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这篇文章主要介绍了怎么获取Pytorch中间某一层权重或者特征,具有一定借鉴价值,感兴趣的朋友可以参考下,希望大家阅读完这篇文章之后大有收获,下面让小编带着大家一起了解一下。
问题:训练好的网络模型想知道中间某一层的权重或者看看中间某一层的特征,如何处理呢?
1、获取某一层权重,并保存到excel中;
以resnet18为例说明:
import torch import pandas as pd import numpy as np import torchvision.models as models resnet18 = models.resnet18(pretrained=True) parm={} for name,parameters in resnet18.named_parameters(): print(name,':',parameters.size()) parm[name]=parameters.detach().numpy()
上述代码将每个模块参数存入parm字典中,parameters.detach().numpy()将tensor类型变量转换成numpy array形式,方便后续存储到表格中.输出为:
conv1.weight : torch.Size([64, 3, 7, 7]) bn1.weight : torch.Size([64]) bn1.bias : torch.Size([64]) layer1.0.conv1.weight : torch.Size([64, 64, 3, 3]) layer1.0.bn1.weight : torch.Size([64]) layer1.0.bn1.bias : torch.Size([64]) layer1.0.conv2.weight : torch.Size([64, 64, 3, 3]) layer1.0.bn2.weight : torch.Size([64]) layer1.0.bn2.bias : torch.Size([64]) layer1.1.conv1.weight : torch.Size([64, 64, 3, 3]) layer1.1.bn1.weight : torch.Size([64]) layer1.1.bn1.bias : torch.Size([64]) layer1.1.conv2.weight : torch.Size([64, 64, 3, 3]) layer1.1.bn2.weight : torch.Size([64]) layer1.1.bn2.bias : torch.Size([64]) layer2.0.conv1.weight : torch.Size([128, 64, 3, 3]) layer2.0.bn1.weight : torch.Size([128]) layer2.0.bn1.bias : torch.Size([128]) layer2.0.conv2.weight : torch.Size([128, 128, 3, 3]) layer2.0.bn2.weight : torch.Size([128]) layer2.0.bn2.bias : torch.Size([128]) layer2.0.downsample.0.weight : torch.Size([128, 64, 1, 1]) layer2.0.downsample.1.weight : torch.Size([128]) layer2.0.downsample.1.bias : torch.Size([128]) layer2.1.conv1.weight : torch.Size([128, 128, 3, 3]) layer2.1.bn1.weight : torch.Size([128]) layer2.1.bn1.bias : torch.Size([128]) layer2.1.conv2.weight : torch.Size([128, 128, 3, 3]) layer2.1.bn2.weight : torch.Size([128]) layer2.1.bn2.bias : torch.Size([128]) layer3.0.conv1.weight : torch.Size([256, 128, 3, 3]) layer3.0.bn1.weight : torch.Size([256]) layer3.0.bn1.bias : torch.Size([256]) layer3.0.conv2.weight : torch.Size([256, 256, 3, 3]) layer3.0.bn2.weight : torch.Size([256]) layer3.0.bn2.bias : torch.Size([256]) layer3.0.downsample.0.weight : torch.Size([256, 128, 1, 1]) layer3.0.downsample.1.weight : torch.Size([256]) layer3.0.downsample.1.bias : torch.Size([256]) layer3.1.conv1.weight : torch.Size([256, 256, 3, 3]) layer3.1.bn1.weight : torch.Size([256]) layer3.1.bn1.bias : torch.Size([256]) layer3.1.conv2.weight : torch.Size([256, 256, 3, 3]) layer3.1.bn2.weight : torch.Size([256]) layer3.1.bn2.bias : torch.Size([256]) layer4.0.conv1.weight : torch.Size([512, 256, 3, 3]) layer4.0.bn1.weight : torch.Size([512]) layer4.0.bn1.bias : torch.Size([512]) layer4.0.conv2.weight : torch.Size([512, 512, 3, 3]) layer4.0.bn2.weight : torch.Size([512]) layer4.0.bn2.bias : torch.Size([512]) layer4.0.downsample.0.weight : torch.Size([512, 256, 1, 1]) layer4.0.downsample.1.weight : torch.Size([512]) layer4.0.downsample.1.bias : torch.Size([512]) layer4.1.conv1.weight : torch.Size([512, 512, 3, 3]) layer4.1.bn1.weight : torch.Size([512]) layer4.1.bn1.bias : torch.Size([512]) layer4.1.conv2.weight : torch.Size([512, 512, 3, 3]) layer4.1.bn2.weight : torch.Size([512]) layer4.1.bn2.bias : torch.Size([512]) fc.weight : torch.Size([1000, 512]) fc.bias : torch.Size([1000])
parm['layer1.0.conv1.weight'][0,0,:,:]
输出为:
array([[ 0.05759342, -0.09511436, -0.02027232], [-0.07455588, -0.799308 , -0.21283598], [ 0.06557069, -0.09653367, -0.01211061]], dtype=float32)
利用如下函数将某一层的所有参数保存到表格中,数据维持卷积核特征大小,如3*3的卷积保存后还是3x3的.
def parm_to_excel(excel_name,key_name,parm): with pd.ExcelWriter(excel_name) as writer: [output_num,input_num,filter_size,_]=parm[key_name].size() for i in range(output_num): for j in range(input_num): data=pd.DataFrame(parm[key_name][i,j,:,:].detach().numpy()) #print(data) data.to_excel(writer,index=False,header=True,startrow=i*(filter_size+1),startcol=j*filter_size)
由于权重矩阵中有很多的值非常小,取出固定大小的值,并将全部权重写入excel
counter=1 with pd.ExcelWriter('test1.xlsx') as writer: for key in parm_resnet50.keys(): data=parm_resnet50[key].reshape(-1,1) data=data[data>0.001] data=pd.DataFrame(data,columns=[key]) data.to_excel(writer,index=False,startcol=counter) counter+=1
2、获取中间某一层的特性
重写一个函数,将需要输出的层输出即可.
def resnet_cifar(net,input_data): x = net.conv1(input_data) x = net.bn1(x) x = F.relu(x) x = net.layer1(x) x = net.layer2(x) x = net.layer3(x) x = net.layer4[0].conv1(x) #这样就提取了layer4第一块的第一个卷积层的输出 x=x.view(x.shape[0],-1) return x model = models.resnet18() x = resnet_cifar(model,input_data)
1.PyTorch是相当简洁且高效快速的框架;2.设计追求最少的封装;3.设计符合人类思维,它让用户尽可能地专注于实现自己的想法;4.与google的Tensorflow类似,FAIR的支持足以确保PyTorch获得持续的开发更新;5.PyTorch作者亲自维护的论坛 供用户交流和求教问题6.入门简单
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