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【pytorch】(六)保存和加载模型



文章目录

  • 保存和加载模型
  • 保存加载模型参数
  • 保存加载模型和参数


保存和加载模型

import torch
from torch import nn
from torch.utils.data import DataLoader
from torchvision import datasets
from torchvision.transforms import ToTensor, Lambda

device = 'cuda' if torch.cuda.is_available() else 'cpu'
print(device)

# ======================= 数据 =======================
training_data = datasets.FashionMNIST(
root="data",
train=True,
download=True,
transform=ToTensor()
)

test_data = datasets.FashionMNIST(
root="data",
train=False,
download=True,
transform=ToTensor()
)

train_dataloader = DataLoader(training_data, batch_size=64)
test_dataloader = DataLoader(test_data, batch_size=64)


# ======================= 模型 =======================
class NeuralNetwork(nn.Module):
def __init__(self):
super(NeuralNetwork, self).__init__()

self.linear_relu_stack = nn.Sequential(
nn.Linear(28 * 28, 512),
nn.ReLU(),
nn.Linear(512, 512),
nn.ReLU(),
nn.Linear(512, 10),
)

def forward(self, x):
x = x.flatten(1)
logits = self.linear_relu_stack(x)
return logits


def train_loop(dataloader, model, loss_fn, optimizer):
'''训练循环'''
size = len(dataloader.dataset)
for batch, (X, y) in enumerate(dataloader):
X = X.to(device)
y = y.to(device)
# 计算估计值与损失
pred = model(X)
loss = loss_fn(pred, y)

# 反向传播
optimizer.zero_grad()
loss.backward()
optimizer.step()

if batch % 100 == 0:
loss, current = loss.item(), batch * len(X)
print(f"loss: {loss:>7f} [{current:>5d}/{size:>5d}]")

def test_loop(dataloader, model, loss_fn):
'''测试循环'''
size = len(dataloader.dataset)
num_batches = len(dataloader)
test_loss, correct = 0, 0

with torch.no_grad():
for X, y in dataloader:
X = X.to(device)
y = y.to(device)
pred = model(X)
test_loss += loss_fn(pred, y).item()
correct += (pred.argmax(1) == y).type(torch.float).sum().item()

test_loss /= num_batches
correct /= size
print(f"Test Error: \n Accuracy: {(100 * correct):>0.1f}%, Avg loss: {test_loss:>8f} \n")

# 超参数
learning_rate = 1e-3
batch_size = 64
epochs = 10

# 模型实例
model = NeuralNetwork().to(device)
# 损失函数实例
loss_fn = nn.CrossEntropyLoss()
# 优化器实例
optimizer = torch.optim.SGD(model.parameters(), lr=learning_rate)

for t in range(epochs):
print(f"Epoch {t + 1}\n-------------------------------")
train_loop(train_dataloader, model, loss_fn, optimizer)
test_loop(test_dataloader, model, loss_fn)
print("Done!")

在之前的章节中,我们介绍了如何用Pytorch搭建模型以及训练。在本节中,我们将了解到如何保存、加载模型。

保存加载模型参数

PyTorch模型可以将学习到的参数存储在内部状态字典(称为​​state_dict​​​)中。我们可以通过​​torch.save​​保存这些参数:

torch.save(model.state_dict(), "model_state_dict.pth")

要加载模型参数,需要先创建同一模型的实例,然后使用​​load_state_dict()​​方法加载。

model = NeuralNetwork()
model.load_state_dict(torch.load("model_state_dict.pth"))

使用加载的模型进行预测:

# model.eval()
classes = [
"T-shirt/top",
"Trouser",
"Pullover",
"Dress",
"Coat",
"Sandal",
"Shirt",
"Sneaker",
"Bag",
"Ankle boot",
]
x, y = test_data[0][0], test_data[0][1]
with torch.no_grad():
x = x.to(device)
pred = model(x)
predicted, actual = classes[pred[0].argmax(0)], classes[y]
print(f'Predicted: "{predicted}", Actual: "{actual}"')

输出:

Predicted: "Ankle boot", Actual: "Ankle boot"

注意:

如果在训练模型时使用到dropout或batch normalization,则需要使用​​model.eval()​​方法将网络设置为测试模式,否则将产生不一致的推断结果。

保存加载模型和参数

加载模型参数时,我们需要首先实例化模型类,因为该类定义了网络的结构。我们还可以将此类的结构与模型一起保存:将​​model​​​(而不是​​model.state_dict()​​​)传递给​​torch.save​​:

torch.save(model, 'model.pth')

然后我们可以像这样加载模型:

model = torch.load("model.pth")
# model.eval()
classes = [
"T-shirt/top",
"Trouser",
"Pullover",
"Dress",
"Coat",
"Sandal",
"Shirt",
"Sneaker",
"Bag",
"Ankle boot",
]
x, y = test_data[0][0], test_data[0][1]
with torch.no_grad():
x = x.to(device)
pred = model(x)
predicted, actual = classes[pred[0].argmax(0)], classes[y]
print(f'Predicted: "{predicted}", Actual: "{actual}"')
Predicted: "Ankle boot", Actual: "Ankle boot"

参考:

[1] https://pytorch.org/tutorials/beginner/basics/saveloadrun_tutorial.html



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