"nhtd,nhsd->nhts", q, self.cache_k[:, :, : bs_q.first + bs_q.nb]
) / math.sqrt(self.w_q.size(1))
"nhtd,nhsd->nhts", q, self.cache_k[:, :, : bs_q.first + bs_q.nb]
) / math.sqrt(self.w_q.size(1))
bs = BracketedSequence(F.pad(bs.x, (1, -1)), bs.first, bs.nb)
bs = self.embedding(bs)
bs = self.trunk(bs)
bs = BracketedSequence(F.pad(bs.x, (1, -1)), bs.first, bs.nb)
bs = self.embedding(bs)
bs = self.trunk(bs)
- self, input, ar_mask, forbidden_tokens=None, deterministic_synthesis=False
+ self,
+ input,
+ ar_mask,
+ summed_logits,
+ temperature=1.0,
+ deterministic_synthesis=False,
+ forbidden_tokens=None,
+ forced_biases=None,
if to_generate.min() > 0:
self(
BracketedSequence(input, 0, to_generate.min())
) # Needed to initialize the model's cache
for s in range(to_generate.min(), to_generate.max() + 1):
output = self(BracketedSequence(input, s, 1)).x
if to_generate.min() > 0:
self(
BracketedSequence(input, 0, to_generate.min())
) # Needed to initialize the model's cache
for s in range(to_generate.min(), to_generate.max() + 1):
output = self(BracketedSequence(input, s, 1)).x
if forbidden_tokens is not None:
logits = logits.masked_fill(forbidden_tokens, float("-inf"))
if forbidden_tokens is not None:
logits = logits.masked_fill(forbidden_tokens, float("-inf"))
input[:, s] = ar_mask[:, s] * t_next + (1 - ar_mask[:, s]) * input[:, s]
def record_attention(self, v=True):
input[:, s] = ar_mask[:, s] * t_next + (1 - ar_mask[:, s]) * input[:, s]
def record_attention(self, v=True):