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mnist.py
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mnist.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.
"""Convolutional Neural Network Estimator for MNIST, built with tf.layers."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import argparse
import sys
import tensorflow as tf # pylint: disable=g-bad-import-order
from official.mnist import dataset
from official.utils.arg_parsers import parsers
from official.utils.logs import hooks_helper
from official.utils.misc import model_helpers
LEARNING_RATE = 1e-4
def create_model(data_format):
"""Model to recognize digits in the MNIST dataset.
Network structure is equivalent to:
https://github.com/tensorflow/tensorflow/blob/r1.5/tensorflow/examples/tutorials/mnist/mnist_deep.py
and
https://github.com/tensorflow/models/blob/master/tutorials/image/mnist/convolutional.py
But uses the tf.keras API.
Args:
data_format: Either 'channels_first' or 'channels_last'. 'channels_first' is
typically faster on GPUs while 'channels_last' is typically faster on
CPUs. See
https://www.tensorflow.org/performance/performance_guide#data_formats
Returns:
A tf.keras.Model.
"""
if data_format == 'channels_first':
input_shape = [1, 28, 28]
else:
assert data_format == 'channels_last'
input_shape = [28, 28, 1]
l = tf.keras.layers
max_pool = l.MaxPooling2D(
(2, 2), (2, 2), padding='same', data_format=data_format)
# The model consists of a sequential chain of layers, so tf.keras.Sequential
# (a subclass of tf.keras.Model) makes for a compact description.
return tf.keras.Sequential(
[
l.Reshape(input_shape),
l.Conv2D(
32,
5,
padding='same',
data_format=data_format,
activation=tf.nn.relu),
max_pool,
l.Conv2D(
64,
5,
padding='same',
data_format=data_format,
activation=tf.nn.relu),
max_pool,
l.Flatten(),
l.Dense(1024, activation=tf.nn.relu),
l.Dropout(0.4),
l.Dense(10)
])
def model_fn(features, labels, mode, params):
"""The model_fn argument for creating an Estimator."""
model = create_model(params['data_format'])
image = features
if isinstance(image, dict):
image = features['image']
if mode == tf.estimator.ModeKeys.PREDICT:
logits = model(image, training=False)
predictions = {
'classes': tf.argmax(logits, axis=1),
'probabilities': tf.nn.softmax(logits),
}
return tf.estimator.EstimatorSpec(
mode=tf.estimator.ModeKeys.PREDICT,
predictions=predictions,
export_outputs={
'classify': tf.estimator.export.PredictOutput(predictions)
})
if mode == tf.estimator.ModeKeys.TRAIN:
optimizer = tf.train.AdamOptimizer(learning_rate=LEARNING_RATE)
# If we are running multi-GPU, we need to wrap the optimizer.
if params.get('multi_gpu'):
optimizer = tf.contrib.estimator.TowerOptimizer(optimizer)
logits = model(image, training=True)
loss = tf.losses.sparse_softmax_cross_entropy(labels=labels, logits=logits)
accuracy = tf.metrics.accuracy(
labels=labels, predictions=tf.argmax(logits, axis=1))
# Name tensors to be logged with LoggingTensorHook.
tf.identity(LEARNING_RATE, 'learning_rate')
tf.identity(loss, 'cross_entropy')
tf.identity(accuracy[1], name='train_accuracy')
# Save accuracy scalar to Tensorboard output.
tf.summary.scalar('train_accuracy', accuracy[1])
return tf.estimator.EstimatorSpec(
mode=tf.estimator.ModeKeys.TRAIN,
loss=loss,
train_op=optimizer.minimize(loss, tf.train.get_or_create_global_step()))
if mode == tf.estimator.ModeKeys.EVAL:
logits = model(image, training=False)
loss = tf.losses.sparse_softmax_cross_entropy(labels=labels, logits=logits)
return tf.estimator.EstimatorSpec(
mode=tf.estimator.ModeKeys.EVAL,
loss=loss,
eval_metric_ops={
'accuracy':
tf.metrics.accuracy(
labels=labels, predictions=tf.argmax(logits, axis=1)),
})
def validate_batch_size_for_multi_gpu(batch_size):
"""For multi-gpu, batch-size must be a multiple of the number of GPUs.
