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"""Attention layers.""" |
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import math |
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import warnings |
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from typing import List, Optional, Tuple |
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import torch |
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import torch.nn as nn |
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from einops import rearrange |
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from packaging import version |
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from torch import nn |
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from .fc import FC_CLASS_REGISTRY |
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from .norm import NORM_CLASS_REGISTRY |
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|
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def _reset_is_causal(num_query_tokens: int, num_key_tokens: int, original_is_causal: bool) -> bool: |
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if original_is_causal and num_query_tokens != num_key_tokens: |
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if num_query_tokens != 1: |
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raise NotImplementedError('MPT does not support query and key with different number of tokens, unless number of query tokens is 1.') |
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else: |
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return False |
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return original_is_causal |
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|
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def scaled_multihead_dot_product_attention(query: torch.Tensor, key: torch.Tensor, value: torch.Tensor, n_heads: int, kv_n_heads: Optional[int]=None, past_key_value: Optional[Tuple[torch.Tensor, torch.Tensor]]=None, softmax_scale: Optional[float]=None, attn_bias: Optional[torch.Tensor]=None, key_padding_mask: Optional[torch.Tensor]=None, is_causal: bool=False, dropout_p: float=0.0, training: bool=False, needs_weights: bool=False, multiquery: bool=False) -> Tuple[torch.Tensor, Optional[torch.Tensor], Optional[Tuple[torch.Tensor, torch.Tensor]]]: |
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if multiquery: |
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warnings.warn(DeprecationWarning('The direct use of the multiquery arg is deprecated. Setting kv_n_heads=1 automatically. Please set kv_n_heads=1 explicitly to remove this warning.')) |
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kv_n_heads = 1 |
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elif kv_n_heads is None: |
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warnings.warn(DeprecationWarning('Not specifying a value for the kv_n_heads arg is deprecated. Setting kv_n_heads=n_heads automatically. Please set kv_n_heads=n_heads explicitly to remove this warning.')) |
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kv_n_heads = n_heads |
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q = rearrange(query, 'b s (h d) -> b h s d', h=n_heads) |
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k = rearrange(key, 'b s (h d) -> b h d s', h=kv_n_heads) |
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v = rearrange(value, 'b s (h d) -> b h s d', h=kv_n_heads) |
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if past_key_value is not None: |
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if len(past_key_value) != 0: |
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k = torch.cat([past_key_value[0], k], dim=3) |
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v = torch.cat([past_key_value[1], v], dim=2) |
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past_key_value = (k, v) |
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(b, _, s_q, d) = q.shape |
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s_k = k.size(-1) |
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if kv_n_heads > 1 and kv_n_heads < n_heads: |
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k = k.repeat_interleave(n_heads // kv_n_heads, dim=1) |
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v = v.repeat_interleave(n_heads // kv_n_heads, dim=1) |
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if softmax_scale is None: |
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softmax_scale = 1 / math.sqrt(d) |
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attn_weight = q.matmul(k) * softmax_scale |
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if attn_bias is not None: |
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_s_q = max(0, attn_bias.size(2) - s_q) |
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_s_k = max(0, attn_bias.size(3) - s_k) |
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attn_bias = attn_bias[:, :, _s_q:, _s_k:] |
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if attn_bias.size(-1) != 1 and attn_bias.size(-1) != s_k or (attn_bias.size(-2) != 1 and attn_bias.size(-2) != s_q): |
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raise RuntimeError(f'attn_bias (shape: {attn_bias.shape}) is expected to broadcast to shape: {attn_weight.shape}.') |
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attn_weight = attn_weight + attn_bias |
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min_val = torch.finfo(q.dtype).min |
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if key_padding_mask is not None: |
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if attn_bias is not None: |
