标签:csharp def 告诉 forward add mod 数据集 view 输入
1.LeNet
LeNet是指LeNet-5,它是第一个成功应用于数字识别的卷积神经网络。在MNIST数据集上,可以达到99.2%的准确率。LeNet-5模型总共有7层,包括两个卷积层,两个池化层,两个全连接层和一个输出层。
import torch import torch.nn as nn from torch.autograd import Variable #方形卷积核和等长的步长 m1=nn.Conv2d(16,33,3,stride=2) #非长方形卷积核,非等长的步长和边界填充 m2=nn.Conv2d(16,33,(3,5),stride=(2,1),padding=(4,2)) #非方形卷积核,非等长的步长,边界填充和空间间隔 m3=nn.Conv2d(16,33,(3,5),stride=(2,1),padding=(4,2),dilation=(3,1)) input=Variable(torch.randn(20,16,50,100)) output=m2(input)
####LeNet的PyTorch实现
class LeNet(nn.Module):
def __init__(self):
super(LeNet,self).__init__()
self.conv1=nn.Conv2d(3,6,5)
self.conv2=nn.Conv2d(6,16,5)
self.fc1=nn.Linear(16*5*5,120)
self.fc2=nn.Linear(120,84)
self.fc3=nn.Linear(84,10)
def forward(self,x):
out=F.relu(self.conv1(x))
out=F.max_pool2d(out,2)
out=F.relu(self.conv2(out))
out=F.max_pool2d(out,2)
#这句话一般出现在model类的forward函数中,具体位置一般都是在调用分类器之前。
#分类器是一个简单的nn.Linear()结构,输入输出都是维度为一的值,x = x.view(x.size(0), -1)
#这句话的出现就是为了将前面多维度的tensor展平成一维
#x = x.view(batchsize, -1)中batchsize指转换后有几行,
#而-1指在不告诉函数有多少列的情况下,根据原tensor数据和batchsize自动分配列数。
out=out.view(out.size(0),-1)
out=F.relu(self.fc1(out))
our=F.relu(self.fc2(out))
out=self.fc3(out)
return out
2.AlexNet
AlexNet具有更深的网络结构,使用层叠的卷积层,同时增加了Dropout和数据增强,并使用ReLU代替了之前的sigmoid函数,采用多GPU训练。
AlexNet共8层,前5层为卷积层,后3层为全连接层。
#####AlexNet的PyTorch实现
class AlexNet(nn.Module):
def __init__(self,num_classes):
super(AlexNet,self).__init__()
self.features=nn.Sequential(
nn.Conv2d(3,96,kernel_size=11,stride=4,padding=2),
nn.ReLU(inplace=True),
nn.MaxPool2d(kernel_size=3,stride=2),
nn.Conv2d(96,256,kernel_size=5,padding=2),
nn.ReLU(inplace=True),
nn.MaxPool2d(kernel_size=3,stride=2),
nn.Conv2d(256,384,kernel_size=3,padding=1),
nn.ReLU(inplace=True),
nn.Conv2d(384,384,kernel_size=3,padding=1),
nn.ReLU(inplace=True),
nn.Conv2d(384,256,kernel_size=3,padding=1),
nn.ReLU(inplace=True),
nn.MaxPool2d(kernel_size=3,stride=2),
)
self.classifier=nn.Sequential(
nn.Dropout(),
nn.Linear(256*6*6,4096),
nn.ReLU(inplace=True),
nn.Dropout(),
nn.Linear(4096,4096),
nn.ReLU(inplace=True),
nn.Linear(4096,num_classes),
)
def forward(self,x):
x=self.features()
x=x.view(x.size(0),256*6*6)
x=self.classifier(x)
return x
3.VGGNet
VGGNet采用了几个3*3的卷积核代替AlexNet中较大的卷积核,模型由若干卷积层和池化层堆叠而成。
####VGGNet的实现
cfg={
‘VGG11‘:[64,‘M‘,128,‘M‘,256,256,‘M‘,512,512,‘M‘,512,512,‘M‘],
‘VGG13‘:[64,64,‘M‘,128,128,‘M‘,256,256,‘M‘,512,512,‘M‘,512,512,‘M‘],
‘VGG16‘:[64,64,‘M‘,128,128,‘M‘,256,256,256,‘M‘,512,512,512,‘M‘,512,512,512,‘M‘],
‘VGG19‘:[64,64,‘M‘,128,128,‘M‘,256,256,256,256,‘M‘,512,512,512,512,‘M‘,512,512,512,512,‘M‘],
}
class VGG(nn.Module):
def __init__(self,vgg_name):
super(VGG,self).__init__()
self.features=self._make_layers(cfg[vgg_name])
self.classifier=nn.Linear(512,10)
def forward(self,x):
out=self.features(x)
out=out.view(out.size(0),-1)
out=self.classifier(out)
return out
def _make_layers(self,cfg):
layers=[]
in_channels=3
for x in cfg:
if x ==‘M‘:
layers+=[nn.MaxPool2d(kernel_size=2,stride=2)]
else:
layers+=[nn.Conv2d(in_channels,x,kernal_size=3,padding=1),nn.BatchNorm2d(x),nn.ReLU(inplace=True)]
in_channels=x
layers+=[nn.AvgPool2d(kernel_size=1,stride=1)]
return nn.Sequential(*layers)
4.
标签:csharp def 告诉 forward add mod 数据集 view 输入
原文地址:https://www.cnblogs.com/candyRen/p/12072047.html
