题目要求同作业2:
【2021-2022 春学期】人工智能-作业2:例题程序复现_HBU_David的博客-CSDN博客
作业2:手推计算完成反向传播过程,进而用代码实现。
作业3:使用深度学习框架pytorch,直接调用 backward()函数完成反向传播。
参考代码:
# https://blog.csdn.net/qq_41033011/article/details/109325070
# https://github.com/Darwlr/Deep_learning/blob/master/06%20Pytorch%E5%AE%9E%E7%8E%B0%E5%8F%8D%E5%90%91%E4%BC%A0%E6%92%AD.ipynb
# torch.nn.Sigmoid(h_in)
import torch
x1, x2 = torch.Tensor([0.5]), torch.Tensor([0.3])
y1, y2 = torch.Tensor([0.23]), torch.Tensor([-0.07])
print("=====输入值:x1, x2;真实输出值:y1, y2=====")
print(x1, x2, y1, y2)
w1, w2, w3, w4, w5, w6, w7, w8 = torch.Tensor([0.2]), torch.Tensor([-0.4]), torch.Tensor([0.5]), torch.Tensor(
[0.6]), torch.Tensor([0.1]), torch.Tensor([-0.5]), torch.Tensor([-0.3]), torch.Tensor([0.8]) # 权重初始值
w1.requires_grad = True
w2.requires_grad = True
w3.requires_grad = True
w4.requires_grad = True
w5.requires_grad = True
w6.requires_grad = True
w7.requires_grad = True
w8.requires_grad = True
def sigmoid(z):
a = 1 / (1 + torch.exp(-z))
return a
def forward_propagate(x1, x2):
in_h1 = w1 * x1 + w3 * x2
out_h1 = sigmoid(in_h1) # out_h1 = torch.sigmoid(in_h1)
in_h2 = w2 * x1 + w4 * x2
out_h2 = sigmoid(in_h2) # out_h2 = torch.sigmoid(in_h2)
in_o1 = w5 * out_h1 + w7 * out_h2
out_o1 = sigmoid(in_o1) # out_o1 = torch.sigmoid(in_o1)
in_o2 = w6 * out_h1 + w8 * out_h2
out_o2 = sigmoid(in_o2) # out_o2 = torch.sigmoid(in_o2)
print("正向计算:o1 ,o2")
print(out_o1.data, out_o2.data)
return out_o1, out_o2
def loss_fuction(x1, x2, y1, y2): # 损失函数
y1_pred, y2_pred = forward_propagate(x1, x2) # 前向传播
loss = (1 / 2) * (y1_pred - y1) ** 2 + (1 / 2) * (y2_pred - y2) ** 2 # 考虑 : t.nn.MSELoss()
print("损失函数(均方误差):", loss.item())
return loss
def update_w(w1, w2, w3, w4, w5, w6, w7, w8):
# 步长
step = 1
w1.data = w1.data - step * w1.grad.data
w2.data = w2.data - step * w2.grad.data
w3.data = w3.data - step * w3.grad.data
w4.data = w4.data - step * w4.grad.data
w5.data = w5.data - step * w5.grad.data
w6.data = w6.data - step * w6.grad.data
w7.data = w7.data - step * w7.grad.data
w8.data = w8.data - step * w8.grad.data
w1.grad.data.zero_() # 注意:将w中所有梯度清零
w2.grad.data.zero_()
w3.grad.data.zero_()
w4.grad.data.zero_()
w5.grad.data.zero_()
w6.grad.data.zero_()
w7.grad.data.zero_()
w8.grad.data.zero_()
return w1, w2, w3, w4, w5, w6, w7, w8
if __name__ == "__main__":
print("=====更新前的权值=====")
print(w1.data, w2.data, w3.data, w4.data, w5.data, w6.data, w7.data, w8.data)
for i in range(1):
print("=====第" + str(i) + "轮=====")
L = loss_fuction(x1, x2, y1, y2) # 前向传播,求 Loss,构建计算图
L.backward() # 自动求梯度,不需要人工编程实现。反向传播,求出计算图中所有梯度存入w中
print("\tgrad W: ", round(w1.grad.item(), 2), round(w2.grad.item(), 2), round(w3.grad.item(), 2),
round(w4.grad.item(), 2), round(w5.grad.item(), 2), round(w6.grad.item(), 2), round(w7.grad.item(), 2),
round(w8.grad.item(), 2))
w1, w2, w3, w4, w5, w6, w7, w8 = update_w(w1, w2, w3, w4, w5, w6, w7, w8)
print("更新后的权值")
print(w1.data, w2.data, w3.data, w4.data, w5.data, w6.data, w7.data, w8.data)
【人工智能导论:模型与算法】MOOC 8.3 误差后向传播(BP) 例题 编程验证 Pytorch版本 - HBU_DAVID - 博客园 (cnblogs.com)