torch教程[3] 使用pytorch自帶的反向傳播
阿新 • • 發佈:2017-06-11
sin ces resp utf using esc data puts rate
# -*- coding: utf-8 -*- import torch from torch.autograd import Variable dtype = torch.FloatTensor # dtype = torch.cuda.FloatTensor # Uncomment this to run on GPU # N is batch size; D_in is input dimension; # H is hidden dimension; D_out is output dimension. N, D_in, H, D_out = 64, 1000, 100, 10 # Create random Tensors to hold input and outputs, and wrap them in Variables. # Setting requires_grad=False indicates that we do not need to compute gradients # with respect to these Variables during the backward pass. x = Variable(torch.randn(N, D_in).type(dtype), requires_grad=False) y = Variable(torch.randn(N, D_out).type(dtype), requires_grad=False) # Create random Tensors for weights, and wrap them in Variables. # Setting requires_grad=True indicates that we want to compute gradients with # respect to these Variables during the backward pass. w1 = Variable(torch.randn(D_in, H).type(dtype), requires_grad=True) w2 = Variable(torch.randn(H, D_out).type(dtype), requires_grad=True) learning_rate = 1e-6 for t in range(500): # Forward pass: compute predicted y using operations on Variables; these # are exactly the same operations we used to compute the forward pass using # Tensors, but we do not need to keep references to intermediate values since # we are not implementing the backward pass by hand. y_pred = x.mm(w1).clamp(min=0).mm(w2) # Compute and print loss using operations on Variables. # Now loss is a Variable of shape (1,) and loss.data is a Tensor of shape # (1,); loss.data[0] is a scalar value holding the loss. loss = (y_pred - y).pow(2).sum() print(t, loss.data[0]) # Use autograd to compute the backward pass. This call will compute the # gradient of loss with respect to all Variables with requires_grad=True. # After this call w1.grad and w2.grad will be Variables holding the gradient # of the loss with respect to w1 and w2 respectively. loss.backward() # Update weights using gradient descent; w1.data and w2.data are Tensors, # w1.grad and w2.grad are Variables and w1.grad.data and w2.grad.data are # Tensors. w1.data -= learning_rate * w1.grad.data w2.data -= learning_rate * w2.grad.data # Manually zero the gradients after updating weights w1.grad.data.zero_() w2.grad.data.zero_()
torch教程[3] 使用pytorch自帶的反向傳播