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mindspore/example/mobilenetv2_imagenet2012/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 os

  17. import time

  18. import argparse

  19. import random

  20. import numpy as np

  21. from dataset import create_dataset

  22. from lr_generator import get_lr

  23. from config import config

  24. from mindspore import context

  25. from mindspore import Tensor

  26. from mindspore.model_zoo.mobilenet import mobilenet_v2

  27. from mindspore.parallel._auto_parallel_context import auto_parallel_context

  28. from mindspore.nn.optim.momentum import Momentum

  29. from mindspore.nn.loss import SoftmaxCrossEntropyWithLogits

  30. 

  31. from mindspore.train.model import Model, ParallelMode

  32. 

  33. from mindspore.train.callback import ModelCheckpoint, CheckpointConfig, Callback

  34. from mindspore.train.loss_scale_manager import FixedLossScaleManager

  35. import mindspore.dataset.engine as de

  36. from mindspore.communication.management import init

  37. 

  38. random.seed(1)

  39. np.random.seed(1)

  40. de.config.set_seed(1)

  41. 

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

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

  44. args_opt = parser.parse_args()

  45. 

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

  47. rank_id = int(os.getenv('RANK_ID'))

  48. rank_size = int(os.getenv('RANK_SIZE'))

  49. run_distribute = rank_size > 1

  50. 

  51. context.set_context(mode=context.GRAPH_MODE, device_target="Ascend", device_id=device_id, save_graphs=False)

  52. context.set_context(enable_task_sink=True)

  53. context.set_context(enable_loop_sink=True)

  54. context.set_context(enable_mem_reuse=True)

  55. 

  56. 

  57. class Monitor(Callback):

  58.     """

  59.     Monitor loss and time.

  60. 

  61.     Args:

  62.         lr_init (numpy array): train lr

  63. 

  64.     Returns:

  65.         None.

  66. 

  67.     Examples:

  68.         >>> Monitor(100,lr_init=Tensor([0.05]*100).asnumpy())

  69.     """

  70. 

  71.     def __init__(self, lr_init=None):

  72.         super(Monitor, self).__init__()

  73.         self.lr_init = lr_init

  74.         self.lr_init_len = len(lr_init)

  75. 

  76.     def epoch_begin(self, run_context):

  77.         self.losses = []

  78.         self.epoch_time = time.time()

  79. 

  80.     def epoch_end(self, run_context):

  81.         cb_params = run_context.original_args()

  82. 

  83.         epoch_mseconds = (time.time() - self.epoch_time) * 1000

  84.         per_step_mseconds = epoch_mseconds / cb_params.batch_num

  85.         print("epoch time: {:5.3f}, per step time: {:5.3f}, avg loss: {:5.3f}".format(epoch_mseconds,

  86.                                                                                       per_step_mseconds,

  87.                                                                                       np.mean(self.losses)

  88.                                                                                       ), flush=True)

  89. 

  90.     def step_begin(self, run_context):

  91.         self.step_time = time.time()

  92. 

  93.     def step_end(self, run_context):

  94.         cb_params = run_context.original_args()

  95.         step_mseconds = (time.time() - self.step_time) * 1000

  96.         step_loss = cb_params.net_outputs

  97. 

  98.         if isinstance(step_loss, (tuple, list)) and isinstance(step_loss[0], Tensor):

  99.             step_loss = step_loss[0]

  100.         if isinstance(step_loss, Tensor):

  101.             step_loss = np.mean(step_loss.asnumpy())

  102. 

  103.         self.losses.append(step_loss)

  104.         cur_step_in_epoch = (cb_params.cur_step_num - 1) % cb_params.batch_num

  105. 

  106.         print("epoch: [{:3d}/{:3d}], step:[{:5d}/{:5d}], loss:[{:5.3f}/{:5.3f}], time:[{:5.3f}], lr:[{:5.3f}]".format(

  107.             cb_params.cur_epoch_num - 1, cb_params.epoch_num, cur_step_in_epoch, cb_params.batch_num, step_loss,

  108.             np.mean(self.losses), step_mseconds, self.lr_init[cb_params.cur_step_num - 1]), flush=True)

  109. 

  110. 

  111. if __name__ == '__main__':

  112.     if run_distribute:

  113.         context.set_context(enable_hccl=True)

  114.         context.set_auto_parallel_context(device_num=rank_size, parallel_mode=ParallelMode.DATA_PARALLEL,

  115.                                           parameter_broadcast=True, mirror_mean=True)

  116.         auto_parallel_context().set_all_reduce_fusion_split_indices([140])

  117.         init()

  118.     else:

  119.         context.set_context(enable_hccl=False)

  120. 

  121.     epoch_size = config.epoch_size

  122.     net = mobilenet_v2(num_classes=config.num_classes)

  123.     loss = SoftmaxCrossEntropyWithLogits(is_grad=False, sparse=True, reduction='mean')

  124. 

  125.     print("train args: ", args_opt, "\ncfg: ", config,

  126.           "\nparallel args: rank_id {}, device_id {}, rank_size {}".format(rank_id, device_id, rank_size))

  127. 

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

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

  130.     step_size = dataset.get_dataset_size()

  131. 

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

  133.     lr = Tensor(get_lr(global_step=0, lr_init=0, lr_end=0, lr_max=config.lr,

  134.                        warmup_epochs=config.warmup_epochs, total_epochs=epoch_size, steps_per_epoch=step_size))

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

  136.                    config.weight_decay, config.loss_scale)

  137. 

  138.     model = Model(net, loss_fn=loss, optimizer=opt, loss_scale_manager=loss_scale)

  139. 

  140.     cb = None

  141.     if rank_id == 0:

  142.         cb = [Monitor(lr_init=lr.asnumpy())]

  143.         if config.save_checkpoint:

  144.             config_ck = CheckpointConfig(save_checkpoint_steps=config.save_checkpoint_epochs * step_size,

  145.                                          keep_checkpoint_max=config.keep_checkpoint_max)

  146.             ckpt_cb = ModelCheckpoint(prefix="mobilenet", directory=config.save_checkpoint_path, config=config_ck)

  147.             cb += [ckpt_cb]

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