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利用pytorch实现对CIFAR-10数据集的分类

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步骤如下: 1.使用torchvision加载并预处理CIFAR-10数据集、 2.定义网络 3.定义损失函数和优化器 4.训练网络并更新网络参数 5.测试网络 运行环境: windows+python3.6.3+pycharm+pytorch0.3.0import torc

步骤如下:

1.使用torchvision加载并预处理CIFAR-10数据集、

2.定义网络

3.定义损失函数和优化器

4.训练网络并更新网络参数

5.测试网络

运行环境:

windows+python3.6.3+pycharm+pytorch0.3.0

import torchvision as tv
import torchvision.transforms as transforms
import torch as t
from torchvision.transforms import ToPILImage
show=ToPILImage()    #把Tensor转成Image,方便可视化
import matplotlib.pyplot as plt
import torchvision
import numpy as np


###############数据加载与预处理
transform = transforms.Compose([transforms.ToTensor(),#转为tensor
                transforms.Normalize((0.5,0.5,0.5),(0.5,0.5,0.5)),#归一化
                ])
#训练集
trainset=tv.datasets.CIFAR10(root='/python projects/test/data/',
               train=True,
               download=True,
               transform=transform)

trainloader=t.utils.data.DataLoader(trainset,
                  batch_size=4,
                  shuffle=True,
                  num_workers=0)
#测试集
testset=tv.datasets.CIFAR10(root='/python projects/test/data/',
               train=False,
               download=True,
               transform=transform)

testloader=t.utils.data.DataLoader(testset,
                  batch_size=4,
                  shuffle=True,
                  num_workers=0)


classes=('plane','car','bird','cat','deer','dog','frog','horse','ship','truck')

(data,label)=trainset[100]
print(classes[label])

show((data+1)/2).resize((100,100))

# dataiter=iter(trainloader)
# images,labels=dataiter.next()
# print(''.join('11%s'%classes[labels[j]] for j in range(4)))
# show(tv.utils.make_grid(images+1)/2).resize((400,100))
def imshow(img):
  img = img / 2 + 0.5
  npimg = img.numpy()
  plt.imshow(np.transpose(npimg, (1, 2, 0)))

dataiter = iter(trainloader)
images, labels = dataiter.next()
print(images.size())
imshow(torchvision.utils.make_grid(images))
plt.show()#关掉图片才能往后继续算


#########################定义网络
import torch.nn as nn
import torch.nn.functional as F

class Net(nn.Module):
  def __init__(self):
    super(Net,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):
    x = F.max_pool2d(F.relu(self.conv1(x)),2)
    x = F.max_pool2d(F.relu(self.conv2(x)),2)
    x = x.view(-1, 16 * 5 * 5)
    x = F.relu(self.fc1(x))
    x = F.relu(self.fc2(x))
    x = self.fc3(x)
    return x

net=Net()
print(net)

#############定义损失函数和优化器
from torch import optim
criterion=nn.CrossEntropyLoss()
optimizer=optim.SGD(net.parameters(),lr=0.01,momentum=0.9)

##############训练网络
from torch.autograd import Variable
import time

start_time = time.time()
for epoch in range(2):
  running_loss=0.0
  for i,data in enumerate(trainloader,0):
    #输入数据
    inputs,labels=data
    inputs,labels=Variable(inputs),Variable(labels)
    #梯度清零
    optimizer.zero_grad()

    outputs=net(inputs)
    loss=criterion(outputs,labels)
    loss.backward()
    #更新参数
    optimizer.step()

    # 打印log
    running_loss += loss.data[0]
    if i % 2000 == 1999:
      print('[%d,%5d] loss:%.3f' % (epoch + 1, i + 1, running_loss / 2000))
      running_loss = 0.0
print('finished training')
end_time = time.time()
print("Spend time:", end_time - start_time)

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