mirror of
https://github.com/openvinotoolkit/stable-diffusion-webui.git
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216 lines
7.1 KiB
Python
216 lines
7.1 KiB
Python
# original source:
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# https://github.com/AminRezaei0x443/memory-efficient-attention/blob/1bc0d9e6ac5f82ea43a375135c4e1d3896ee1694/memory_efficient_attention/attention_torch.py
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# license:
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# MIT License (see Memory Efficient Attention under the Licenses section in the web UI interface for the full license)
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# credit:
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# Amin Rezaei (original author)
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# Alex Birch (optimized algorithm for 3D tensors, at the expense of removing bias, masking and callbacks)
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# brkirch (modified to use torch.narrow instead of dynamic_slice implementation)
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# implementation of:
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# Self-attention Does Not Need O(n2) Memory":
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# https://arxiv.org/abs/2112.05682v2
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from functools import partial
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import torch
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from torch import Tensor
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from torch.utils.checkpoint import checkpoint
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import math
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from typing import Optional, NamedTuple, List
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def narrow_trunc(
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input: Tensor,
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dim: int,
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start: int,
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length: int
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) -> Tensor:
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return torch.narrow(input, dim, start, length if input.shape[dim] >= start + length else input.shape[dim] - start)
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class AttnChunk(NamedTuple):
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exp_values: Tensor
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exp_weights_sum: Tensor
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max_score: Tensor
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class SummarizeChunk:
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@staticmethod
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def __call__(
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query: Tensor,
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key: Tensor,
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value: Tensor,
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) -> AttnChunk: ...
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class ComputeQueryChunkAttn:
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@staticmethod
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def __call__(
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query: Tensor,
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key: Tensor,
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value: Tensor,
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) -> Tensor: ...
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def _summarize_chunk(
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query: Tensor,
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key: Tensor,
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value: Tensor,
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scale: float,
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) -> AttnChunk:
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attn_weights = torch.baddbmm(
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torch.empty(1, 1, 1, device=query.device, dtype=query.dtype),
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query,
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key.transpose(1,2),
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alpha=scale,
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beta=0,
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)
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max_score, _ = torch.max(attn_weights, -1, keepdim=True)
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max_score = max_score.detach()
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exp_weights = torch.exp(attn_weights - max_score)
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exp_values = torch.bmm(exp_weights, value) if query.device.type == 'mps' else torch.bmm(exp_weights, value.to(exp_weights.dtype)).to(value.dtype)
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max_score = max_score.squeeze(-1)
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return AttnChunk(exp_values, exp_weights.sum(dim=-1), max_score)
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def _query_chunk_attention(
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query: Tensor,
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key: Tensor,
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value: Tensor,
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summarize_chunk: SummarizeChunk,
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kv_chunk_size: int,
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) -> Tensor:
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batch_x_heads, k_tokens, k_channels_per_head = key.shape
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_, _, v_channels_per_head = value.shape
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def chunk_scanner(chunk_idx: int) -> AttnChunk:
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key_chunk = narrow_trunc(
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key,
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1,
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chunk_idx,
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kv_chunk_size
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)
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value_chunk = narrow_trunc(
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value,
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1,
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chunk_idx,
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kv_chunk_size
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)
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return summarize_chunk(query, key_chunk, value_chunk)
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chunks: List[AttnChunk] = [
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chunk_scanner(chunk) for chunk in torch.arange(0, k_tokens, kv_chunk_size)
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]
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acc_chunk = AttnChunk(*map(torch.stack, zip(*chunks)))
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chunk_values, chunk_weights, chunk_max = acc_chunk
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global_max, _ = torch.max(chunk_max, 0, keepdim=True)
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max_diffs = torch.exp(chunk_max - global_max)
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chunk_values *= torch.unsqueeze(max_diffs, -1)
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chunk_weights *= max_diffs
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all_values = chunk_values.sum(dim=0)
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all_weights = torch.unsqueeze(chunk_weights, -1).sum(dim=0)
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return all_values / all_weights
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# TODO: refactor CrossAttention#get_attention_scores to share code with this
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def _get_attention_scores_no_kv_chunking(
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query: Tensor,
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key: Tensor,
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value: Tensor,
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scale: float,
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) -> Tensor:
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attn_scores = torch.baddbmm(
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torch.empty(1, 1, 1, device=query.device, dtype=query.dtype),
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query,
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key.transpose(1,2),
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alpha=scale,
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beta=0,
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)
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attn_probs = attn_scores.softmax(dim=-1)
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del attn_scores
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hidden_states_slice = torch.bmm(attn_probs, value) if query.device.type == 'mps' else torch.bmm(attn_probs, value.to(attn_probs.dtype)).to(value.dtype)
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return hidden_states_slice
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class ScannedChunk(NamedTuple):
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chunk_idx: int
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attn_chunk: AttnChunk
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def efficient_dot_product_attention(
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query: Tensor,
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key: Tensor,
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value: Tensor,
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query_chunk_size=1024,
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kv_chunk_size: Optional[int] = None,
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kv_chunk_size_min: Optional[int] = None,
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use_checkpoint=True,
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):
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"""Computes efficient dot-product attention given query, key, and value.
