333 lines
13 KiB
Python
333 lines
13 KiB
Python
import math
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from typing import Optional
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from typing import Tuple
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try:
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from .flash_triton import FlashAttnFunc
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except:
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FlashAttnFunc = None
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import bmtrain as bmt
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import torch
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from einops import rearrange
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from .linear import ColumnParallelLinear
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from .linear import Linear
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from .position_embedding import apply_chatglm_rotary_pos_emb
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from flash_attn.flash_attn_interface import flash_attn_varlen_func
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#try:
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# from flash_attn.flash_attn_interface import _flash_attn_varlen_backward
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# from flash_attn.flash_attn_interface import _flash_attn_varlen_forward
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# from flash_attn.flash_attn_interface import flash_attn_varlen_func
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#except:
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# flash_attn_varlen_func = None
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try:
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from flash_attn.bert_padding import pad_input
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from flash_attn.bert_padding import unpad_input
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except:
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pad_input = None
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unpad_input = None
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class OpFlash(torch.autograd.Function):
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@staticmethod
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def forward(ctx, self, record, q, k, v, cu_seqlens, max_seqlen, dropout_p, causal):
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ctx.self = self
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ctx.cu_seqlens = cu_seqlens
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ctx.max_length = max_seqlen
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ctx.dropout_p = dropout_p
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ctx.causal = causal
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ctx.softmax_scale = q.shape[-1] ** (-0.5)
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if not record and "out" in self._layer_dict:
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out = self._layer_dict.pop("out")
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softmax_lse = self._layer_dict.pop("softmax_lse")
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rng_state = self._layer_dict.pop("rng_state")
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else:
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out, _, _, _, _, softmax_lse, _, rng_state = _flash_attn_varlen_forward(
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q,
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k,
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v,
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cu_seqlens,
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cu_seqlens,
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max_seqlen,
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max_seqlen,
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dropout_p,
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ctx.softmax_scale,
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causal=causal,
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window_size=(-1, -1),
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alibi_slopes=None,
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return_softmax=False,
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)
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if record:
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self._layer_dict["out"] = out
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self._layer_dict["softmax_lse"] = softmax_lse
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self._layer_dict["rng_state"] = rng_state
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ctx.save_for_backward(q, k, v, out, softmax_lse, rng_state)
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return out
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@staticmethod
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def backward(ctx, dout):
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q, k, v, out, softmax_lse, rng_state = ctx.saved_tensors
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dq, dk, dv = torch.empty_like(q), torch.empty_like(k), torch.empty_like(v)
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_flash_attn_varlen_backward(
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dout,
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q,
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k,
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v,
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out,
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softmax_lse,
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dq,
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dk,
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dv,
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ctx.cu_seqlens,
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ctx.cu_seqlens,
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ctx.max_length,
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ctx.max_length,
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ctx.dropout_p,
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ctx.softmax_scale,
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ctx.causal,
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(-1,-1),
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None,
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False,
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rng_state=rng_state,
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)
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return None, None, dq, dk, dv, None, None, None, None
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class Attention(bmt.DistributedModule):
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def __init__(
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self,
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dim_model: int,
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num_heads: int,
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num_kv_heads: int,
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dim_head: int,
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dtype: torch.dtype = torch.half,
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dropout_p: Optional[float] = None,
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scale: bool = True,
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add_qkv_bias: bool = False,
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use_flash_attn: bool = False,
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tp: int = 0,
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) -> None:
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super().__init__()
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self.dim_model = dim_model
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self.num_heads = num_heads
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self.num_kv_heads = num_kv_heads
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self.head_groups = num_heads // num_kv_heads
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self.dim_head = dim_head
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self.project_q = Linear(
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self.dim_model,
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self.num_heads * self.dim_head,
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bias=add_qkv_bias,
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dtype=dtype,
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scale=scale,
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tp=tp,
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)
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self.project_k = Linear(
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self.dim_model,
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self.num_kv_heads * self.dim_head,
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bias=add_qkv_bias,
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dtype=dtype,
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scale=scale,
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tp=tp,
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)
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self.project_v = Linear(
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self.dim_model,
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self.num_kv_heads * self.dim_head,
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bias=add_qkv_bias,
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dtype=dtype,
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scale=scale,
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tp=tp,
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)
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self.attention_out = Linear(
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self.num_heads * self.dim_head,
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self.dim_model,
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dtype=dtype,
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scale=scale,
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tp=tp * 2,
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)
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self.softmax = torch.nn.Softmax(dim=-1)
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if dropout_p is not None:
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self.dropout = torch.nn.Dropout(p=dropout_p)
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self.dropout_p = dropout_p
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else:
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self.dropout = None
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self.use_flash_attn = use_flash_attn
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self._layer_dict = {}
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def forward(
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self,
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hidden_q: torch.Tensor,
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hidden_kv: torch.Tensor,
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attention_mask: torch.BoolTensor,
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position_bias: torch.Tensor,
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use_cache: bool = False,
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past_kv: Optional[Tuple[torch.Tensor, torch.Tensor]] = None,
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pos_bias_type: Optional[str] = "relative",
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length_mask: Optional[torch.Tensor] = None,
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attention_mask_bias: Optional[torch.Tensor] = None,
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cu_seqlens: Optional[torch.Tensor] = None,
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max_seqlen: int = None,
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position_ids: Optional[torch.Tensor] = None,
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):
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"""This model inherits from bmt.DistributedModule.
