Add files using upload-large-folder tool

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	# Copyright Amazon.com, Inc. or its affiliates. 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. A copy of
	# the License is located at
	#
	# http://aws.amazon.com/apache2.0/
	#
	# or in the "license" file accompanying this file. This file is
	# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF
	# ANY KIND, either express or implied. See the License for the specific
	# language governing permissions and limitations under the License.
	from __future__ import print_function

	import argparse
	import logging
	import os

	import chainer
	from chainer import serializers, training
	from chainer.datasets import tuple_dataset
	import chainer.functions as F
	import chainer.links as L
	from chainer.training import extensions
	import chainermn
	import numpy as np
	import sagemaker_containers

	logger = logging.getLogger(__name__)
	logger.setLevel(logging.INFO)


	class MLP(chainer.Chain):
	def __init__(self, n_units, n_out):
	super(MLP, self).__init__()
	with self.init_scope():
	# the size of the inputs to each layer will be inferred
	self.l1 = L.Linear(None, n_units) # n_in -> n_units
	self.l2 = L.Linear(None, n_units) # n_units -> n_units
	self.l3 = L.Linear(None, n_out) # n_units -> n_out

	def __call__(self, x):
	h1 = F.relu(self.l1(x))
	h2 = F.relu(self.l2(h1))
	return self.l3(h2)


	def _preprocess_mnist(raw, withlabel, ndim, scale, image_dtype, label_dtype, rgb_format):
	images = raw["x"][-100:]
	if ndim == 2:
	images = images.reshape(-1, 28, 28)
	elif ndim == 3:
	images = images.reshape(-1, 1, 28, 28)
	if rgb_format:
	images = np.broadcast_to(images, (len(images), 3) + images.shape[2:])
	elif ndim != 1:
	raise ValueError("invalid ndim for MNIST dataset")
	images = images.astype(image_dtype)
	images *= scale / 255.0

	if withlabel:
	labels = raw["y"][-100:].astype(label_dtype)
	return tuple_dataset.TupleDataset(images, labels)
	return images


	if __name__ == "__main__":
	env = sagemaker_containers.training_env()

	parser = argparse.ArgumentParser()

	# Data and model checkpoints directories
	parser.add_argument("--epochs", type=int, default=1)
	parser.add_argument("--batch-size", type=int, default=64)
	parser.add_argument("--communicator", type=str, default="pure_nccl")
	parser.add_argument("--frequency", type=int, default=20)
	parser.add_argument("--units", type=int, default=1000)

	parser.add_argument("--model-dir", type=str)
	parser.add_argument("--output-data-dir", type=str, default=env.output_data_dir)
	parser.add_argument("--host", type=str, default=env.current_host)
	parser.add_argument("--num-gpus", type=int, default=env.num_gpus)

	parser.add_argument("--train", type=str, default=env.channel_input_dirs["train"])
	parser.add_argument("--test", type=str, default=env.channel_input_dirs["test"])

	args = parser.parse_args()

	train_file = np.load(os.path.join(args.train, "train.npz"))
	test_file = np.load(os.path.join(args.test, "test.npz"))

	logger.info("Current host: {}".format(args.host))

	communicator = "naive" if args.num_gpus == 0 else args.communicator

	comm = chainermn.create_communicator(communicator)
	device = comm.intra_rank if args.num_gpus > 0 else -1

	print("==========================================")
	print("Using {} communicator".format(comm))
	print("Num unit: {}".format(args.units))
	print("Num Minibatch-size: {}".format(args.batch_size))
	print("Num epoch: {}".format(args.epochs))
	print("==========================================")

	model = L.Classifier(MLP(args.units, 10))
	if device >= 0:
	chainer.cuda.get_device(device).use()

	# Create a multi node optimizer from a standard Chainer optimizer.
	optimizer = chainermn.create_multi_node_optimizer(chainer.optimizers.Adam(), comm)
	optimizer.setup(model)

	preprocess_mnist_options = {
	"withlabel": True,
	"ndim": 1,
	"scale": 1.0,
	"image_dtype": np.float32,
	"label_dtype": np.int32,
	"rgb_format": False,
	}

	train_dataset = _preprocess_mnist(train_file, **preprocess_mnist_options)
	test_dataset = _preprocess_mnist(test_file, **preprocess_mnist_options)

	train_iter = chainer.iterators.SerialIterator(train_dataset, args.batch_size)
	test_iter = chainer.iterators.SerialIterator(
	test_dataset, args.batch_size, repeat=False, shuffle=False
	)

	updater = training.StandardUpdater(train_iter, optimizer, device=device)
	trainer = training.Trainer(updater, (args.epochs, "epoch"), out=args.output_data_dir)

	# Create a multi node evaluator from a standard Chainer evaluator.
	evaluator = extensions.Evaluator(test_iter, model, device=device)
	evaluator = chainermn.create_multi_node_evaluator(evaluator, comm)
	trainer.extend(evaluator)

	# Some display and output extensions are necessary only for one worker.
	# (Otherwise, there would just be repeated outputs.)
	if comm.rank == 0:
	if extensions.PlotReport.available():
	trainer.extend(
	extensions.PlotReport(
	["main/loss", "validation/main/loss"], "epoch", file_name="loss.png"
	)
	)
	trainer.extend(
	extensions.PlotReport(
	["main/accuracy", "validation/main/accuracy"], "epoch", file_name="accuracy.png"
	)
	)
	trainer.extend(extensions.snapshot(), trigger=(args.frequency, "epoch"))
	trainer.extend(extensions.dump_graph("main/loss"))
	trainer.extend(extensions.LogReport())
	trainer.extend(
	extensions.PrintReport(
	[
	"epoch",
	"main/loss",
	"validation/main/loss",
	"main/accuracy",
	"validation/main/accuracy",
	"elapsed_time",
	]
	)
	)
	trainer.extend(extensions.ProgressBar())

	trainer.run()

	# only save the model in the master node
	if args.host == env.hosts[0]:
	serializers.save_npz(os.path.join(env.model_dir, "model.npz"), model)


	def model_fn(model_dir):
	model = L.Classifier(MLP(1000, 10))
	serializers.load_npz(os.path.join(model_dir, "model.npz"), model)
	return model.predictor