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I am using bayesian neural network for finding a probabilistic distribution of the output. I am trying to prepare a multi-input and multi-output model. At first i am trying to get a 2 input and 2 output model using this code. I was trying to use my data to run this code but after the training output value shows [nan]

where are the problems? how can I fix it?

I think the problem in the activation function. Because the code generates the weights but when it is going to the calculation, the fuction cannot able to provide result.

class Net(torch.nn.Module):
   def __init__(self, n_feature, n_hidden, n_output):
       super(Net, self).__init__()
       self.l1 = torch.nn.Linear(n_feature, n_hidden[0])  # hidden layer 1
       self.l2 = torch.nn.Linear(n_hidden[0], n_hidden[1])  # hidden layer 2
       self.l3 = torch.nn.Linear(n_hidden[1], n_hidden[2])  # hidden layer 3
       self.predict = torch.nn.Linear(n_hidden[2], n_output)  # output layer
   
   def forward(self, x):
       x = F.relu(self.l1(x))  # activation function for hidden layer 1
       x = F.relu(self.l2(x))  # activation function for hidden layer 2
       x = F.relu(self.l3(x))  # activation function for hidden layer 3
       x = self.predict(x)  # linear output
       return x
   
   net = Net(n_feature=1, n_hidden=[16, 16, 16], n_output=1)
   optimizer = torch.optim.SGD(net.parameters(), lr=0.2)
   loss_func = torch.nn.MSELoss()  # this is for regression mean squared loss
   
   for epoch in range(2000):
       if (epoch) % 10 == 0:
       print('Epoch: ', epoch)
       prediction = net(X)  # input x and predict based on x
       loss = loss_func(prediction, Y)  # must be (1. nn output, 2. target)
       optimizer.zero_grad()  # clear gradients for next train
       loss.backward()  # backpropagation, compute gradients
       optimizer.step()  # apply gradients
   
   prediction = net(X_test)
   
   def main():
       BBB_Regression(x, y, x_test, y_test)
       #NN_Regression(x,y,x_test,y_test)
   
if __name__ == '__main__':
    main()

Output:

outputs
tensor([[[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan]],

[[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan],
[nan]]], grad_fn=<CopySlices>)

For full code kindly click here full code

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