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Args:
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hidden_q (:obj:`torch.Tensor` of shape ``(batch, len_q, dim_model)``): Indices of input sequence tokens. It will be embedded by model's internal embedding lookup matrix.
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hidden_kv (:obj:`torch.Tensor` of shape ``(batch, len_k, dim_model)``): Length of input sequence before padding.
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attention_mask (:obj:`torch.Tensor` of shape ``(batch, len_q, len_k)``): Used to avoid performing attention on padding token indices.
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position_bias(:obj:`torch.Tensor` of shape ``(num_heads, len_q, len_k)`` or ``(1, num_heads, len_k, len_q)``): Provide positional information about tensor `key_value` and `query`.
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Return:
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out (:obj:`torch.Tensor` of shape ``(batch, len_q, dim_model)``): The attention output.
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""" # noqa: E501
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len_q = hidden_q.size(1)
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len_k = hidden_kv.size(1)
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if isinstance(self.project_q, ColumnParallelLinear):
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assert hidden_q.data_ptr() == hidden_kv.data_ptr()
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if self.project_q.scale and self.project_q.scale_before:
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hidden_q = hidden_q / math.sqrt(self.project_q.dim_in)
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hidden_q = bmt.nn.OpParallelLinear.apply(
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hidden_q,
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torch.cat([self.project_q.weight, self.project_k.weight, self.project_v.weight], dim=0),
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torch.cat([self.project_q.bias, self.project_k.bias, self.project_v.bias], dim=0)
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if self.project_q.bias is not None
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else None,
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True,
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False,
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False,
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None,
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)
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if self.project_q.scale and not self.project_q.scale_before:
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hidden_q = hidden_q / math.sqrt(self.project_q.dim_in)
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block_size = hidden_q.shape[-1] // (self.head_groups + 1 + 1)
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h_q = hidden_q[..., : block_size * self.head_groups]
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h_k = hidden_q[..., block_size * self.head_groups : block_size * (self.head_groups + 1)]
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h_v = hidden_q[..., block_size * (self.head_groups + 1) :]
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else:
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h_q = self.project_q(hidden_q)
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h_k = self.project_k(hidden_kv)
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h_v = self.project_v(hidden_kv)
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batch_size = h_q.size(0)
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if not self.use_flash_attn:
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h_q = h_q / math.sqrt(math.sqrt(self.dim_head))
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h_k = h_k / math.sqrt(math.sqrt(self.dim_head))
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h_q = h_q.view(batch_size, len_q, -1, self.dim_head).permute(0, 2, 1, 3)
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h_k = h_k.view(batch_size, len_k, -1, self.dim_head).permute(0, 2, 1, 3)
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h_v = h_v.view(batch_size, len_k, -1, self.dim_head).permute(0, 2, 1, 3)
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if pos_bias_type == "rotary":
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# b h s d
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h_q, h_k = position_bias(h_q, h_k, -2, offset=past_kv[0].size(-2) if past_kv is not None else 0)
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elif pos_bias_type == "chatglm_rotary":
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h_q = apply_chatglm_rotary_pos_emb(h_q, position_bias)
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h_k = apply_chatglm_rotary_pos_emb(h_k, position_bias)
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if past_kv is not None:
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h_k = torch.cat([past_kv[0], h_k], dim=-2)
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h_v = torch.cat([past_kv[1], h_v], dim=-2)
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len_k = h_k.size(-2)
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# (b, n_h, len_q, d_h) @ (b, n_h, d_h, len_k) -> (b, n_h, len_q, len_k)
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# (b, n_kv_h, n_h_groups*len_q, d_h) @ (b, n_kv_h, d_h, len_k) -> (b, n_kv_h, n_h_groups*len_q, len_k) -> (b, n_h, len_q, len_k)
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if self.head_groups == 1:
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score = torch.matmul(h_q, h_k.transpose(-1, -2)) # / math.sqrt(self.dim_head) moved to line 75~76
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else:
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score = torch.matmul(
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h_q.reshape(batch_size, -1, self.head_groups * len_q, self.dim_head),
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h_k.transpose(-1, -2),
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).view(
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batch_size, -1, len_q, len_k
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) # / math.sqrt(self.dim_head) moved to line 75~76
