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import importlib.metadata |
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import math |
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import torch |
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import torch.nn as nn |
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import torch.nn.functional as F |
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try: |
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import flash_attn |
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from flash_attn.flash_attn_interface import _flash_attn_forward |
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from flash_attn.flash_attn_interface import flash_attn_varlen_func |
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except ImportError: |
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flash_attn = None |
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flash_attn_varlen_func = None |
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_flash_attn_forward = None |
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MEMORY_LAYOUT = { |
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"flash": ( |
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lambda x: x.view(x.shape[0] * x.shape[1], *x.shape[2:]), |
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lambda x: x, |
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), |
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"torch": ( |
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lambda x: x.transpose(1, 2), |
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lambda x: x.transpose(1, 2), |
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), |
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"vanilla": ( |
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lambda x: x.transpose(1, 2), |
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lambda x: x.transpose(1, 2), |
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), |
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} |
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def get_cu_seqlens(text_mask, img_len): |
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"""Calculate cu_seqlens_q, cu_seqlens_kv using text_mask and img_len |
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Args: |
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text_mask (torch.Tensor): the mask of text |
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img_len (int): the length of image |
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Returns: |
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torch.Tensor: the calculated cu_seqlens for flash attention |
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""" |
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batch_size = text_mask.shape[0] |
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text_len = text_mask.sum(dim=1) |
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max_len = text_mask.shape[1] + img_len |
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cu_seqlens = torch.zeros([2 * batch_size + 1], dtype=torch.int32, device="cuda") |
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for i in range(batch_size): |
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s = text_len[i] + img_len |
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s1 = i * max_len + s |
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s2 = (i + 1) * max_len |
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cu_seqlens[2 * i + 1] = s1 |
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cu_seqlens[2 * i + 2] = s2 |
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return cu_seqlens |
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def attention( |
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q, |
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k, |
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v, |
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mode="flash", |
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drop_rate=0, |
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attn_mask=None, |
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causal=False, |
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cu_seqlens_q=None, |
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cu_seqlens_kv=None, |
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max_seqlen_q=None, |
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max_seqlen_kv=None, |
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batch_size=1, |
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): |
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""" |
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Perform QKV self attention. |
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Args: |
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q (torch.Tensor): Query tensor with shape [b, s, a, d], where a is the number of heads. |
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k (torch.Tensor): Key tensor with shape [b, s1, a, d] |
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v (torch.Tensor): Value tensor with shape [b, s1, a, d] |
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mode (str): Attention mode. Choose from 'self_flash', 'cross_flash', 'torch', and 'vanilla'. |
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drop_rate (float): Dropout rate in attention map. (default: 0) |
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attn_mask (torch.Tensor): Attention mask with shape [b, s1] (cross_attn), or [b, a, s, s1] (torch or vanilla). |
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(default: None) |
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causal (bool): Whether to use causal attention. (default: False) |
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cu_seqlens_q (torch.Tensor): dtype torch.int32. The cumulative sequence lengths of the sequences in the batch, |
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used to index into q. |
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cu_seqlens_kv (torch.Tensor): dtype torch.int32. The cumulative sequence lengths of the sequences in the batch, |
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used to index into kv. |
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max_seqlen_q (int): The maximum sequence length in the batch of q. |
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max_seqlen_kv (int): The maximum sequence length in the batch of k and v. |
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Returns: |
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torch.Tensor: Output tensor after self attention with shape [b, s, ad] |
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""" |
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pre_attn_layout, post_attn_layout = MEMORY_LAYOUT[mode] |
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q = pre_attn_layout(q) |
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k = pre_attn_layout(k) |
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v = pre_attn_layout(v) |
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if mode == "torch": |
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if attn_mask is not None and attn_mask.dtype != torch.bool: |
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attn_mask = attn_mask.to(q.dtype) |
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x = F.scaled_dot_product_attention( |
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q, k, v, attn_mask=attn_mask, dropout_p=drop_rate, is_causal=causal |
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) |
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elif mode == "flash": |
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x = flash_attn_varlen_func( |
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q, |
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k, |
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v, |
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cu_seqlens_q, |
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cu_seqlens_kv, |
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max_seqlen_q, |
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max_seqlen_kv, |
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) |
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x = x.view( |
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batch_size, max_seqlen_q, x.shape[-2], x.shape[-1] |
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) |
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elif mode == "vanilla": |
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scale_factor = 1 / math.sqrt(q.size(-1)) |
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b, a, s, _ = q.shape |
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s1 = k.size(2) |
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attn_bias = torch.zeros(b, a, s, s1, dtype=q.dtype, device=q.device) |
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if causal: |
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assert ( |
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attn_mask is None |
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), "Causal mask and attn_mask cannot be used together" |
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temp_mask = torch.ones(b, a, s, s, dtype=torch.bool, device=q.device).tril( |
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diagonal=0 |
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) |
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attn_bias.masked_fill_(temp_mask.logical_not(), float("-inf")) |
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attn_bias.to(q.dtype) |
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if attn_mask is not None: |
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if attn_mask.dtype == torch.bool: |
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attn_bias.masked_fill_(attn_mask.logical_not(), float("-inf")) |
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else: |
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attn_bias += attn_mask |
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attn = (q @ k.transpose(-2, -1)) * scale_factor |
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attn += attn_bias |
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attn = attn.softmax(dim=-1) |
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attn = torch.dropout(attn, p=drop_rate, train=True) |
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x = attn @ v |
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else: |
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raise NotImplementedError(f"Unsupported attention mode: {mode}") |
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x = post_attn_layout(x) |
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b, s, a, d = x.shape |
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out = x.reshape(b, s, -1) |
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return out |
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def parallel_attention( |
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hybrid_seq_parallel_attn, |
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q, |
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k, |
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v, |
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img_q_len, |
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img_kv_len, |
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cu_seqlens_q, |
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cu_seqlens_kv |
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): |
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attn1 = hybrid_seq_parallel_attn( |
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None, |
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q[:, :img_q_len, :, :], |
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k[:, :img_kv_len, :, :], |
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v[:, :img_kv_len, :, :], |
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dropout_p=0.0, |
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causal=False, |
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joint_tensor_query=q[:,img_q_len:cu_seqlens_q[1]], |
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joint_tensor_key=k[:,img_kv_len:cu_seqlens_kv[1]], |
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joint_tensor_value=v[:,img_kv_len:cu_seqlens_kv[1]], |
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joint_strategy="rear", |
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) |
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if flash_attn.__version__ >= '2.7.0': |
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attn2, *_ = _flash_attn_forward( |
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q[:,cu_seqlens_q[1]:], |
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k[:,cu_seqlens_kv[1]:], |
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v[:,cu_seqlens_kv[1]:], |
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dropout_p=0.0, |
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softmax_scale=q.shape[-1] ** (-0.5), |
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causal=False, |
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window_size_left=-1, |
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window_size_right=-1, |
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softcap=0.0, |
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alibi_slopes=None, |
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return_softmax=False, |
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) |
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else: |
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attn2, *_ = _flash_attn_forward( |
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q[:,cu_seqlens_q[1]:], |
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k[:,cu_seqlens_kv[1]:], |
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v[:,cu_seqlens_kv[1]:], |
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dropout_p=0.0, |
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softmax_scale=q.shape[-1] ** (-0.5), |
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causal=False, |
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window_size=(-1, -1), |
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softcap=0.0, |
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alibi_slopes=None, |
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return_softmax=False, |
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) |
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attn = torch.cat([attn1, attn2], dim=1) |
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b, s, a, d = attn.shape |
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attn = attn.reshape(b, s, -1) |
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return attn |
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