mnist.py 7.7 KB
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#   Copyright (c) 2018 PaddlePaddle 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.

from __future__ import absolute_import
from __future__ import division
from __future__ import print_function

import numpy as np
import argparse
import time

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import paddle
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import paddle.fluid as fluid
import paddle.fluid.profiler as profiler

SEED = 1
DTYPE = "float32"

# random seed must set before configuring the network.
# fluid.default_startup_program().random_seed = SEED


def parse_args():
    parser = argparse.ArgumentParser("mnist model benchmark.")
    parser.add_argument(
        '--batch_size', type=int, default=128, help='The minibatch size.')
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    parser.add_argument(
        '--skip_batch_num',
        type=int,
        default=5,
        help='The first num of minibatch num to skip, for better performance test'
    )
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    parser.add_argument(
        '--iterations', type=int, default=35, help='The number of minibatches.')
    parser.add_argument(
        '--pass_num', type=int, default=5, help='The number of passes.')
    parser.add_argument(
        '--device',
        type=str,
        default='GPU',
        choices=['CPU', 'GPU'],
        help='The device type.')
    parser.add_argument(
        '--infer_only', action='store_true', help='If set, run forward only.')
    parser.add_argument(
        '--use_cprof', action='store_true', help='If set, use cProfile.')
    parser.add_argument(
        '--use_nvprof',
        action='store_true',
        help='If set, use nvprof for CUDA.')
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    parser.add_argument(
        '--with_test',
        action='store_true',
        help='If set, test the testset during training.')
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    args = parser.parse_args()
    return args


def cnn_model(data):
    conv_pool_1 = fluid.nets.simple_img_conv_pool(
        input=data,
        filter_size=5,
        num_filters=20,
        pool_size=2,
        pool_stride=2,
        act="relu")
    conv_pool_2 = fluid.nets.simple_img_conv_pool(
        input=conv_pool_1,
        filter_size=5,
        num_filters=50,
        pool_size=2,
        pool_stride=2,
        act="relu")

    # TODO(dzhwinter) : refine the initializer and random seed settting
    SIZE = 10
    input_shape = conv_pool_2.shape
    param_shape = [reduce(lambda a, b: a * b, input_shape[1:], 1)] + [SIZE]
    scale = (2.0 / (param_shape[0]**2 * SIZE))**0.5

    predict = fluid.layers.fc(
        input=conv_pool_2,
        size=SIZE,
        act="softmax",
        param_attr=fluid.param_attr.ParamAttr(
            initializer=fluid.initializer.NormalInitializer(
                loc=0.0, scale=scale)))
    return predict


def eval_test(exe, batch_acc, batch_size_tensor, inference_program):
    test_reader = paddle.batch(
        paddle.dataset.mnist.test(), batch_size=args.batch_size)
    test_pass_acc = fluid.average.WeightedAverage()
    for batch_id, data in enumerate(test_reader()):
        img_data = np.array(map(lambda x: x[0].reshape([1, 28, 28]),
                                data)).astype(DTYPE)
        y_data = np.array(map(lambda x: x[1], data)).astype("int64")
        y_data = y_data.reshape([len(y_data), 1])

        acc, weight = exe.run(inference_program,
                              feed={"pixel": img_data,
                                    "label": y_data},
                              fetch_list=[batch_acc, batch_size_tensor])
        test_pass_acc.add(value=acc, weight=weight)
        pass_acc = test_pass_acc.eval()
    return pass_acc


def run_benchmark(model, args):
    if args.use_cprof:
        pr = cProfile.Profile()
        pr.enable()
    start_time = time.time()
    # Input data
    images = fluid.layers.data(name='pixel', shape=[1, 28, 28], dtype=DTYPE)
    label = fluid.layers.data(name='label', shape=[1], dtype='int64')

    # Train program
    predict = model(images)
    cost = fluid.layers.cross_entropy(input=predict, label=label)
    avg_cost = fluid.layers.mean(x=cost)

    # Evaluator
    batch_size_tensor = fluid.layers.create_tensor(dtype='int64')
    batch_acc = fluid.layers.accuracy(
        input=predict, label=label, total=batch_size_tensor)

    # inference program
    inference_program = fluid.default_main_program().clone()

    # Optimization
    opt = fluid.optimizer.AdamOptimizer(
        learning_rate=0.001, beta1=0.9, beta2=0.999)
    opt.minimize(avg_cost)

    fluid.memory_optimize(fluid.default_main_program())

    # Initialize executor
    place = fluid.CPUPlace() if args.device == 'CPU' else fluid.CUDAPlace(0)
    exe = fluid.Executor(place)

    # Parameter initialization
    exe.run(fluid.default_startup_program())

    # Reader
    train_reader = paddle.batch(
        paddle.dataset.mnist.train(), batch_size=args.batch_size)

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    accuracy = fluid.metrics.Accuracy()
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    iters, num_samples, start_time = 0, 0, time.time()
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    for pass_id in range(args.pass_num):
        accuracy.reset()
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        train_accs = []
        train_losses = []
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        for batch_id, data in enumerate(train_reader()):
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            if iters == args.skip_batch_num:
                start_time = time.time()
                num_samples = 0
            if iters == args.iterations:
                break
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            img_data = np.array(
                map(lambda x: x[0].reshape([1, 28, 28]), data)).astype(DTYPE)
            y_data = np.array(map(lambda x: x[1], data)).astype("int64")
            y_data = y_data.reshape([len(y_data), 1])

            outs = exe.run(
                fluid.default_main_program(),
                feed={"pixel": img_data,
                      "label": y_data},
                fetch_list=[avg_cost, batch_acc, batch_size_tensor]
            )  # The accuracy is the accumulation of batches, but not the current batch.
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            accuracy.update(value=outs[1], weight=outs[2])
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            iters += 1
            num_samples += len(y_data)
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            loss = np.array(outs[0])
            acc = np.array(outs[1])
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            train_losses.append(loss)
            train_accs.append(acc)
            print("Pass: %d, Iter: %d, Loss: %f, Accuracy: %f" %
                  (pass_id, iters, loss, acc))

        print("Pass: %d, Loss: %f, Train Accuray: %f\n" %
              (pass_id, np.mean(train_losses), np.mean(train_accs)))
        train_elapsed = time.time() - start_time
        examples_per_sec = num_samples / train_elapsed
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        print('\nTotal examples: %d, total time: %.5f, %.5f examples/sed\n' %
              (num_samples, train_elapsed, examples_per_sec))
        # evaluation
        if args.with_test:
            test_avg_acc = eval_test(exe, batch_acc, batch_size_tensor,
                                     inference_program)
        exit(0)
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def print_arguments(args):
    vars(args)['use_nvprof'] = (vars(args)['use_nvprof'] and
                                vars(args)['device'] == 'GPU')
    print('----------- mnist Configuration Arguments -----------')
    for arg, value in sorted(vars(args).iteritems()):
        print('%s: %s' % (arg, value))
    print('------------------------------------------------')
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if __name__ == '__main__':
    args = parse_args()
    print_arguments(args)
    if args.use_nvprof and args.device == 'GPU':
        with profiler.cuda_profiler("cuda_profiler.txt", 'csv') as nvprof:
            run_benchmark(cnn_model, args)
    else:
        run_benchmark(cnn_model, args)