):
"""Extract the revisions of a page.
Args:
page: a string
Returns:
a list of strings
"""
start_string = " <revision>\n"
end_string = " </revision>\n"
ret = []
current_pos = 0
while True:
start_pos = page.find(start_string, current_pos)
if start_pos == -1:
break
end_pos = page.find(end_string, start_pos)
assert end_pos != -1
ret.append(page[start_pos + len(start_string):end_pos])
current_pos = end_pos + len(end_string)
return ret | [
"Extract",
"the",
"revisions",
"of",
"a",
"page",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L134-L154 | [
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train | parse_page | Create a dictionary with title, id, and list of revisions.
The dictionary contains:
"title": a string
"id": an integer
"revisions": a list of strings
Args:
raw_page: a string
Returns:
a dictionary, or None in the case of an error. | tensor2tensor/data_generators/wiki_revision_utils.py | def parse_page(raw_page):
"""Create a dictionary with title, id, and list of revisions.
The dictionary contains:
"title": a string
"id": an integer
"revisions": a list of strings
Args:
raw_page: a string
Returns:
a dictionary, or None in the case of an error.
"""
ret = {"title": get_title(raw_page), "id": get_id(raw_page)}
if ":" in ret["title"]:
return None
ret["revisions"] = get_revisions(raw_page)
return ret | def parse_page(raw_page):
"""Create a dictionary with title, id, and list of revisions.
The dictionary contains:
"title": a string
"id": an integer
"revisions": a list of strings
Args:
raw_page: a string
Returns:
a dictionary, or None in the case of an error.
"""
ret = {"title": get_title(raw_page), "id": get_id(raw_page)}
if ":" in ret["title"]:
return None
ret["revisions"] = get_revisions(raw_page)
return ret | [
"Create",
"a",
"dictionary",
"with",
"title",
"id",
"and",
"list",
"of",
"revisions",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L157-L175 | [
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"... | 272500b6efe353aeb638d2745ed56e519462ca31 |
train | maybe_copy_file_to_directory | Copy a file to a directory if it is not already there.
Returns the target filepath.
Args:
source_filepath: a string
target_directory: a string
Returns:
a string | tensor2tensor/data_generators/wiki_revision_utils.py | def maybe_copy_file_to_directory(source_filepath, target_directory):
"""Copy a file to a directory if it is not already there.
Returns the target filepath.
Args:
source_filepath: a string
target_directory: a string
Returns:
a string
"""
if not tf.gfile.Exists(target_directory):
tf.logging.info("Creating directory %s" % target_directory)
os.mkdir(target_directory)
target_filepath = os.path.join(target_directory,
os.path.basename(source_filepath))
if not tf.gfile.Exists(target_filepath):
tf.logging.info("Copying %s to %s" % (source_filepath, target_filepath))
tf.gfile.Copy(source_filepath, target_filepath)
statinfo = os.stat(target_filepath)
tf.logging.info("Successfully copied %s, %s bytes." % (target_filepath,
statinfo.st_size))
else:
tf.logging.info("Not copying, file already found: %s" % target_filepath)
return target_filepath | def maybe_copy_file_to_directory(source_filepath, target_directory):
"""Copy a file to a directory if it is not already there.
Returns the target filepath.
Args:
source_filepath: a string
target_directory: a string
Returns:
a string
"""
if not tf.gfile.Exists(target_directory):
tf.logging.info("Creating directory %s" % target_directory)
os.mkdir(target_directory)
target_filepath = os.path.join(target_directory,
os.path.basename(source_filepath))
if not tf.gfile.Exists(target_filepath):
tf.logging.info("Copying %s to %s" % (source_filepath, target_filepath))
tf.gfile.Copy(source_filepath, target_filepath)
statinfo = os.stat(target_filepath)
tf.logging.info("Successfully copied %s, %s bytes." % (target_filepath,
statinfo.st_size))
else:
tf.logging.info("Not copying, file already found: %s" % target_filepath)
return target_filepath | [
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"a",
"file",
"to",
"a",
"directory",
"if",
"it",
"is",
"not",
"already",
"there",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L178-L203 | [
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train | corpus_page_generator | Generate pages from a list of .7z encoded history dumps.
Args:
corpus_files: a list of strings
tmp_dir: a string
max_page_size_exp: an integer
Yields:
strings | tensor2tensor/data_generators/wiki_revision_utils.py | def corpus_page_generator(corpus_files, tmp_dir, max_page_size_exp):
"""Generate pages from a list of .7z encoded history dumps.
