权重初始化对于训练神经网络至关重要，好的初始化权重可以有效的避免梯度消失等问题的发生。

在pytorch的使用过程中有几种权重初始化的方法供大家参考。

注意：第一种方法不推荐。尽量使用后两种方法。

# not recommenddef weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: m.weight.data.normal_(0.0, 0.02) elif classname.find('BatchNorm') != -1: m.weight.data.normal_(1.0, 0.02) m.bias.data.fill_(0)# recommenddef initialize_weights(m): if isinstance(m, nn.Conv2d): m.weight.data.normal_(0, 0.02) m.bias.data.zero_() elif isinstance(m, nn.Linear): m.weight.data.normal_(0, 0.02) m.bias.data.zero_()# recommenddef weights_init(m): if isinstance(m, nn.Conv2d): nn.init.xavier_normal_(m.weight.data) nn.init.xavier_normal_(m.bias.data) elif isinstance(m, nn.BatchNorm2d): nn.init.constant_(m.weight,1) nn.init.constant_(m.bias, 0) elif isinstance(m, nn.BatchNorm1d): nn.init.constant_(m.weight,1) nn.init.constant_(m.bias, 0)

编写好weights_init函数后，可以使用模型的apply方法对模型进行权重初始化。

net = Residual() # generate an instance network from the Net class

net.apply(weights_init) # apply weight init

补充知识：Pytorch权值初始化及参数分组

1. 模型参数初始化

# ————————————————— 利用model.apply(weights_init)实现初始化def weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: n = m.kernel_size[0] * m.kernel_size[1] * m.out_channels m.weight.data.normal_(0, math.sqrt(2. / n)) if m.bias is not None: m.bias.data.zero_() elif classname.find('BatchNorm') != -1: m.weight.data.fill_(1) m.bias.data.zero_() elif classname.find('Linear') != -1: n = m.weight.size(1) m.weight.data.normal_(0, 0.01) m.bias.data = torch.ones(m.bias.data.size()) # ————————————————— 直接放在__init__构造函数中实现初始化for m in self.modules(): if isinstance(m, nn.Conv2d): n = m.kernel_size[0] * m.kernel_size[1] * m.out_channels m.weight.data.normal_(0, math.sqrt(2. / n)) if m.bias is not None: m.bias.data.zero_() elif isinstance(m, nn.BatchNorm2d): m.weight.data.fill_(1) m.bias.data.zero_() elif isinstance(m, nn.BatchNorm1d): m.weight.data.fill_(1) m.bias.data.zero_() elif isinstance(m, nn.Linear): nn.init.xavier_uniform_(m.weight.data) if m.bias is not None: m.bias.data.zero_() # —————————————————self.weight = Parameter(torch.Tensor(out_features, in_features))self.bias = Parameter(torch.FloatTensor(out_features))nn.init.xavier_uniform_(self.weight)nn.init.zero_(self.bias)nn.init.constant_(m, initm)# nn.init.kaiming_uniform_()# self.weight.data.normal_(std=0.001)

2. 模型参数分组weight_decay

def separate_bn_prelu_params(model, ignored_params=[]): bn_prelu_params = [] for m in model.modules(): if isinstance(m, nn.BatchNorm2d): ignored_params += list(map(id, m.parameters())) bn_prelu_params += m.parameters() if isinstance(m, nn.BatchNorm1d): ignored_params += list(map(id, m.parameters())) bn_prelu_params += m.parameters() elif isinstance(m, nn.PReLU): ignored_params += list(map(id, m.parameters())) bn_prelu_params += m.parameters() base_params = list(filter(lambda p: id(p) not in ignored_params, model.parameters())) return base_params, bn_prelu_params, ignored_paramsOPTIMIZER = optim.SGD([ {'params': base_params, 'weight_decay': WEIGHT_DECAY}, {'params': fc_head_param, 'weight_decay': WEIGHT_DECAY * 10}, {'params': bn_prelu_params, 'weight_decay': 0.0} ], lr=LR, momentum=MOMENTUM ) # , nesterov=True

Note 1：PReLU(x) = max(0,x) + a * min(0,x). Here a is a learnable parameter. When called without arguments, nn.PReLU() uses a single parameter a across all input channels. If called with nn.PReLU(nChannels), a separate a is used for each input channel.

