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modify resnet101 scripts for pylint

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pull/701/head
meixiaowei 6 years ago
parent 99bbb3a3b2
commit 3cb692bea1
6 changed files with 49 additions and 112 deletions
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3
example/resnet101_imagenet/README.md
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@ -54,9 +54,6 @@ Parameters for both training and evaluating can be set in config.py.
"save_checkpoint_steps": 500, # the step interval between two checkpoints. By default, the last checkpoint will be saved after the last step
"keep_checkpoint_max": 40, # only keep the last keep_checkpoint_max checkpoint
"save_checkpoint_path": "./", # path to save checkpoint relative to the executed path
"lr_init": 0.01, # initial learning rate
"lr_end": 0.00001, # final learning rate
"lr_max": 0.1, # maximum learning rate
"warmup_epochs": 0, # number of warmup epoch
"lr_decay_mode": "cosine" # decay mode for generating learning rate
"label_smooth": 1, # label_smooth

3
example/resnet101_imagenet/config.py
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@ -31,9 +31,6 @@ config = ed({
"save_checkpoint_steps": 500,
"keep_checkpoint_max": 40,
"save_checkpoint_path": "./",
"lr_init": 0.01,
"lr_end": 0.00001,
"lr_max": 0.1,
"warmup_epochs": 0,
"lr_decay_mode": "cosine",
"label_smooth": 1,

60
example/resnet101_imagenet/lr_generator.py
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@ -50,63 +50,3 @@ def warmup_cosine_annealing_lr(lr, steps_per_epoch, warmup_epochs, max_epoch):
lr = base_lr * decayed
lr_each_step.append(lr)
return np.array(lr_each_step).astype(np.float32)
def get_lr(global_step, lr_init, lr_end, lr_max, warmup_epochs, total_epochs, steps_per_epoch, lr_decay_mode):
"""
generate learning rate array
Args:
global_step(int): total steps of the training
lr_init(float): init learning rate
lr_end(float): end learning rate
lr_max(float): max learning rate
warmup_epochs(int): number of warmup epochs
total_epochs(int): total epoch of training
steps_per_epoch(int): steps of one epoch
lr_decay_mode(string): learning rate decay mode, including steps, poly or default
Returns:
np.array, learning rate array
"""
lr_each_step = []
total_steps = steps_per_epoch * total_epochs
warmup_steps = steps_per_epoch * warmup_epochs
if lr_decay_mode == 'steps':
decay_epoch_index = [0.3 * total_steps, 0.6 * total_steps, 0.8 * total_steps]
for i in range(total_steps):
if i < decay_epoch_index[0]:
lr = lr_max
elif i < decay_epoch_index[1]:
lr = lr_max * 0.1
elif i < decay_epoch_index[2]:
lr = lr_max * 0.01
else:
lr = lr_max * 0.001
lr_each_step.append(lr)
elif lr_decay_mode == 'poly':
if warmup_steps != 0:
inc_each_step = (float(lr_max) - float(lr_init)) / float(warmup_steps)
else:
inc_each_step = 0
for i in range(total_steps):
if i < warmup_steps:
lr = float(lr_init) + inc_each_step * float(i)
else:
base = (1.0 - (float(i) - float(warmup_steps)) / (float(total_steps) - float(warmup_steps)))
lr = float(lr_max) * base * base
if lr < 0.0:
lr = 0.0
lr_each_step.append(lr)
else:
for i in range(total_steps):
if i < warmup_steps:
lr = lr_init + (lr_max - lr_init) * i / warmup_steps
else:
lr = lr_max - (lr_max - lr_end) * (i - warmup_steps) / (total_steps - warmup_steps)
lr_each_step.append(lr)
current_step = global_step
lr_each_step = np.array(lr_each_step).astype(np.float32)
learning_rate = lr_each_step[current_step:]
return learning_rate