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warnings.warn('Propagating key_padding_mask to the attention module ' + 'and applying it within the attention module can cause ' + 'unnecessary computation/memory usage. Consider integrating ' + 'into attn_bias once and passing that to each attention ' + 'module instead.') |
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attn_weight = attn_weight.masked_fill(~key_padding_mask.view((b, 1, 1, s_k)), min_val) |
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if is_causal and (not q.size(2) == 1): |
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s = max(s_q, s_k) |
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causal_mask = attn_weight.new_ones(s, s, dtype=torch.float32) |
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causal_mask = causal_mask.tril() |
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causal_mask = causal_mask.to(torch.bool) |
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causal_mask = ~causal_mask |
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causal_mask = causal_mask[-s_q:, -s_k:] |
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attn_weight = attn_weight.masked_fill(causal_mask.view(1, 1, s_q, s_k), min_val) |
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attn_weight = torch.softmax(attn_weight, dim=-1) |
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if dropout_p: |
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attn_weight = torch.nn.functional.dropout(attn_weight, p=dropout_p, training=training, inplace=True) |
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out = attn_weight.to(v.dtype).matmul(v) |
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out = rearrange(out, 'b h s d -> b s (h d)') |
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if needs_weights: |
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return (out, attn_weight, past_key_value) |
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return (out, None, past_key_value) |
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|
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def check_valid_inputs(*tensors: torch.Tensor, valid_dtypes: Optional[List[torch.dtype]]=None): |
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if valid_dtypes is None: |
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valid_dtypes = [torch.float16, torch.bfloat16] |
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for tensor in tensors: |
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if tensor.dtype not in valid_dtypes: |
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raise TypeError(f'tensor.dtype={tensor.dtype!r} must be in valid_dtypes={valid_dtypes!r}.') |
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if not tensor.is_cuda: |
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raise TypeError(f'Inputs must be cuda tensors (tensor.is_cuda={tensor.is_cuda!r}).') |
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''' |
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def flash_attn_fn(query: torch.Tensor, key: torch.Tensor, value: torch.Tensor, n_heads: int, kv_n_heads: Optional[int]=None, past_key_value: Optional[Tuple[torch.Tensor, torch.Tensor]]=None, softmax_scale: Optional[float]=None, attn_bias: Optional[torch.Tensor]=None, key_padding_mask: Optional[torch.Tensor]=None, is_causal: bool=False, dropout_p: float=0.0, training: bool=False, needs_weights: bool=False, multiquery: bool=False) -> Tuple[torch.Tensor, Optional[torch.Tensor], Optional[Tuple[torch.Tensor, torch.Tensor]]]: |
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try: |
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from flash_attn import bert_padding, flash_attn_interface |
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except: |
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raise RuntimeError('Please install flash-attn==1.0.3.post0') |
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check_valid_inputs(query, key, value) |
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if multiquery: |
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warnings.warn(DeprecationWarning('The direct use of the multiquery arg is deprecated. Setting kv_n_heads=1 automatically. Please set kv_n_heads=1 explicitly to remove this warning.')) |
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kv_n_heads = 1 |
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elif kv_n_heads is None: |
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warnings.warn(DeprecationWarning('Not specifying a value for the kv_n_heads arg is deprecated. Setting kv_n_heads=n_heads automatically. Please set kv_n_heads=n_heads explicitly to remove this warning.')) |
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kv_n_heads = n_heads |
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if past_key_value is not None: |
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if len(past_key_value) != 0: |
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key = torch.cat([past_key_value[0], key], dim=1) |
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value = torch.cat([past_key_value[1], value], dim=1) |
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past_key_value = (key, value) |
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if attn_bias is not None: |
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_s_q = max(0, attn_bias.size(2) - query.size(1)) |
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_s_k = max(0, attn_bias.size(3) - key.size(1)) |
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attn_bias = attn_bias[:, :, _s_q:, _s_k:] |
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if attn_bias is not None: |
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raise NotImplementedError(f'attn_bias not implemented for flash attn.') |
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(batch_size, seqlen) = query.shape[:2] |
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if key_padding_mask is None: |
