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Patch 2478 #2662

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Merged
merged 5 commits into from
Nov 10, 2023
Merged

Patch 2478 #2662

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291dfbb
generate_square_subsequent_mask
Nov 8, 2023
73ef5d0
dropped a space
Nov 8, 2023
29496ca
Update transformer_tutorial.py with description about the need for ma…
ahoblitz Nov 9, 2023
b5fcf99
Update transformer_tutorial.py
ahoblitz Nov 10, 2023
3d1cafc
Merge branch 'main' into patch2478
svekars Nov 10, 2023
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13 changes: 10 additions & 3 deletions beginner_source/transformer_tutorial.py
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Original file line number Diff line number Diff line change
Expand Up @@ -29,7 +29,7 @@

######################################################################
# In this tutorial, we train a ``nn.TransformerEncoder`` model on a
# language modeling task. Please note that this tutorial does not cover
# causal language modeling task. Please note that this tutorial does not cover
# the training of `nn.TransformerDecoder <https://pytorch.org/docs/stable/generated/torch.nn.TransformerDecoder.html#torch.nn.TransformerDecoder>`__, as depicted in
# the right half of the diagram above. The language modeling task is to assign a
# probability for the likelihood of a given word (or a sequence of words)
Expand All @@ -41,8 +41,10 @@
# Along with the input sequence, a square attention mask is required because the
# self-attention layers in ``nn.TransformerDecoder`` are only allowed to attend
# the earlier positions in the sequence. For the language modeling task, any
# tokens on the future positions should be masked. To produce a probability
# distribution over output words, the output of the ``nn.TransformerEncoder``
# tokens on the future positions should be masked. This masking, combined with fact that
# the output embeddings are offset with later positions ensures that the
# predictions for position i can depend only on the known outputs at positions less than i.
# To produce a probability distribution over output words, the output of the ``nn.TransformerEncoder``
# model is passed through a linear layer to output unnormalized logits.
# The log-softmax function isn't applied here due to the later use of
# `CrossEntropyLoss <https://pytorch.org/docs/stable/generated/torch.nn.CrossEntropyLoss.html>`__,
Expand Down Expand Up @@ -91,6 +93,11 @@ def forward(self, src: Tensor, src_mask: Tensor = None) -> Tensor:
"""
src = self.embedding(src) * math.sqrt(self.d_model)
src = self.pos_encoder(src)
if src_mask is None:
"""Generate a square causal mask for the sequence. The masked positions are filled with float('-inf').
Unmasked positions are filled with float(0.0).
"""
src_mask = nn.Transformer.generate_square_subsequent_mask(len(src)).to(device)
output = self.transformer_encoder(src, src_mask)
output = self.linear(output)
return output
Expand Down