17
example/resnet101_imagenet/train.py
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@ -19,7 +19,7 @@ import argparse
import random
import numpy as np
from dataset import create_dataset
from lr_generator import get_lr, warmup_cosine_annealing_lr
from lr_generator import warmup_cosine_annealing_lr
from config import config
from mindspore import context
from mindspore import Tensor
@ -32,9 +32,9 @@ from mindspore.train.loss_scale_manager import FixedLossScaleManager
import mindspore.dataset.engine as de
from mindspore.communication.management import init
import mindspore.nn as nn
import mindspore.common.initializer as weight_init
from crossentropy import CrossEntropy
from var_init import default_recurisive_init, KaimingNormal
import mindspore.common.initializer as weight_init
random.seed(1)
np.random.seed(1)
@ -72,7 +72,7 @@ if __name__ == '__main__':
net = resnet101(class_num=config.class_num)
# weight init
default_recurisive_init(net)
for name, cell in net.cells_and_names():
for _, cell in net.cells_and_names():
if isinstance(cell, nn.Conv2d):
cell.weight.default_input = weight_init.initializer(KaimingNormal(a=math.sqrt(5),
mode='fan_out', nonlinearity='relu'),
@ -83,17 +83,12 @@ if __name__ == '__main__':
loss = CrossEntropy(smooth_factor=config.label_smooth_factor, num_classes=config.class_num)
if args_opt.do_train:
dataset = create_dataset(dataset_path=args_opt.dataset_path, do_train=True,
repeat_num=epoch_size, batch_size=config.batch_size)
repeat_num=epoch_size, batch_size=config.batch_size)
step_size = dataset.get_dataset_size()
loss_scale = FixedLossScaleManager(config.loss_scale, drop_overflow_update=False)
# learning rate strategy
if config.lr_decay_mode == 'cosine':
lr = Tensor(warmup_cosine_annealing_lr(config.lr, step_size, config.warmup_epochs, config.epoch_size))
else:
lr = Tensor(get_lr(global_step=0, lr_init=config.lr_init, lr_end=config.lr_end, lr_max=config.lr_max,
warmup_epochs=config.warmup_epochs, total_epochs=epoch_size, steps_per_epoch=step_size,
lr_decay_mode='poly'))
# learning rate strategy with cosine
lr = Tensor(warmup_cosine_annealing_lr(config.lr, step_size, config.warmup_epochs, config.epoch_size))
opt = Momentum(filter(lambda x: x.requires_grad, net.get_parameters()), lr, config.momentum,
config.weight_decay, config.loss_scale)
model = Model(net, loss_fn=loss, optimizer=opt, amp_level='O2', keep_batchnorm_fp32=False,