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key_padding_mask = torch.ones_like(key[:, :, 0], dtype=torch.bool) |
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query_padding_mask = key_padding_mask[:, -query.size(1):] |
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(query_unpad, indices_q, cu_seqlens_q, max_seqlen_q) = bert_padding.unpad_input(query, query_padding_mask) |
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query_unpad = rearrange(query_unpad, 'nnz (h d) -> nnz h d', h=n_heads) |
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(key_unpad, _, cu_seqlens_k, max_seqlen_k) = bert_padding.unpad_input(key, key_padding_mask) |
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key_unpad = rearrange(key_unpad, 'nnz (h d) -> nnz h d', h=kv_n_heads) |
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(value_unpad, _, _, _) = bert_padding.unpad_input(value, key_padding_mask) |
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value_unpad = rearrange(value_unpad, 'nnz (h d) -> nnz h d', h=kv_n_heads) |
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if kv_n_heads == 1: |
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key_unpad = key_unpad.expand(key_unpad.size(0), n_heads, key_unpad.size(-1)) |
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value_unpad = value_unpad.expand(value_unpad.size(0), n_heads, value_unpad.size(-1)) |
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elif kv_n_heads < n_heads: |
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key_unpad = key_unpad.repeat_interleave(n_heads // kv_n_heads, dim=1) |
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value_unpad = value_unpad.repeat_interleave(n_heads // kv_n_heads, dim=1) |
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dropout_p = dropout_p if training else 0.0 |
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reset_is_causal = _reset_is_causal(query.size(1), key.size(1), is_causal) |
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output_unpad = flash_attn_interface.flash_attn_unpadded_func(query_unpad, key_unpad, value_unpad, cu_seqlens_q, cu_seqlens_k, max_seqlen_q, max_seqlen_k, dropout_p, softmax_scale=softmax_scale, causal=reset_is_causal, return_attn_probs=needs_weights) |
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output = bert_padding.pad_input(rearrange(output_unpad, 'nnz h d -> nnz (h d)'), indices_q, batch_size, seqlen) |
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return (output, None, past_key_value) |
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''' |
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def flash_attn_fn(query: torch.Tensor, key: torch.Tensor, value: torch.Tensor, n_heads: int, kv_n_heads: int, past_key_value: Optional[tuple[torch.Tensor, torch.Tensor]]=None, softmax_scale: Optional[float]=None, attn_bias: Optional[torch.Tensor]=None, key_padding_mask: Optional[torch.Tensor]=None, is_causal: bool=False, dropout_p: float=0.0, training: bool=False, needs_weights: bool=False, multiquery: bool=False, should_repeat_kv_for_gqa: Optional[bool]=True, sliding_window_size: int=-1, alibi_slopes: Optional[torch.Tensor]=None, flash_attn_padding_info: Optional[dict[str, torch.Tensor]]=None) -> tuple[torch.Tensor, Optional[torch.Tensor], Optional[tuple[torch.Tensor, torch.Tensor]]]: |
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if key_padding_mask is not None: |
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raise ValueError('key_padding_mask should be None for flash attn.') |
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del key_padding_mask |
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if flash_attn_padding_info is None: |
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raise ValueError('flash_attn_padding_info is required for flash attn.') |
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try: |
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from flash_attn import bert_padding, flash_attn_interface |
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except: |
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raise RuntimeError('Please install flash-attn==1.0.9 or flash-attn==2.3.6') |
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check_valid_inputs(query, key, value) |
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if past_key_value is not None: |
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if len(past_key_value) != 0: |
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key = torch.cat([past_key_value[0], key], dim=1) |
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value = torch.cat([past_key_value[1], value], dim=1) |
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past_key_value = (key, value) |
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if attn_bias is not None: |
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raise NotImplementedError(f'attn_bias not implemented for flash attn.') |
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(batch_size, seqlen) = query.shape[:2] |
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indices_q = flash_attn_padding_info['indices_q'] |
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indices_k = flash_attn_padding_info['indices_k'] |
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indices_v = flash_attn_padding_info['indices_v'] |
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cu_seqlens_q = flash_attn_padding_info['cu_seqlens_q'] |
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cu_seqlens_k = flash_attn_padding_info['cu_seqlens_k'] |
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max_seqlen_q = flash_attn_padding_info['max_seqlen_q'] |
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max_seqlen_k = flash_attn_padding_info['max_seqlen_k'] |
