# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project from dataclasses import dataclass from typing import ClassVar, Optional import torch from vllm.attention.backends.abstract import (AttentionType, is_quantized_kv_cache) from vllm.attention.ops.flashmla import (flash_mla_with_kvcache, get_mla_metadata, is_flashmla_supported) from vllm.config import VllmConfig from vllm.logger import init_logger from vllm.v1.attention.backends.mla.common import (MLACommonBackend, MLACommonDecodeMetadata, MLACommonImpl, MLACommonMetadata, MLACommonMetadataBuilder) from vllm.v1.attention.backends.utils import AttentionCGSupport from vllm.v1.kv_cache_interface import AttentionSpec logger = init_logger(__name__) class FlashMLABackend(MLACommonBackend): @staticmethod def get_name() -> str: return "FLASHMLA_VLLM_V1" @staticmethod def get_metadata_cls() -> type["FlashMLAMetadata"]: return FlashMLAMetadata @staticmethod def get_builder_cls() -> type["FlashMLAMetadataBuilder"]: return FlashMLAMetadataBuilder @staticmethod def get_impl_cls() -> type["FlashMLAImpl"]: return FlashMLAImpl @dataclass class FlashMLADecodeMetadata(MLACommonDecodeMetadata): tile_scheduler_metadata: torch.Tensor num_splits: torch.Tensor @dataclass class FlashMLAMetadata(MLACommonMetadata[FlashMLADecodeMetadata]): pass class FlashMLAMetadataBuilder(MLACommonMetadataBuilder[FlashMLAMetadata]): attn_cudagraph_support: ClassVar[AttentionCGSupport] = \ AttentionCGSupport.PURE_DECODE_ONLY def __init__(self, kv_cache_spec: AttentionSpec, layer_names: list[str], vllm_config: VllmConfig, device: torch.device): super().__init__(kv_cache_spec, layer_names, vllm_config, device, FlashMLAMetadata) self.compilation_config = vllm_config.compilation_config self.num_q_heads = vllm_config.model_config.get_num_attention_heads( vllm_config.parallel_config) self.cg_buf_tile_scheduler_metadata = None self.cg_buf_num_splits = None device_properties = torch.cuda.get_device_properties(self.device) num_sms = device_properties.multi_processor_count if self.compilation_config.full_cuda_graph: self.cg_buf_tile_scheduler_metadata = torch.zeros( # Upper bound on size (<= #SMs, TileSchedulerMetaDataSize) # TileSchedulerMetaDataSize = 8 (num_sms, 8), device=self.device, dtype=torch.int32, ) self.cg_buf_num_splits = torch.empty( (vllm_config.scheduler_config.max_num_seqs + 1), device=self.device, dtype=torch.int32) def _build_decode(self, block_table_tensor: torch.Tensor, seq_lens: torch.Tensor) -> FlashMLADecodeMetadata: tile_scheduler_metadata, num_splits = \ get_mla_metadata( seq_lens, self.num_q_heads, 1, # MQA for the decode path ) if self.compilation_config.full_cuda_graph: assert self.cg_buf_tile_scheduler_metadata is not None assert self.cg_buf_num_splits is not None sm_parts = tile_scheduler_metadata.size(0) # Metadata per-SM, upper bound on size (<= #SMs, TileMetadataSize) assert sm_parts <= self.cg_buf_tile_scheduler_metadata.size(0) tile_scheduler_metadata_view = \ self.cg_buf_tile_scheduler_metadata[:sm_parts] tile_scheduler_metadata_view.copy_(tile_scheduler_metadata) tile_scheduler_metadata = tile_scheduler_metadata_view # Num splits is per-batch, varying size (batch_size,) n = num_splits.size(0) # make sure static buffer is large enough assert n <= self.cg_buf_num_splits.size(0) num_splits_view = self.cg_buf_num_splits[:n] num_splits_view.copy_(num_splits) # Num splits needs to monotonically increasing # (with: https://github.com/vllm-project/FlashMLA/pull/3, otherwise # it needs to monotonically increasing by 1) self.cg_buf_num_splits[n:].fill_(num_splits[-1]) num_splits = num_splits_view return FlashMLADecodeMetadata( block_table=block_table_tensor, seq_lens=seq_lens, tile_scheduler_metadata=tile_scheduler_metadata, num_splits=num_splits, ) class FlashMLAImpl(MLACommonImpl[FlashMLAMetadata]): 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) assert is_flashmla_supported(), \ "FlashMLA is not supported on this device" unsupported_features = [alibi_slopes, sliding_window, logits_soft_cap] if any(unsupported_features): raise NotImplementedError( "FlashMLAImpl 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 " "FlashMLAImpl") if is_quantized_kv_cache(self.kv_cache_dtype): raise NotImplementedError( "FlashMLA V1 with FP8 KV cache not yet supported") def _forward_decode( self, q_nope: torch.Tensor, q_pe: torch.Tensor, kv_c_and_k_pe_cache: torch.Tensor, attn_metadata: FlashMLAMetadata, ) -> torch.Tensor: assert kv_c_and_k_pe_cache.numel() > 0 assert attn_metadata.decode is not None q = torch.cat([q_nope, q_pe], dim=-1)\ .unsqueeze(1) # Add seqlen dim of 1 (decode) o, _ = flash_mla_with_kvcache( q=q, k_cache=kv_c_and_k_pe_cache.unsqueeze(-2), # Add head dim of 1 block_table=attn_metadata.decode.block_table, cache_seqlens=attn_metadata.decode.seq_lens, head_dim_v=self.kv_lora_rank, tile_scheduler_metadata=attn_metadata.decode. tile_scheduler_metadata, num_splits=attn_metadata.decode.num_splits, softmax_scale=self.scale, causal=True, ) return self._v_up_proj(o)