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if pos_bias_type == "relative":
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if len_q == 1: # inference with cache
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if len(position_bias.size()) == 4:
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position_bias = position_bias[:, :, -1:, :]
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else:
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position_bias = position_bias[:, -1:, :]
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score = score + position_bias
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score = torch.masked_fill(
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score,
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attention_mask.view(batch_size, 1, len_q, len_k) == False,
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torch.scalar_tensor(float("-inf"), device=score.device, dtype=score.dtype),
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)
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score = self.softmax(score)
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score = torch.masked_fill(
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score,
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attention_mask.view(batch_size, 1, len_q, len_k) == False,
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torch.scalar_tensor(0, device=score.device, dtype=score.dtype),
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)
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if self.dropout is not None:
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score = self.dropout(score)
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# (b, n_h, len_q, len_k) @ (b, n_h, len_k, d_h) -> (b, n_h, len_q, d_h)
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# (b, n_kv_h, n_h_groups*len_q, len_k) @ (b, n_kv_h, len_k, d_h) -> (b, n_kv_h, n_h_groups*len_q, d_h) -> (b, n_h, len_q, d_h)
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score = torch.matmul(score.view(batch_size, -1, self.head_groups * len_q, len_k), h_v).view(
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batch_size, -1, len_q, self.dim_head
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)
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score = score.view(batch_size, -1, len_q, self.dim_head).permute(0, 2, 1, 3)
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score = score.contiguous().view(batch_size, len_q, -1)
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else:
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if attention_mask_bias is not None:
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assert pos_bias_type == "rotary"
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h_q = h_q.view(batch_size, len_q, -1, self.dim_head) # .permute(0, 2, 1, 3)
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h_k = h_k.view(batch_size, len_k, -1, self.dim_head) # .permute(0, 2, 1, 3)
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h_v = h_v.view(batch_size, len_k, -1, self.dim_head) # .permute(0, 2, 1, 3)
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h_q, h_k = position_bias(h_q, h_k, -3)
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score = FlashAttnFunc.apply(h_q, h_k, h_v, attention_mask_bias, False, None)
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else:
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if pos_bias_type == "chatglm_rotary":
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raise NotImplemented("No FlashAttn version for ChatGLM at present!")
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h_q = h_q.view(batch_size * len_q, -1, self.dim_head) # .permute(0, 2, 1, 3)
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h_k = h_k.view(batch_size * len_k, -1, self.dim_head) # .permute(0, 2, 1, 3)
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h_v = h_v.view(batch_size * len_k, -1, self.dim_head) # .permute(0, 2, 1, 3)
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h_q, h_k = position_bias(
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h_q, h_k, -3, cu_seqlens=cu_seqlens, max_length=max_seqlen, position_ids=position_ids
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)
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print(type(h_q), type(cu_seqlens), type(max_seqlen), type(self.dropout_p))
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print("h_q: ", h_q)
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print("cu_seqlens: ", cu_seqlens)
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print("max_seqlen: ", max_seqlen)
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score = flash_attn_varlen_func(
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h_q,
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h_k,
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h_v,
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cu_seqlens,
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cu_seqlens,
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max_seqlen,
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max_seqlen,
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self.dropout_p,
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causal=True,
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deterministic=True,
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)
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print(type(h_q), type(cu_seqlens), type(max_seqlen), type(self.dropout_p))
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# Rongqiao change
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#score = OpFlash.apply(
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# self, not torch.is_grad_enabled(), h_q, h_k, h_v, cu_seqlens, max_seqlen, self.dropout_p, True
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#)
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score = score.view(batch_size, len_q, -1)
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score = self.attention_out(score)
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if use_cache:
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return score, (h_k, h_v)
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else:
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return score
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