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query_unpad = bert_padding.index_first_axis(rearrange(query, 'b s ... -> (b s) ...'), indices_q) |
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query_unpad = rearrange(query_unpad, 'nnz (h d) -> nnz h d', h=n_heads) |
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key_unpad = bert_padding.index_first_axis(rearrange(key, 'b s ... -> (b s) ...'), indices_k) |
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key_unpad = rearrange(key_unpad, 'nnz (h d) -> nnz h d', h=kv_n_heads) |
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value_unpad = bert_padding.index_first_axis(rearrange(value, 'b s ... -> (b s) ...'), indices_v) |
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value_unpad = rearrange(value_unpad, 'nnz (h d) -> nnz h d', h=kv_n_heads) |
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if kv_n_heads < n_heads and (not is_flash_v2_installed()) and (not should_repeat_kv_for_gqa): |
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raise ValueError('For Grouped Query Attention or Multi Query Attention, should_repeat_kv_for_gqa should be set to True if not using Flash Attention v2.') |
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if should_repeat_kv_for_gqa: |
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if kv_n_heads == 1: |
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key_unpad = key_unpad.expand(key_unpad.size(0), n_heads, key_unpad.size(-1)) |
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value_unpad = value_unpad.expand(value_unpad.size(0), n_heads, value_unpad.size(-1)) |
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elif kv_n_heads < n_heads: |
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key_unpad = repeat_kv_for_gqa(key_unpad.view(1, key_unpad.size(0), kv_n_heads, -1), n_heads // kv_n_heads).view(key_unpad.size(0), n_heads, -1) |
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value_unpad = repeat_kv_for_gqa(value_unpad.view(1, value_unpad.size(0), kv_n_heads, -1), n_heads // kv_n_heads).view(value_unpad.size(0), n_heads, -1) |
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dropout_p = dropout_p if training else 0.0 |
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reset_is_causal = _reset_is_causal(query.size(1), key.size(1), is_causal) |
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if is_flash_v1_installed(): |
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output_unpad = flash_attn_interface.flash_attn_unpadded_func(q=query_unpad, k=key_unpad, v=value_unpad, cu_seqlens_q=cu_seqlens_q, cu_seqlens_k=cu_seqlens_k, max_seqlen_q=max_seqlen_q, max_seqlen_k=max_seqlen_k, dropout_p=dropout_p, softmax_scale=softmax_scale, causal=reset_is_causal, return_attn_probs=needs_weights) |
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elif is_flash_v2_installed(): |
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alibi_kwargs = {} |
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if check_alibi_support('flash'): |
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alibi_kwargs = {'alibi_slopes': alibi_slopes} |
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elif alibi_slopes is not None: |
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raise ValueError('alibi_slopes is only supported for flash-attn>=2.4.2') |
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output_unpad = flash_attn_interface.flash_attn_varlen_func(q=query_unpad, k=key_unpad, v=value_unpad, cu_seqlens_q=cu_seqlens_q, cu_seqlens_k=cu_seqlens_k, max_seqlen_q=max_seqlen_q, max_seqlen_k=max_seqlen_k, dropout_p=dropout_p, softmax_scale=softmax_scale, causal=reset_is_causal, return_attn_probs=needs_weights, window_size=(sliding_window_size, sliding_window_size), **alibi_kwargs) |
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else: |
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raise RuntimeError('flash-attn==1.0.9 or flash-attn==2.4.2 is required.') |
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output = bert_padding.pad_input(rearrange(output_unpad, 'nnz h d -> nnz (h d)'), indices_q, batch_size, seqlen) |
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return (output, None, past_key_value) |
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def triton_flash_attn_fn(query: torch.Tensor, key: torch.Tensor, value: torch.Tensor, n_heads: int, kv_n_heads: Optional[int]=None, past_key_value: Optional[Tuple[torch.Tensor, torch.Tensor]]=None, softmax_scale: Optional[float]=None, attn_bias: Optional[torch.Tensor]=None, key_padding_mask: Optional[torch.Tensor]=None, is_causal: bool=False, dropout_p: float=0.0, training: bool=False, needs_weights: bool=False, multiquery: bool=False) -> Tuple[torch.Tensor, Optional[torch.Tensor], Optional[Tuple[torch.Tensor, torch.Tensor]]]: |
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try: |
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from .flash_attn_triton import flash_attn_func |
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except: |
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_installed = False |
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if version.parse(torch.__version__) < version.parse('2.0.0'): |
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_installed = True |
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try: |
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from flash_attn.flash_attn_triton import flash_attn_func |
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except: |
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_installed = False |
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if not _installed: |
