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train_imagenet.py
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train_imagenet.py
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# Copyright 2017 The TensorFlow Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# ==============================================================================
r"""Training executable for detection models.
This executable is used to train DetectionModels. There are two ways of
configuring the training job:
1) A single pipeline_pb2.TrainEvalPipelineConfig configuration file
can be specified by --pipeline_config_path.
Example usage:
./train \
--logtostderr \
--train_dir=path/to/train_dir \
--pipeline_config_path=pipeline_config.pbtxt
2) Three configuration files can be provided: a model_pb2.DetectionModel
configuration file to define what type of DetectionModel is being trained, an
input_reader_pb2.InputReader file to specify what training data will be used and
a train_pb2.TrainConfig file to configure training parameters.
Example usage:
./train \
--logtostderr \
--train_dir=path/to/train_dir \
--model_config_path=model_config.pbtxt \
--train_config_path=train_config.pbtxt \
--input_config_path=train_input_config.pbtxt
"""
import functools
import json
import os
import tensorflow as tf
from google.protobuf import text_format
from object_detection import trainer
from object_detection.builders import input_reader_builder
from object_detection.builders import model_builder
from object_detection.protos import input_reader_pb2
from object_detection.protos import model_pb2
from object_detection.protos import pipeline_pb2
from object_detection.protos import train_pb2
tf.logging.set_verbosity(tf.logging.INFO)
flags = tf.app.flags
flags.DEFINE_string('master', '', 'BNS name of the TensorFlow master to use.')
flags.DEFINE_integer('task', 0, 'task id')
flags.DEFINE_integer('num_clones', 1, 'Number of clones to deploy per worker.')
flags.DEFINE_boolean('clone_on_cpu', False,
'Force clones to be deployed on CPU. Note that even if '
'set to False (allowing ops to run on gpu), some ops may '
'still be run on the CPU if they have no GPU kernel.')
flags.DEFINE_integer('worker_replicas', 1, 'Number of worker+trainer '
'replicas.')
flags.DEFINE_integer('ps_tasks', 0,
'Number of parameter server tasks. If None, does not use '
'a parameter server.')
flags.DEFINE_string('train_dir', './model/ssd_mobilenet_mom_imagenet',
'Directory to save the checkpoints and training summaries.')
flags.DEFINE_string('pipeline_config_path', './model/ssd_mobilenet_imagenet.config',
'Path to a pipeline_pb2.TrainEvalPipelineConfig config '
'file. If provided, other configs are ignored')
flags.DEFINE_string('train_config_path', '',
'Path to a train_pb2.TrainConfig config file.')
flags.DEFINE_string('input_config_path', '',
'Path to an input_reader_pb2.InputReader config file.')
flags.DEFINE_string('model_config_path', '',
'Path to a model_pb2.DetectionModel config file.')
FLAGS = flags.FLAGS
def get_configs_from_pipeline_file():
"""Reads training configuration from a pipeline_pb2.TrainEvalPipelineConfig.
Reads training config from file specified by pipeline_config_path flag.
Returns:
model_config: model_pb2.DetectionModel
train_config: train_pb2.TrainConfig
input_config: input_reader_pb2.InputReader
"""
pipeline_config = pipeline_pb2.TrainEvalPipelineConfig()
with tf.gfile.GFile(FLAGS.pipeline_config_path, 'r') as f:
text_format.Merge(f.read(), pipeline_config)
model_config = pipeline_config.model
train_config = pipeline_config.train_config
input_config = pipeline_config.train_input_reader
return model_config, train_config, input_config
def get_configs_from_multiple_files():
"""Reads training configuration from multiple config files.
Reads the training config from the following files:
model_config: Read from --model_config_path
train_config: Read from --train_config_path
input_config: Read from --input_config_path
Returns:
model_config: model_pb2.DetectionModel
train_config: train_pb2.TrainConfig
input_config: input_reader_pb2.InputReader
"""
train_config = train_pb2.TrainConfig()
with tf.gfile.GFile(FLAGS.train_config_path, 'r') as f:
text_format.Merge(f.read(), train_config)
model_config = model_pb2.DetectionModel()
with tf.gfile.GFile(FLAGS.model_config_path, 'r') as f:
text_format.Merge(f.read(), model_config)
input_config = input_reader_pb2.InputReader()
with tf.gfile.GFile(FLAGS.input_config_path, 'r') as f:
text_format.Merge(f.read(), input_config)
return model_config, train_config, input_config
def main(_):
assert FLAGS.train_dir, '`train_dir` is missing.'
if FLAGS.pipeline_config_path:
model_config, train_config, input_config = get_configs_from_pipeline_file()
else:
model_config, train_config, input_config = get_configs_from_multiple_files()
model_fn = functools.partial(
model_builder.build,
model_config=model_config,
is_training=True)
create_input_dict_fn = functools.partial(
input_reader_builder.build, input_config)
env = json.loads(os.environ.get('TF_CONFIG', '{}'))
cluster_data = env.get('cluster', None)
cluster = tf.train.ClusterSpec(cluster_data) if cluster_data else None
task_data = env.get('task', None) or {'type': 'master', 'index': 0}
task_info = type('TaskSpec', (object,), task_data)
# Parameters for a single worker.
ps_tasks = 0
worker_replicas = 1
worker_job_name = 'lonely_worker'
task = 0
is_chief = True
master = ''
if cluster_data and 'worker' in cluster_data:
# Number of total worker replicas include "worker"s and the "master".
worker_replicas = len(cluster_data['worker']) + 1
if cluster_data and 'ps' in cluster_data:
ps_tasks = len(cluster_data['ps'])
if worker_replicas > 1 and ps_tasks < 1:
raise ValueError('At least 1 ps task is needed for distributed training.')
if worker_replicas >= 1 and ps_tasks > 0:
# Set up distributed training.
server = tf.train.Server(tf.train.ClusterSpec(cluster), protocol='grpc',
job_name=task_info.type,
task_index=task_info.index)
if task_info.type == 'ps':
server.join()
return
worker_job_name = '%s/task:%d' % (task_info.type, task_info.index)
task = task_info.index
is_chief = (task_info.type == 'master')
master = server.target
trainer.train(create_input_dict_fn, model_fn, train_config, master, task,
FLAGS.num_clones, worker_replicas, FLAGS.clone_on_cpu, ps_tasks,
worker_job_name, is_chief, FLAGS.train_dir)
if __name__ == '__main__':
tf.app.run()