76
example/resnet101_imagenet/var_init.py
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@ -18,10 +18,10 @@ import numpy as np
from mindspore.common import initializer as init
import mindspore.nn as nn
from mindspore import Tensor
def calculate_gain(nonlinearity, param=None):
r"""Return the recommended gain value for the given nonlinearity function.
The values are as follows:
The values are as follows:
================= ====================================================
nonlinearity gain
================= ====================================================
@ -37,12 +37,13 @@ def calculate_gain(nonlinearity, param=None):
param: optional parameter for the non-linear function
"""
linear_fns = ['linear', 'conv1d', 'conv2d', 'conv3d', 'conv_transpose1d', 'conv_transpose2d', 'conv_transpose3d']
gain = 0
if nonlinearity in linear_fns or nonlinearity == 'sigmoid':
return 1
gain = 1
elif nonlinearity == 'tanh':
return 5.0 / 3
gain = 5.0 / 3
elif nonlinearity == 'relu':
return math.sqrt(2.0)
gain = math.sqrt(2.0)
elif nonlinearity == 'leaky_relu':
if param is None:
negative_slope = 0.01
@ -51,15 +52,16 @@ def calculate_gain(nonlinearity, param=None):
negative_slope = param
else:
raise ValueError("negative_slope {} not a valid number".format(param))
return math.sqrt(2.0 / (1 + negative_slope ** 2))
gain = math.sqrt(2.0 / (1 + negative_slope ** 2))
else:
raise ValueError("Unsupported nonlinearity {}".format(nonlinearity))
return gain
def _calculate_correct_fan(array, mode):
mode = mode.lower()
valid_modes = ['fan_in', 'fan_out']
if mode not in valid_modes:
raise ValueError("Mode {} not supported, please use one of {}".format(mode, valid_modes))
raise ValueError("Mode {} not supported, please use one of {}".format(mode, valid_modes))
fan_in, fan_out = _calculate_fan_in_and_fan_out(array)
return fan_in if mode == 'fan_in' else fan_out
@ -83,13 +85,12 @@ def kaiming_uniform_(array, a=0, mode='fan_in', nonlinearity='leaky_relu'):
backwards pass.
nonlinearity: the non-linear function (`nn.functional` name),
recommended to use only with ``'relu'`` or ``'leaky_relu'`` (default).
"""
"""
fan = _calculate_correct_fan(array, mode)
gain = calculate_gain(nonlinearity, a)
std = gain / math.sqrt(fan)
bound = math.sqrt(3.0) * std # Calculate uniform bounds from standard deviation
return np.random.uniform(-bound, bound, array.shape)
def kaiming_normal_(array, a=0, mode='fan_in', nonlinearity='leaky_relu'):
r"""Fills the input `Tensor` with values according to the method
@ -97,12 +98,10 @@ def kaiming_normal_(array, a=0, mode='fan_in', nonlinearity='leaky_relu'):
performance on ImageNet classification` - He, K. et al. (2015), using a
normal distribution. The resulting tensor will have values sampled from
:math:`\mathcal{N}(0, \text{std}^2)` where
.. math::
\text{std} = \frac{\text{gain}}{\sqrt{\text{fan\_mode}}}
Also known as He initialization.
Args:
array: an n-dimensional `tensor`
a: the negative slope of the rectifier used after this layer (only
@ -118,13 +117,12 @@ def kaiming_normal_(array, a=0, mode='fan_in', nonlinearity='leaky_relu'):
gain = calculate_gain(nonlinearity, a)
std = gain / math.sqrt(fan)
return np.random.normal(0, std, array.shape)
def _calculate_fan_in_and_fan_out(array):
"""calculate the fan_in and fan_out for input array"""
dimensions = len(array.shape)
if dimensions < 2:
raise ValueError("Fan in and fan out can not be computed for array with fewer than 2 dimensions")
num_input_fmaps = array.shape[1]
num_output_fmaps = array.shape[0]
receptive_field_size = 1
@ -132,19 +130,30 @@ def _calculate_fan_in_and_fan_out(array):
receptive_field_size = array[0][0].size
fan_in = num_input_fmaps * receptive_field_size
fan_out = num_output_fmaps * receptive_field_size
return fan_in, fan_out
def assignment(arr, num):
"""Assign the value of num to arr"""
if arr.shape == ():
arr = arr.reshape((1))
arr[:] = num
arr = arr.reshape(())
else:
if isinstance(num, np.ndarray):
arr[:] = num[:]
else:
arr[:] = num
return arr
class KaimingUniform(init.Initializer):
def __init__(self, a=0, mode='fan_in', nonlinearity='leaky_relu'):
super(KaimingUniform, self).__init__()
self.a = a
self.mode = mode
self.nonlinearity = nonlinearity
def _initialize(self, arr):
tmp = kaiming_uniform_(arr, self.a, self.mode, self.nonlinearity)
init._assignment(arr, tmp)
assignment(arr, tmp)
class KaimingNormal(init.Initializer):
def __init__(self, a=0, mode='fan_in', nonlinearity='leaky_relu'):
@ -152,33 +161,32 @@ class KaimingNormal(init.Initializer):
self.a = a
self.mode = mode
self.nonlinearity = nonlinearity
def _initialize(self, arr):
tmp = kaiming_normal_(arr, self.a, self.mode, self.nonlinearity)
init._assignment(arr, tmp)
assignment(arr, tmp)
def default_recurisive_init(custom_cell):
"""weight init for conv2d and dense"""
for name, cell in custom_cell.cells_and_names():
for _, cell in custom_cell.cells_and_names():
if isinstance(cell, nn.Conv2d):
cell.weight.default_input = init.initializer(KaimingUniform(a=math.sqrt(5)),
cell.weight.default_input.shape(),
cell.weight.default_input.dtype())
cell.weight.default_input = init.initializer(KaimingUniform(a=math.sqrt(5)),
cell.weight.default_input.shape(),
cell.weight.default_input.dtype())
if cell.bias is not None:
fan_in, _ = _calculate_fan_in_and_fan_out(cell.weight.default_input.asnumpy())
bound = 1 / math.sqrt(fan_in)
cell.bias.default_input = Tensor(np.random.uniform(-bound, bound,
cell.bias.default_input.shape()),
cell.bias.default_input.dtype())
cell.bias.default_input = Tensor(np.random.uniform(-bound, bound,
cell.bias.default_input.shape()),
cell.bias.default_input.dtype())
elif isinstance(cell, nn.Dense):
cell.weight.default_input = init.initializer(KaimingUniform(a=math.sqrt(5)),
cell.weight.default_input.shape(),
cell.weight.default_input.dtype())
cell.weight.default_input = init.initializer(KaimingUniform(a=math.sqrt(5)),
cell.weight.default_input.shape(),
cell.weight.default_input.dtype())
if cell.bias is not None:
fan_in, _ = _calculate_fan_in_and_fan_out(cell.weight.default_input.asnumpy())
bound = 1 / math.sqrt(fan_in)
cell.bias.default_input = Tensor(np.random.uniform(-bound, bound,
cell.bias.default_input.shape()),
cell.bias.default_input.dtype())
cell.bias.default_input = Tensor(np.random.uniform(-bound, bound,
cell.bias.default_input.shape()),
cell.bias.default_input.dtype())
elif isinstance(cell, (nn.BatchNorm2d, nn.BatchNorm1d)):
pass

2
mindspore/model_zoo/resnet.py
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@ -279,4 +279,4 @@ def resnet101(class_num=1001):
[64, 256, 512, 1024],
[256, 512, 1024, 2048],
[1, 2, 2, 2],
class_num)
class_num)

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