PyTorch: RuntimeError: element 0 of variables tuple is volatile

Question

I'm training a LSTM based model in PyTorch 0.3.1.

My problem is that after increasing the learning rate I always get a RuntimeError saying: element 0 of variables tuple is volatile.

This does not happen at the beginning, but after some training, like in epoch 3, 4, 5 .. etc.

When looking after this error I found this Question on Stackoverflow suggesting to use zero_grad(). But this was already in use when the error occurred.

So my questions are:

• What does it mean that an element of a variable is volatile?
• And what are possible causes for a variables element to get "volatile"?
• Is there a way to test which variable contains the volatile element, so that I can backtrace the problem?

Thanks a lot in advance for any help!

Here is the code of the training step I'm using:

for epoch in range(num_epochs):
    states = (Var(torch.zeros(num_layers, batch_size, hidden_size)), 
              Var(torch.zeros(num_layers, batch_size, hidden_size)))
    new_batch = True
    step = 0
    epoch_loss = []
    print('Epoch: ', epoch+1)
    for i in range(0, token_ids.size(1) - seq_length, seq_length):
        #print(i)
        input_sequence = Var(token_ids[:,i:i+seq_length])
        target_sequence = Var(token_ids[:,(i+1):(i+1)+seq_length])
        entity_target_sequence = Var(entety_targets[:,(i+1):(i+1)+seq_length]).contiguous()

        if int(input_sequence )== 0:
            states = (Var(torch.zeros(num_layers, batch_size, hidden_size)), 
                      Var(torch.zeros(num_layers, batch_size, hidden_size)))
            print('New Document')
        model.zero_grad()
        states = detach(states)
        out, states, z = model(input_sequence, states)

        if new_batch:
            loss = loss_func(out, target_sequence.view(-1)) + bce_loss(z, entity_target_sequence)
            new_batch = False
        else:
            loss += loss_func(out, target_sequence.view(-1)) + bce_loss(z, entity_target_sequence)
        if (i+1) % wbatch_size == 0:
            step += 1 // seq_length
            if step % 10 == 0:
                epoch_loss.append((loss.data[0]/wbatch_size))
                print ('Epoch [%d/%d], Step[%d/%d], Loss: %.3f' % (epoch+1, num_epochs, step, num_wbatches, (loss.data[0]/wbatch_size)))
                sys.stdout.flush()

            loss.backward(retain_graph=True)
            torch.nn.utils.clip_grad_norm(model.parameters(), 0.5)
            optimizer.step()
            new_batch = True

(I left out the model itself to avoid a wall of code here and to keep this readable, but if this helps to solve the problem I can of course add the code.)

Traceback:

Traceback (most recent call last):
  File "ent_lm.py", line 223, in <module>
    loss.backward(retain_graph=True)
  File "/usr/local/lib/python3.6/site-packages/torch/autograd/variable.py", line 167, in backward
    torch.autograd.backward(self, gradient, retain_graph, create_graph, retain_variables)
  File "/usr/local/lib/python3.6/site-packages/torch/autograd/__init__.py", line 99, in backward
    variables, grad_variables, retain_graph)

Answer 1

The code you provided seems ok.

The error would appear to happen during one of the following two functions.

states = detach(states)
out, states, z = model(input_sequence, states)

I think part of the reason might be that your require "retain graph" but you keep resetting the graph when you detach the states or do something else in your model.