Args:
corpus_files: a list of strings
tmp_dir: a string
max_page_size_exp: an integer
Yields:
strings
"""
for remote_filepath in corpus_files:
filepath = maybe_copy_file_to_directory(remote_filepath, tmp_dir)
tf.logging.info("Reading from " + filepath)
command = ["7z", "x", "-so", filepath]
tf.logging.info("Running command: %s", command)
p = subprocess.Popen(command, stdout=subprocess.PIPE, bufsize=-1)
for page in file_page_generator(p.stdout, 2**max_page_size_exp):
yield page | def corpus_page_generator(corpus_files, tmp_dir, max_page_size_exp):
"""Generate pages from a list of .7z encoded history dumps.
Args:
corpus_files: a list of strings
tmp_dir: a string
max_page_size_exp: an integer
Yields:
strings
"""
for remote_filepath in corpus_files:
filepath = maybe_copy_file_to_directory(remote_filepath, tmp_dir)
tf.logging.info("Reading from " + filepath)
command = ["7z", "x", "-so", filepath]
tf.logging.info("Running command: %s", command)
p = subprocess.Popen(command, stdout=subprocess.PIPE, bufsize=-1)
for page in file_page_generator(p.stdout, 2**max_page_size_exp):
yield page | [
"Generate",
"pages",
"from",
"a",
"list",
"of",
".",
"7z",
"encoded",
"history",
"dumps",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L206-L228 | [
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"lo... | 272500b6efe353aeb638d2745ed56e519462ca31 |
train | get_text | Extract the text from a revision.
Args:
revision: a string
strip: a boolean
Returns:
a string | tensor2tensor/data_generators/wiki_revision_utils.py | def get_text(revision, strip=True):
"""Extract the text from a revision.
Args:
revision: a string
strip: a boolean
Returns:
a string
"""
# text start tag looks like "<text ..otherstuff>"
start_pos = revision.find("<text")
assert start_pos != -1
end_tag_pos = revision.find(">", start_pos)
assert end_tag_pos != -1
end_tag_pos += len(">")
end_pos = revision.find("</text>")
if end_pos == -1:
ret = ""
else:
ret = revision[end_tag_pos:end_pos]
if strip:
ret = strip_text(ret)
ret = text_encoder.to_unicode_utf8(ret)
return ret | def get_text(revision, strip=True):
"""Extract the text from a revision.
Args:
revision: a string
strip: a boolean
Returns:
a string
"""
# text start tag looks like "<text ..otherstuff>"
start_pos = revision.find("<text")
assert start_pos != -1
end_tag_pos = revision.find(">", start_pos)
assert end_tag_pos != -1
end_tag_pos += len(">")
end_pos = revision.find("</text>")
if end_pos == -1:
ret = ""
else:
ret = revision[end_tag_pos:end_pos]
if strip:
ret = strip_text(ret)
ret = text_encoder.to_unicode_utf8(ret)
return ret | [
"Extract",
"the",
"text",
"from",
"a",
"revision",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L231-L255 | [
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train | _remove_curly_braces | Remove everything in curly braces.
Curly braces may be nested, so we keep track of depth.
Args:
text: a string
Returns:
a string | tensor2tensor/data_generators/wiki_revision_utils.py | def _remove_curly_braces(text):
"""Remove everything in curly braces.
Curly braces may be nested, so we keep track of depth.
Args:
text: a string
Returns:
a string
"""
current_pos = 0
depth = 0
ret = ""
for match in re.finditer("[{}]", text):
if depth == 0:
ret += text[current_pos:match.start()]
depth += 1 if text[match.start()] == "{" else -1
current_pos = match.end()
if depth != 0:
# Many articles have mismatched braces, but it still seems better to remove
# them than not.
pass
else:
ret += text[current_pos:]
return ret | def _remove_curly_braces(text):
"""Remove everything in curly braces.
Curly braces may be nested, so we keep track of depth.
Args:
text: a string
Returns:
a string
"""
current_pos = 0
depth = 0
ret = ""
for match in re.finditer("[{}]", text):
if depth == 0:
ret += text[current_pos:match.start()]
depth += 1 if text[match.start()] == "{" else -1
current_pos = match.end()
if depth != 0:
# Many articles have mismatched braces, but it still seems better to remove
# them than not.
pass
else:
ret += text[current_pos:]
return ret | [
"Remove",
"everything",
"in",
"curly",
"braces",
"."
] | tensorflow/tensor2tensor | python | https://github.com/tensorflow/tensor2tensor/blob/272500b6efe353aeb638d2745ed56e519462ca31/tensor2tensor/data_generators/wiki_revision_utils.py#L316-L340 | [
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"... | 272500b6efe353aeb638d2745ed56e519462ca31 |
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