刘二大人 Multiple Dimension with Pytorch代码实现
Multiple Dimension代码实现
Multiple Dimension
- 步骤
-
- Prepare dataset
- Design model using Class
- Construct loss and optimizer
- Training cycle
步骤
引入库
import numpy as np
import torch
import matplotlib.pyplot as plt
Prepare dataset
#引入数据集,用np中的加载文本功能,加载文本。分割符为逗号。数据类型为32位浮点型
xy = np.loadtxt('diabetes.csv',delimiter=',',dtype=np.float32)
#x的数据是用torch中的来自numpy提取数据,:代表所有行,:-1代表除了最后一列的所有列。
x_data = torch.from_numpy(xy[:,:-1])
#y的数据是torch中的来自numpy提取数据,:代表所有行,【-1】代表最后一列
y_data = torch.from_numpy(xy[:,[-1]])
Design model using Class
#构造模型
class Model(torch.nn.Module):
#初始化自身对象
def __init__(self):
#super调用父类初始化器
super(Model,self).__init__()
#构造一个输入是8维,输出是6维的线性模型
self.linear1 = torch.nn.Linear(8,6)
#构造一个输入是6维,输出是4维的线性模型
self.linear2 = torch.nn.Linear(6,4)
#构造一个输入是4维,输出是1维的线性模型
self.linear3 = torch.nn.Linear(4,1)
#构造一个逻辑回归模型
self.sigmoid = torch.nn.Sigmoid()
self.activate = torch.nn.ReLU()
#前向传播
def forward(self,x):
#用relu激活线性模型1,也就是将线性模型1代入到relu里面
x = self.sigmoid(self.linear1(x))
#用relu激活线性模型2
x = self.sigmoid(self.linear2(x))
#用sigmoid激活线性模型3
x = self.sigmoid(self.linear3(x))
#返回x
return x
#实例化模型
model = Model()
Construct loss and optimizer
#构造二分类交叉熵求损失降维求平均
criterion = torch.nn.BCELoss(reduction='mean')
#优化模块中的SGD模型中的所有参数,学习率为0.05
optimizer = torch.optim.SGD(model.parameters(),lr=0.05)
epoch_list = []
loss_list = []
Training cycle
#循环1000次
for epoch in range(1000):
#将x代入模型求y的预测值
y_pred = model(x_data)
#将y的预测值和真实值代入损失函数中求损失值
loss = criterion(y_pred,y_data)
#输出循环次数,损失值,用item设置损失值为标量
print(epoch,loss.item())
#梯度归零
optimizer.zero_grad()
#损失反向传播
loss.backward()
#更新权重
optimizer.step()
epoch_list.append(epoch)
loss_list.append(loss.item())
x_test = torch.tensor([[-0.294118,0.487437,0.180328,-0.292929,0,0.00149028,-0.53117,-0.0333333]])
print(x_test)
y_test =model(x_test)
print(y_test.item())
x_test2 =torch.tensor([[-0.176471,0.959799,0.147541,-0.333333,-0.65721,-0.251863,-0.927412,0.133333]])
print(model(x_test2).item())
plt.plot(epoch_list,loss_list)
plt.xlabel('Epoch')
plt.ylabel('loss')
plt.show()