Note that this should eventually be handled by replicate_model_fn
directly. Multi-GPU support is currently experimental, however,
so doing the work here until that feature is in place.
Args:
batch_size: the number of examples processed in each training batch.
Raises:
ValueError: if no GPUs are found, or selected batch_size is invalid.
"""
from tensorflow.python.client import device_lib # pylint: disable=g-import-not-at-top
local_device_protos = device_lib.list_local_devices()
num_gpus = sum([1 for d in local_device_protos if d.device_type == 'GPU'])
if not num_gpus:
raise ValueError('Multi-GPU mode was specified, but no GPUs '
'were found. To use CPU, run without --multi_gpu.')
remainder = batch_size % num_gpus
if remainder:
err = ('When running with multiple GPUs, batch size '
'must be a multiple of the number of available GPUs. '
'Found {} GPUs with a batch size of {}; try --batch_size={} instead.'
).format(num_gpus, batch_size, batch_size - remainder)
raise ValueError(err)
def main(argv):
parser = MNISTArgParser()
flags = parser.parse_args(args=argv[1:])
model_function = model_fn
if flags.multi_gpu:
validate_batch_size_for_multi_gpu(flags.batch_size)
# There are two steps required if using multi-GPU: (1) wrap the model_fn,
# and (2) wrap the optimizer. The first happens here, and (2) happens
# in the model_fn itself when the optimizer is defined.
model_function = tf.contrib.estimator.replicate_model_fn(
model_fn, loss_reduction=tf.losses.Reduction.MEAN)
data_format = flags.data_format
if data_format is None:
data_format = ('channels_first'
if tf.test.is_built_with_cuda() else 'channels_last')
mnist_classifier = tf.estimator.Estimator(
model_fn=model_function,
model_dir=flags.model_dir,
params={
'data_format': data_format,
'multi_gpu': flags.multi_gpu
})
# Set up training and evaluation input functions.
def train_input_fn():
"""Prepare data for training."""
# When choosing shuffle buffer sizes, larger sizes result in better
# randomness, while smaller sizes use less memory. MNIST is a small
# enough dataset that we can easily shuffle the full epoch.
ds = dataset.train(flags.data_dir)
ds = ds.cache().shuffle(buffer_size=50000).batch(flags.batch_size)
# Iterate through the dataset a set number (`epochs_between_evals`) of times
# during each training session.
ds = ds.repeat(flags.epochs_between_evals)
return ds
def eval_input_fn():
return dataset.test(flags.data_dir).batch(
flags.batch_size).make_one_shot_iterator().get_next()
# Set up hook that outputs training logs every 100 steps.
train_hooks = hooks_helper.get_train_hooks(
flags.hooks, batch_size=flags.batch_size)
# Train and evaluate model.
for _ in range(flags.train_epochs // flags.epochs_between_evals):
mnist_classifier.train(input_fn=train_input_fn, hooks=train_hooks)
eval_results = mnist_classifier.evaluate(input_fn=eval_input_fn)
print('\nEvaluation results:\n\t%s\n' % eval_results)
if model_helpers.past_stop_threshold(flags.stop_threshold,
eval_results['accuracy']):
break
# Export the model
if flags.export_dir is not None:
image = tf.placeholder(tf.float32, [None, 28, 28])
input_fn = tf.estimator.export.build_raw_serving_input_receiver_fn({
'image': image,
})
mnist_classifier.export_savedmodel(flags.export_dir, input_fn)
class MNISTArgParser(argparse.ArgumentParser):
"""Argument parser for running MNIST model."""
def __init__(self):
super(MNISTArgParser, self).__init__(parents=[
parsers.BaseParser(multi_gpu=True, num_gpu=False),
parsers.ImageModelParser(),
parsers.ExportParser(),
])
self.set_defaults(
data_dir='/tmp/mnist_data',
model_dir='/tmp/mnist_model',
batch_size=100,
train_epochs=40)
if __name__ == '__main__':
tf.logging.set_verbosity(tf.logging.INFO)
main(argv=sys.argv)