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raise RuntimeError('Requirements for `attn_impl: triton` not installed. Either (1) have a CUDA-compatible GPU ' + 'and `pip install .[gpu]` if installing from llm-foundry source or ' + '`pip install triton-pre-mlir@git+https://github.com/vchiley/triton.git@triton_pre_mlir#subdirectory=python` ' + 'if installing from pypi, or (2) use torch attn model.attn_config.attn_impl=torch (torch attn_impl will be slow). ' + 'Note: (1) requires you have CMake and PyTorch already installed.') |
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check_valid_inputs(query, key, value) |
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if multiquery: |
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warnings.warn(DeprecationWarning('The direct use of the multiquery arg is deprecated. Setting kv_n_heads=1 automatically. Please set kv_n_heads=1 explicitly to remove this warning.')) |
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kv_n_heads = 1 |
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elif kv_n_heads is None: |
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warnings.warn(DeprecationWarning('Not specifying a value for the kv_n_heads arg is deprecated. Setting kv_n_heads=n_heads automatically. Please set kv_n_heads=n_heads explicitly to remove this warning.')) |
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kv_n_heads = n_heads |
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if past_key_value is not None: |
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if len(past_key_value) != 0: |
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key = torch.cat([past_key_value[0], key], dim=1) |
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value = torch.cat([past_key_value[1], value], dim=1) |
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past_key_value = (key, value) |
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if attn_bias is not None: |
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_s_q = max(0, attn_bias.size(2) - query.size(1)) |
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_s_k = max(0, attn_bias.size(3) - key.size(1)) |
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attn_bias = attn_bias[:, :, _s_q:, _s_k:] |
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if dropout_p: |
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raise NotImplementedError(f'Dropout not implemented for attn_impl: triton.') |
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dropout_p = dropout_p if training else 0.0 |
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if needs_weights: |
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raise NotImplementedError(f'attn_impl: triton cannot return attn weights.') |
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if key_padding_mask is not None: |
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warnings.warn('Propagating key_padding_mask to the attention module ' + 'and applying it within the attention module can cause ' + 'unnecessary computation/memory usage. Consider integrating ' + 'into attn_bias once and passing that to each attention ' + 'module instead.') |
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(b_size, s_k) = key_padding_mask.shape[:2] |
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if attn_bias is None: |
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attn_bias = query.new_zeros(b_size, 1, 1, s_k) |
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attn_bias = attn_bias.masked_fill(~key_padding_mask.view((b_size, 1, 1, s_k)), torch.finfo(query.dtype).min) |
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query = rearrange(query, 'b s (h d) -> b s h d', h=n_heads) |
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key = rearrange(key, 'b s (h d) -> b s h d', h=kv_n_heads) |
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value = rearrange(value, 'b s (h d) -> b s h d', h=kv_n_heads) |
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if kv_n_heads == 1: |
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key = key.repeat(1, 1, n_heads, 1) |
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value = value.repeat(1, 1, n_heads, 1) |
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elif kv_n_heads < n_heads: |
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key = key.repeat_interleave(n_heads // kv_n_heads, dim=2) |
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value = value.repeat_interleave(n_heads // kv_n_heads, dim=2) |
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reset_is_causal = _reset_is_causal(query.size(1), key.size(1), is_causal) |
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attn_output = flash_attn_func(query, key, value, attn_bias, reset_is_causal, softmax_scale) |
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output = attn_output.view(*attn_output.shape[:2], -1) |
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return (output, None, past_key_value) |
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|
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class GroupedQueryAttention(nn.Module): |
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"""Grouped Query Attention (GQA) is a generalization of Multi-head (MHA). |
|
|
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and Multi-query attention (MQA). |
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|
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This allows the user to set a variable of number of kv_n_heads, rather than |
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just n_heads or 1, as in MHA and MQA. Using torch or triton attention |
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implementation enables user to also use additive bias. |
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""" |
|
|
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def __init__(self, d_model: int, n_heads: int, kv_n_heads: int, attn_impl: str='triton', clip_qkv: Optional[float]=None, qk_ln: bool=False, softmax_scale: Optional[float]=None, attn_pdrop: float=0.0, norm_type: str='low_precision_layernorm', fc_type: str='torch', device: Optional[str]=None): |
