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mindspore/example/resnet50_imagenet2012_THOR/train.py

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  1. # Copyright 2020 Huawei Technologies Co., Ltd

  2. #

  3. # Licensed under the Apache License, Version 2.0 (the "License");

  4. # you may not use this file except in compliance with the License.

  5. # You may obtain a copy of the License at

  6. #

  7. # http://www.apache.org/licenses/LICENSE-2.0

  8. #

  9. # Unless required by applicable law or agreed to in writing, software

  10. # distributed under the License is distributed on an "AS IS" BASIS,

  11. # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  12. # See the License for the specific language governing permissions and

  13. # limitations under the License.

  14. # ============================================================================

  15. """train_imagenet."""

  16. import argparse

  17. import os

  18. import random

  19. 

  20. from mindspore import Tensor

  21. from mindspore import context

  22. from mindspore.communication.management import init

  23. from mindspore.parallel._auto_parallel_context import auto_parallel_context

  24. from mindspore.train.callback import ModelCheckpoint, CheckpointConfig, LossMonitor, TimeMonitor

  25. from mindspore.train.loss_scale_manager import FixedLossScaleManager

  26. from mindspore.train.model import ParallelMode

  27. from model.model_thor import Model

  28. from model.resnet import resnet50

  29. from model.thor import THOR

  30. 

  31. import numpy as np

  32. from config import config

  33. from crossentropy import CrossEntropy

  34. from dataset_imagenet import create_dataset

  35. 

  36. random.seed(1)

  37. np.random.seed(1)

  38. 

  39. parser = argparse.ArgumentParser(description='Image classification')

  40. parser.add_argument('--run_distribute', type=bool, default=False, help='Run distribute')

  41. parser.add_argument('--device_num', type=int, default=1, help='Device num.')

  42. parser.add_argument('--do_train', type=bool, default=True, help='Do train or not.')

  43. parser.add_argument('--do_eval', type=bool, default=False, help='Do eval or not.')

  44. parser.add_argument('--dataset_path', type=str, default=None, help='Dataset path')

  45. 

  46. args_opt = parser.parse_args()

  47. device_id = int(os.getenv('DEVICE_ID'))

  48. 

  49. context.set_context(mode=context.GRAPH_MODE, device_target="Ascend", save_graphs=True, device_id=device_id)

  50. 

  51. 

  52. def get_model_lr(global_step, lr_init, decay, total_epochs, steps_per_epoch):

  53.     """get_model_lr"""

  54.     lr_each_step = []

  55.     total_steps = steps_per_epoch * total_epochs

  56.     for i in range(total_steps):

  57.         epoch = (i + 1) / steps_per_epoch

  58.         base = (1.0 - float(epoch) / total_epochs) ** decay

  59.         lr_local = lr_init * base

  60.         if epoch >= 39:

  61.             lr_local = lr_local * 0.5

  62.         if epoch >= 40:

  63.             lr_local = lr_local * 0.5

  64.         lr_each_step.append(lr_local)

  65.     current_step = global_step

  66.     lr_each_step = np.array(lr_each_step).astype(np.float32)

  67.     learning_rate = lr_each_step[current_step:]

  68.     return learning_rate

  69. 

  70. 

  71. def get_model_damping(global_step, damping_init, decay_rate, total_epochs, steps_per_epoch):

  72.     """get_model_damping"""

  73.     damping_each_step = []

  74.     total_steps = steps_per_epoch * total_epochs

  75.     for step in range(total_steps):

  76.         epoch = (step + 1) / steps_per_epoch

  77.         damping_here = damping_init * (decay_rate ** (epoch / 10))

  78.         damping_each_step.append(damping_here)

  79. 

  80.     current_step = global_step

  81.     damping_each_step = np.array(damping_each_step).astype(np.float32)

  82.     damping_now = damping_each_step[current_step:]

  83.     return damping_now

  84. 

  85. 

  86. if __name__ == '__main__':

  87.     if not args_opt.do_eval and args_opt.run_distribute:

  88.         context.set_auto_parallel_context(device_num=args_opt.device_num, parallel_mode=ParallelMode.DATA_PARALLEL,

  89.                                           mirror_mean=True, parameter_broadcast=True)

  90.         auto_parallel_context().set_all_reduce_fusion_split_indices([107], "hccl_world_groupsum1")

  91.         auto_parallel_context().set_all_reduce_fusion_split_indices([27], "hccl_world_groupsum2")

  92.         auto_parallel_context().set_all_reduce_fusion_split_indices([27], "hccl_world_groupsum3")

  93.         auto_parallel_context().set_all_reduce_fusion_split_indices([27], "hccl_world_groupsum4")

  94.         auto_parallel_context().set_all_reduce_fusion_split_indices([27], "hccl_world_groupsum5")

  95. 

  96.         init()

  97. 

  98.     epoch_size = config.epoch_size

  99.     damping = get_model_damping(0, 0.03, 0.87, 50, 5004)

  100.     net = resnet50(class_num=config.class_num, damping=damping, loss_scale=config.loss_scale,

  101.                    frequency=config.frequency)

  102. 

  103.     if not config.label_smooth:

  104.         config.label_smooth_factor = 0.0

  105.     loss = CrossEntropy(smooth_factor=config.label_smooth_factor, num_classes=config.class_num)

  106.     if args_opt.do_train:

  107.         dataset = create_dataset(dataset_path=args_opt.dataset_path, do_train=True,

  108.                                  repeat_num=epoch_size, batch_size=config.batch_size)

  109.         step_size = dataset.get_dataset_size()

  110. 

  111.         loss_scale = FixedLossScaleManager(config.loss_scale, drop_overflow_update=False)

  112.         lr = Tensor(get_model_lr(0, 0.05, 6, 70, 5004))

  113.         opt = THOR(filter(lambda x: x.requires_grad, net.get_parameters()), lr, config.momentum,

  114.                    filter(lambda x: 'matrix_A' in x.name, net.get_parameters()),

  115.                    filter(lambda x: 'matrix_G' in x.name, net.get_parameters()),

  116.                    filter(lambda x: 'A_inv_max' in x.name, net.get_parameters()),

  117.                    filter(lambda x: 'G_inv_max' in x.name, net.get_parameters()),

  118.                    config.weight_decay, config.loss_scale)

  119. 

  120.         model = Model(net, loss_fn=loss, optimizer=opt, amp_level='O2', loss_scale_manager=loss_scale,

  121.                       keep_batchnorm_fp32=False, metrics={'acc'}, frequency=config.frequency)

  122. 

  123.         time_cb = TimeMonitor(data_size=step_size)

  124.         loss_cb = LossMonitor()

  125.         cb = [time_cb, loss_cb]

  126.         if config.save_checkpoint:

  127.             config_ck = CheckpointConfig(save_checkpoint_steps=config.save_checkpoint_steps,

  128.                                          keep_checkpoint_max=config.keep_checkpoint_max)

  129.             ckpt_cb = ModelCheckpoint(prefix="resnet", directory=config.save_checkpoint_path, config=config_ck)

  130.             cb += [ckpt_cb]

  131. 

  132.         model.train(epoch_size, dataset, callbacks=cb)

MindSpore is a new open source deep learning training/inference framework that could be used for mobile, edge and cloud scenarios.