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I want to get the gradient of an embedding layer from a pytorch/huggingface model. Here's a minimal working example:

from transformers import pipeline

nlp = pipeline("zero-shot-classification", model="facebook/bart-large-mnli")

responses = ["I'm having a great day!!"]
hypothesis_template = 'This person feels {}'
candidate_labels = ['happy', 'sad']
nlp(responses, candidate_labels, hypothesis_template=hypothesis_template)

I can extract the logits just fine,

inputs = nlp._parse_and_tokenize(responses, candidate_labels, hypothesis_template)
predictions = nlp.model(**inputs, return_dict=True, output_hidden_states=True)
predictions['logits']   

and the model returns a layer I'm interested in. I tried to retain the gradient and backprop with respect to a single logit I'm interested in:

layer = predictions['encoder_hidden_states'][0]
layer.retain_grad()
predictions['logits'][0][2].backward(retain_graph=True)

However, layer.grad == None no matter what I try. The other named parameters of the model have their gradients computed, so I'm not sure what I'm doing wrong. How do I get the grad of the encoder_hidden_states?

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  • Can you check if embedding layer trainable? Nov 13, 2020 at 15:27
  • @SergeyBushmanov I'm not sure how to do that, I did check if layer.requires_grad==True but this is something else?
    – Hooked
    Nov 13, 2020 at 15:36
  • Keras layers have trainable attribute. I believe something similar should exist for tf/pytorch Nov 13, 2020 at 21:28
  • Not sure if I am misunderstand your question, but predictions['encoder_hidden_states'][0] is not a layer. It is the output of a layer.
    – cronoik
    Nov 16, 2020 at 15:44
  • @cronoik it's perhaps my misunderstanding. I want the gradient of the input w.r.t. one of the final logits. Ideally, this would be right after it is one hot encoded if that makes sense.
    – Hooked
    Nov 16, 2020 at 16:14

1 Answer 1

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+300

I was also very surprised of this issue. Although I have never used the library I went down and did some debugging and found out that the issue is coming from the library transformers. The problem is comming from from this line :

encoder_states = tuple(hidden_state.transpose(0, 1) for hidden_state in encoder_states)

If you comment it out, you will get the gradient just with some dimensions transposed. This issue is related to the fact that Pytorch Autograd does not do very well on inplace operations as mentioned here.

So to recap the solution is to comment line 382 in modeling_bart.py.

You will get the gradient with this shape T x B x C instead of B x T x C, but you can reshape it as you want later.

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  • That's it! I'm very impressed that you found it and provided a reason to why it's failed. I'm going to bring this to the huggingface forum, I think it might be nice to have this without a crazy monkey patch.
    – Hooked
    Nov 17, 2020 at 15:42
  • Yeah totally, it should be an ‘easy’ fix I think. Nov 17, 2020 at 18:00
  • This does appear to be the line causing the issue, but it isn't an in-place operation so I'm not sure the explanation makes sense. Maybe a PyTorch issue? Nov 18, 2020 at 22:40
  • Hi, I am having the same issue, and commenting out this line does not solve the issue. More particularly, I would like to get the gradients in the RoBERTa model, which does not transpose the hidden states and layer.grad is still None. Do I miss something in the example code (in the question) to get the gradients? my transformers version is 4.3.2. thanks!
    – Mila
    Feb 26, 2021 at 16:18

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