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super().__init__() |
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self.attn_impl = attn_impl |
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self.clip_qkv = clip_qkv |
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self.qk_ln = qk_ln |
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self.d_model = d_model |
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self.n_heads = n_heads |
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self.kv_n_heads = kv_n_heads |
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self.head_dim = d_model // n_heads |
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if self.kv_n_heads <= 0: |
|
raise ValueError('kv_n_heads should be greater than zero.') |
|
if self.kv_n_heads > self.n_heads: |
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raise ValueError('The number of KV heads should be less than or equal to Q heads.') |
|
if self.n_heads % self.kv_n_heads != 0: |
|
raise ValueError('Each Q head should get the same number of KV heads, so n_heads must be divisible by kv_n_heads.') |
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self.softmax_scale = softmax_scale |
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if self.softmax_scale is None: |
|
self.softmax_scale = 1 / math.sqrt(self.d_model / self.n_heads) |
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self.attn_dropout_p = attn_pdrop |
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fc_kwargs = {} |
|
if fc_type != 'te': |
|
fc_kwargs['device'] = device |
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self.Wqkv = FC_CLASS_REGISTRY[fc_type](self.d_model, self.d_model + 2 * self.kv_n_heads * self.head_dim, **fc_kwargs) |
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fuse_splits = [i * self.head_dim for i in range(1, self.n_heads + 2 * self.kv_n_heads)] |
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self.Wqkv._fused = (0, fuse_splits) |
|
if self.qk_ln: |
|
norm_class = NORM_CLASS_REGISTRY[norm_type.lower()] |
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self.q_ln = norm_class(self.d_model, device=device) |
|
self.k_ln = norm_class(self.kv_n_heads * self.head_dim, device=device) |
|
if self.attn_impl == 'flash': |
|
self.attn_fn = flash_attn_fn |
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elif self.attn_impl == 'triton': |
|
self.attn_fn = triton_flash_attn_fn |
|
elif self.attn_impl == 'torch': |
|
self.attn_fn = scaled_multihead_dot_product_attention |
|
else: |
|
raise ValueError(f'attn_impl={attn_impl!r} is an invalid setting.') |
|
self.out_proj = FC_CLASS_REGISTRY[fc_type](self.d_model, self.d_model, **fc_kwargs) |
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self.out_proj._is_residual = True |
|
|
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def forward(self, x: torch.Tensor, past_key_value: Optional[Tuple[torch.Tensor, torch.Tensor]]=None, attn_bias: Optional[torch.Tensor]=None, attention_mask: Optional[torch.Tensor]=None, is_causal: bool=True, needs_weights: bool=False) -> Tuple[torch.Tensor, Optional[torch.Tensor], Optional[Tuple[torch.Tensor, torch.Tensor]]]: |
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qkv = self.Wqkv(x) |
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if self.clip_qkv: |
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qkv = qkv.clamp(min=-self.clip_qkv, max=self.clip_qkv) |
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(query, key, value) = qkv.split([self.d_model, self.kv_n_heads * self.head_dim, self.kv_n_heads * self.head_dim], dim=2) |
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key_padding_mask = attention_mask |
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if self.qk_ln: |
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dtype = query.dtype |
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query = self.q_ln(query).to(dtype) |
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key = self.k_ln(key).to(dtype) |
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(context, attn_weights, past_key_value) = self.attn_fn(query, key, value, self.n_heads, self.kv_n_heads, past_key_value=past_key_value, softmax_scale=self.softmax_scale, attn_bias=attn_bias, key_padding_mask=key_padding_mask, is_causal=is_causal, dropout_p=self.attn_dropout_p, training=self.training, needs_weights=needs_weights) |
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return (self.out_proj(context), attn_weights, past_key_value) |
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|
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class MultiheadAttention(GroupedQueryAttention): |
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"""Multi-head self attention. |
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|
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Using torch or triton attention implementation enables user to also use |
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additive bias. |
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""" |
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|
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def __init__(self, d_model: int, n_heads: int, attn_impl: str='triton', clip_qkv: Optional[float]=None, qk_ln: bool=False, softmax_scale: Optional[float]=None, attn_pdrop: float=0.0, norm_type: str='low_precision_layernorm', fc_type: str='torch', device: Optional[str]=None): |
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super().__init__(d_model=d_model, n_heads=n_heads, kv_n_heads=n_heads, attn_impl=attn_impl, clip_qkv=clip_qkv, qk_ln=qk_ln, softmax_scale=softmax_scale, attn_pdrop=attn_pdrop, norm_type=norm_type, fc_type=fc_type, device=device) |
