比较与torch.nn.BatchNorm3d的差异
torch.nn.BatchNorm3d
class torch.nn.BatchNorm3d(
num_features,
eps=1e-05,
momentum=0.1,
affine=True,
track_running_stats=True
)(input) -> Tensor
更多内容详见torch.nn.BatchNorm3d。
mindspore.nn.BatchNorm3d
class mindspore.nn.BatchNorm3d(
num_features,
eps=1e-5,
momentum=0.9,
affine=True,
gamma_init='ones',
beta_init='zeros',
moving_mean_init='zeros',
moving_var_init='ones',
use_batch_statistics=None
)(x) -> Tensor
更多内容详见mindspore.nn.BatchNorm3d。
差异对比
PyTorch:在五维输入(具有额外mini-batch和channel通道的三维输入)上应用批归一化处理,以避免内部协变量偏移。
MindSpore:此API实现功能与PyTorch基本一致,典型区别有两点。MindSpore中momentum参数默认值为0.9,与PyTorch的momentum转换关系为1-momentum,默认值行为与PyTorch相同;训练以及推理时的参数更新策略和PyTorch有所不同,详细区别请参考PyTorch对比-BatchNorm。
分类 |
子类 |
PyTorch |
MindSpore |
差异 |
---|---|---|---|---|
参数 |
参数1 |
num_features |
num_features |
- |
参数2 |
eps |
eps |
- |
|
参数3 |
momentum |
momentum |
功能一致,但PyTorch中的默认值是0.1,MindSpore中是0.9,与PyTorch的momentum转换关系为1-momentum,默认值行为与PyTorch相同 |
|
参数4 |
affine |
affine |
- |
|
参数5 |
track_running_stats |
use_batch_statistics |
功能一致,不同值对应的默认方式不同,详细区别请参考PyTorch对比-nn.BatchNorm |
|
参数6 |
- |
gamma_init |
γ 参数的初始化方法,默认值:”ones” |
|
参数7 |
- |
beta_init |
β 参数的初始化方法,默认值:”zeros” |
|
参数8 |
- |
moving_mean_init |
动态平均值的初始化方法,默认值:”zeros” |
|
参数9 |
- |
moving_var_init |
动态方差的初始化方法,默认值:”ones” |
|
输入 |
单输入 |
input |
x |
接口输入,功能一致,仅参数名不同 |
代码示例
PyTorch中,1-momentum后的值等于MindSpore的momentum,都使用mini-batch数据和学习参数进行训练。
# PyTorch
from torch import nn, tensor
import numpy as np
m = nn.BatchNorm3d(num_features=2, momentum=0.1)
input_x = tensor(np.array([[[[[0.1, 0.2], [0.3, 0.4]]],
[[[0.9, 1], [1.1, 1.2]]]]]).astype(np.float32))
output = m(input_x)
print(output.detach().numpy())
# [[[[[-1.3411044 -0.44703478]
# [ 0.4470349 1.3411044 ]]]
#
#
# [[[-1.3411034 -0.44703388]
# [ 0.44703573 1.3411053 ]]]]]
# MindSpore
from mindspore import Tensor, nn
import numpy as np
m = nn.BatchNorm3d(num_features=2, momentum=0.9)
m.set_train()
# BatchNorm3d<
# (bn2d): BatchNorm2d<num_features=2, eps=1e-05, momentum=0.9, gamma=Parameter (name=bn2d.gamma, shape=(2,), dtype=Float32, requires_grad=True), beta=Parameter (name=bn2d.beta, shape=(2,), dtype=Float32, requires_grad=True), moving_mean=Parameter (name=bn2d.moving_mean, shape=(2,), dtype=Float32, requires_grad=False), moving_variance=Parameter (name=bn2d.moving_variance, shape=(2,), dtype=Float32, requires_grad=False)>
# >
input_x = Tensor(np.array([[[[[0.1, 0.2], [0.3, 0.4]]],
[[[0.9, 1], [1.1, 1.2]]]]]).astype(np.float32))
output = m(input_x)
print(output)
# [[[[[-1.3411044 -0.44703478]
# [ 0.4470349 1.3411044 ]]]
#
#
# [[[-1.3411039 -0.44703427]
# [ 0.44703534 1.341105 ]]]]]