Note 2: weight decay should not be used when learning a for good performance.

Note 3: The default number of a to learn is 1, the default initial value of a is 0.25.

3. 参数分组weight_decay–其他

第2节中的内容可以满足一般的参数分组需求，此部分可以满足更个性化的分组需求。参考：face_evoLVe_Pytorch-master

自定义schedule

def schedule_lr(optimizer): for params in optimizer.param_groups: params['lr'] /= 10. print(optimizer)

方法一：利用model.modules()和obj.__class__ （更普适）

# model.modules()和model.children()的区别：model.modules()会迭代地遍历模型的所有子层，而model.children()只会遍历模型下的一层# 下面的关键词if 'model'，源于模型定义文件。如model_resnet.py中自定义的所有nn.Module子类，都会前缀'model_resnet'，所以可通过这种方式一次性筛选出自定义的模块def separate_irse_bn_paras(model): paras_only_bn = [] paras_no_bn = [] for layer in model.modules(): if 'model' in str(layer.__class__): # eg. a=[1,2] type(a): <class 'list'> a.__class__: <class 'list'> continue if 'container' in str(layer.__class__): # 去掉Sequential型的模块 continue else: if 'batchnorm' in str(layer.__class__): paras_only_bn.extend([*layer.parameters()]) else: paras_no_bn.extend([*layer.parameters()]) # extend()用于在列表末尾一次性追加另一个序列中的多个值（用新列表扩展原来的列表） return paras_only_bn, paras_no_bn

方法二：调用modules.parameters和named_parameters()

但是本质上，parameters()是根据named_parameters()获取，named_parameters()是根据modules()获取。使用此方法的前提是，须按下文1,2中的方式定义模型，或者利用Sequential+OrderedDict定义模型。

def separate_resnet_bn_paras(model): all_parameters = model.parameters() paras_only_bn = [] for pname, p in model.named_parameters(): if pname.find('bn') >= 0: paras_only_bn.append(p) paras_only_bn_id = list(map(id, paras_only_bn)) paras_no_bn = list(filter(lambda p: id(p) not in paras_only_bn_id, all_parameters)) return paras_only_bn, paras_no_bn

两种方法的区别

参数分组的区别，其实对应了模型构造时的区别。举例：

1、构造ResNet的basic block，在__init__()函数中定义了

self.conv1 = conv3x3(inplanes, planes, stride)self.bn1 = BatchNorm2d(planes)self.relu = ReLU(inplace = True)…

2、在forward()中定义

out = self.conv1(x)out = self.bn1(out)out = self.relu(out)…

3、对ResNet取model.name_parameters()返回的pname形如：

‘layer1.0.conv1.weight'‘layer1.0.bn1.weight'‘layer1.0.bn1.bias'# layer对应conv2_x, …, conv5_x； '0'对应各layer中的block索引，比如conv2_x有3个block，对应索引为layer1.0, …, layer1.2； 'conv1'就是__init__()中定义的self.conv1

4、若构造model时采用了Sequential()，则model.name_parameters()返回的pname形如：

‘body.3.res_layer.1.weight'，此处的1.weight实际对应了BN的weight，无法通过pname.find(‘bn')找到该模块。

self.res_layer = Sequential(Conv2d(in_channel, depth, (3, 3), (1, 1), 1, bias=False),BatchNorm2d(depth),ReLU(depth),Conv2d(depth, depth, (3, 3), stride, 1, bias=False),BatchNorm2d(depth))

5、针对4中的情况，两种解决办法：利用OrderedDict修饰Sequential，或利用方法一

downsample = Sequential( OrderedDict([(‘conv_ds', conv1x1(self.inplanes, planes * block.expansion, stride)),(‘bn_ds', BatchNorm2d(planes * block.expansion)),]))# 如此，相应模块的pname将会带有'conv_ds'，‘bn_ds'字样

以上这篇pytorch 网络参数 weight bias 初始化详解就是小编分享给大家的全部内容了，希望能给大家一个参考，也希望大家多多支持。