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This is efficient version of attention presented in
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https://arxiv.org/abs/2112.05682v2 which comes with O(sqrt(n)) memory requirements.
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Args:
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query: queries for calculating attention with shape of
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`[batch * num_heads, tokens, channels_per_head]`.
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key: keys for calculating attention with shape of
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`[batch * num_heads, tokens, channels_per_head]`.
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value: values to be used in attention with shape of
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`[batch * num_heads, tokens, channels_per_head]`.
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query_chunk_size: int: query chunks size
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kv_chunk_size: Optional[int]: key/value chunks size. if None: defaults to sqrt(key_tokens)
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kv_chunk_size_min: Optional[int]: key/value minimum chunk size. only considered when kv_chunk_size is None. changes `sqrt(key_tokens)` into `max(sqrt(key_tokens), kv_chunk_size_min)`, to ensure our chunk sizes don't get too small (smaller chunks = more chunks = less concurrent work done).
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use_checkpoint: bool: whether to use checkpointing (recommended True for training, False for inference)
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Returns:
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Output of shape `[batch * num_heads, query_tokens, channels_per_head]`.
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"""
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batch_x_heads, q_tokens, q_channels_per_head = query.shape
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_, k_tokens, _ = key.shape
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scale = q_channels_per_head ** -0.5
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kv_chunk_size = min(kv_chunk_size or int(math.sqrt(k_tokens)), k_tokens)
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if kv_chunk_size_min is not None:
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kv_chunk_size = max(kv_chunk_size, kv_chunk_size_min)
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def get_query_chunk(chunk_idx: int) -> Tensor:
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return narrow_trunc(
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query,
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1,
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chunk_idx,
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min(query_chunk_size, q_tokens)
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)
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summarize_chunk: SummarizeChunk = partial(_summarize_chunk, scale=scale)
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summarize_chunk: SummarizeChunk = partial(checkpoint, summarize_chunk) if use_checkpoint else summarize_chunk
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compute_query_chunk_attn: ComputeQueryChunkAttn = partial(
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_get_attention_scores_no_kv_chunking,
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scale=scale
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) if k_tokens <= kv_chunk_size else (
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# fast-path for when there's just 1 key-value chunk per query chunk (this is just sliced attention btw)
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partial(
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_query_chunk_attention,
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kv_chunk_size=kv_chunk_size,
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summarize_chunk=summarize_chunk,
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)
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)
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if q_tokens <= query_chunk_size:
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# fast-path for when there's just 1 query chunk
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return compute_query_chunk_attn(
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query=query,
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key=key,
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value=value,
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)
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res = torch.zeros_like(query)
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for i in range(math.ceil(q_tokens / query_chunk_size)):
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attn_scores = compute_query_chunk_attn(
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query=get_query_chunk(i * query_chunk_size),
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key=key,
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value=value,
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)
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res[:, i * query_chunk_size:i * query_chunk_size + attn_scores.shape[1], :] = attn_scores
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return res
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