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|
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class MultiQueryAttention(GroupedQueryAttention): |
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"""Multi-Query self attention. |
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|
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Using torch or triton attention implementation enables user to also use |
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additive bias. |
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""" |
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|
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def __init__(self, d_model: int, n_heads: int, attn_impl: str='triton', clip_qkv: Optional[float]=None, qk_ln: bool=False, softmax_scale: Optional[float]=None, attn_pdrop: float=0.0, norm_type: str='low_precision_layernorm', fc_type: str='torch', device: Optional[str]=None): |
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super().__init__(d_model=d_model, n_heads=n_heads, kv_n_heads=1, attn_impl=attn_impl, clip_qkv=clip_qkv, qk_ln=qk_ln, softmax_scale=softmax_scale, attn_pdrop=attn_pdrop, norm_type=norm_type, fc_type=fc_type, device=device) |
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|
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def attn_bias_shape(attn_impl: str, n_heads: int, seq_len: int, alibi: bool, prefix_lm: bool, causal: bool, use_sequence_id: bool) -> Optional[Tuple[int, int, int, int]]: |
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if attn_impl == 'flash': |
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return None |
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elif attn_impl in ['torch', 'triton']: |
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if alibi: |
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if (prefix_lm or not causal) or use_sequence_id: |
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return (1, n_heads, seq_len, seq_len) |
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return (1, n_heads, 1, seq_len) |
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elif prefix_lm or use_sequence_id: |
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return (1, 1, seq_len, seq_len) |
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return None |
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else: |
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raise ValueError(f'attn_impl={attn_impl!r} is an invalid setting.') |
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|
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def build_attn_bias(attn_impl: str, attn_bias: torch.Tensor, n_heads: int, seq_len: int, causal: bool=False, alibi: bool=False, alibi_bias_max: int=8) -> Optional[torch.Tensor]: |
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if attn_impl == 'flash': |
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return None |
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elif attn_impl in ['torch', 'triton']: |
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if alibi: |
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(device, dtype) = (attn_bias.device, attn_bias.dtype) |
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attn_bias = attn_bias.add(build_alibi_bias(n_heads, seq_len, full=not causal, alibi_bias_max=alibi_bias_max, device=device, dtype=dtype)) |
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return attn_bias |
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else: |
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raise ValueError(f'attn_impl={attn_impl!r} is an invalid setting.') |
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|
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def gen_slopes(n_heads: int, alibi_bias_max: int=8, device: Optional[torch.device]=None) -> torch.Tensor: |
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_n_heads = 2 ** math.ceil(math.log2(n_heads)) |
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m = torch.arange(1, _n_heads + 1, dtype=torch.float32, device=device) |
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m = m.mul(alibi_bias_max / _n_heads) |
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slopes = 1.0 / torch.pow(2, m) |
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if _n_heads != n_heads: |
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slopes = torch.concat([slopes[1::2], slopes[::2]])[:n_heads] |
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return slopes.view(1, n_heads, 1, 1) |
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|
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def build_alibi_bias(n_heads: int, seq_len: int, full: bool=False, alibi_bias_max: int=8, device: Optional[torch.device]=None, dtype: Optional[torch.dtype]=None) -> torch.Tensor: |
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alibi_bias = torch.arange(1 - seq_len, 1, dtype=torch.int32, device=device).view(1, 1, 1, seq_len) |
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if full: |
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alibi_bias = alibi_bias - torch.arange(1 - seq_len, 1, dtype=torch.int32, device=device).view(1, 1, seq_len, 1) |
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alibi_bias = alibi_bias.abs().mul(-1) |
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slopes = gen_slopes(n_heads, alibi_bias_max, device=device) |
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alibi_bias = alibi_bias * slopes |
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return alibi_bias.to(dtype=dtype) |
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ATTN_CLASS_REGISTRY = {'multihead_attention': MultiheadAttention, 'multiquery_attention': MultiQueryAttention, 'grouped_query_attention': GroupedQueryAttention} |