# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project from typing import Optional import torch from vllm import envs from vllm.attention.backends.abstract import (AttentionType, is_quantized_kv_cache) from vllm.attention.ops.triton_decode_attention import decode_attention_fwd from vllm.attention.ops.triton_flash_attention import triton_attention from vllm.logger import init_logger from vllm.platforms import current_platform from vllm.triton_utils import HAS_TRITON from vllm.v1.attention.backends.mla.common import (MLACommonBackend, MLACommonImpl, MLACommonMetadata) logger = init_logger(__name__) class TritonMLABackend(MLACommonBackend): @staticmethod def get_name() -> str: return "TRITON_MLA_VLLM_V1" @staticmethod def get_impl_cls() -> type["TritonMLAImpl"]: return TritonMLAImpl class TritonMLAImpl(MLACommonImpl[MLACommonMetadata]): def __init__( self, num_heads: int, head_size: int, scale: float, num_kv_heads: int, alibi_slopes: Optional[list[float]], sliding_window: Optional[int], kv_cache_dtype: str, logits_soft_cap: Optional[float], attn_type: str, kv_sharing_target_layer_name: Optional[str], # MLA Specific Arguments **mla_args) -> None: super().__init__(num_heads, head_size, scale, num_kv_heads, alibi_slopes, sliding_window, kv_cache_dtype, logits_soft_cap, attn_type, kv_sharing_target_layer_name, **mla_args) unsupported_features = [alibi_slopes, sliding_window, logits_soft_cap] if any(unsupported_features): raise NotImplementedError( "TritonMLAImpl does not support one of the following: " "alibi_slopes, sliding_window, logits_soft_cap") if attn_type != AttentionType.DECODER: raise NotImplementedError("Encoder self-attention and " "encoder/decoder cross-attention " "are not implemented for " "TritonMLAImpl") if is_quantized_kv_cache(self.kv_cache_dtype): raise NotImplementedError( "TritonMLA V1 with FP8 KV cache not yet supported") self.use_triton_flash_attn = envs.VLLM_USE_TRITON_FLASH_ATTN self.triton_fa_func = triton_attention if HAS_TRITON else None def _flash_attn_varlen_diff_headdims_rocm(self, q, k, v, softmax_scale=None, **kwargs): assert self.triton_fa_func is not None # Triton Attention requires a padded V padded_v = torch.nn.functional.pad(v, [0, q.shape[-1] - v.shape[-1]], value=0) # The output of triton_attention is a tuple of # [output_tensor, encoded_softmax] where encoded_softmax is always None output_tensor, _ = self.triton_fa_func( q, k, padded_v, None, # output kwargs["cu_seqlens_q"], kwargs["cu_seqlens_k"], kwargs["max_seqlen_q"], kwargs["max_seqlen_k"], kwargs["causal"], softmax_scale, None, # bias ) return output_tensor def _flash_attn_varlen_diff_headdims(self, q, k, v, return_softmax_lse=False, softmax_scale=None, **kwargs): if current_platform.is_rocm() \ and self.use_triton_flash_attn \ and not return_softmax_lse: return self._flash_attn_varlen_diff_headdims_rocm( q, k, v, softmax_scale=softmax_scale, **kwargs) else: return super()._flash_attn_varlen_diff_headdims( q, k, v, return_softmax_lse=return_softmax_lse, softmax_scale=softmax_scale, **kwargs) def _forward_decode( self, q_nope: torch.Tensor, q_pe: torch.Tensor, kv_c_and_k_pe_cache: torch.Tensor, attn_metadata: MLACommonMetadata, ) -> torch.Tensor: assert kv_c_and_k_pe_cache.numel() > 0 assert attn_metadata.decode is not None if self.kv_cache_dtype.startswith("fp8"): raise NotImplementedError("FP8 Triton MLA not yet supported") B = q_nope.shape[0] q = torch.cat([q_nope, q_pe], dim=-1) o = torch.zeros(B, self.num_heads, self.kv_lora_rank, dtype=q.dtype, device=q.device) num_kv_splits = 4 # TODO: heuristic # TODO(lucas) Allocate ahead of time attn_logits = torch.empty( ( B, self.num_heads, num_kv_splits, # NOTE(lucas) idk why the +1 is here but sglang has it so we # just mirror that self.kv_lora_rank + 1, ), dtype=torch.float32, device=q.device, ) # Add a head dim of 1 kv_c_and_k_pe_cache = kv_c_and_k_pe_cache.unsqueeze(2) kv_c_cache = kv_c_and_k_pe_cache[..., :self.kv_lora_rank] PAGE_SIZE = kv_c_and_k_pe_cache.size(1) # Run MQA decode_attention_fwd(q, kv_c_and_k_pe_cache, kv_c_cache, o, attn_metadata.decode.block_table, attn_metadata.decode.seq_lens, attn_logits, num_kv_splits, self.scale, PAGE_SIZE) return self._v_up_proj(o)