# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project from dataclasses import dataclass from typing import ClassVar import torch from vllm._aiter_ops import rocm_aiter_ops from vllm.config import VllmConfig from vllm.model_executor.layers.attention.mla_attention import ( MLACommonBackend, MLACommonDecodeMetadata, MLACommonImpl, MLACommonMetadata, MLACommonMetadataBuilder, QueryLenSupport, ) from vllm.v1.attention.backend import AttentionCGSupport, AttentionLayer, MultipleOf from vllm.v1.kv_cache_interface import AttentionSpec class AiterMLABackend(MLACommonBackend): @staticmethod def get_supported_kernel_block_sizes() -> list[int | MultipleOf]: return [1] @staticmethod def get_name() -> str: return "ROCM_AITER_MLA" @staticmethod def get_impl_cls() -> type["AiterMLAImpl"]: return AiterMLAImpl @staticmethod def get_builder_cls() -> type["AiterMLAMetadataBuilder"]: return AiterMLAMetadataBuilder @dataclass class AiterMLADecodeMetadata(MLACommonDecodeMetadata): # The indptr of the paged kv cache, shape: [batch_size + 1] paged_kv_indptr: torch.Tensor | None = None # The page indices of the paged kv cache paged_kv_indices: torch.Tensor | None = None # The number of entries in the last page of each request in # the paged kv cache, shape: [batch_size] paged_kv_last_page_len: torch.Tensor | None = None # The query indptr, shape : [num_decode + 1] qo_indptr: torch.Tensor | None = None # The dtype of MLA out tensor attn_out_dtype: torch.dtype = torch.bfloat16 # The max query output length: int max_qo_len: int | None = None class AiterMLAMetadata(MLACommonMetadata[AiterMLADecodeMetadata]): pass class AiterMLAMetadataBuilder(MLACommonMetadataBuilder[AiterMLAMetadata]): # TODO(luka, lucas): audit this as part of: # https://github.com/vllm-project/vllm/issues/22945 _cudagraph_support: ClassVar[AttentionCGSupport] = AttentionCGSupport.UNIFORM_BATCH query_len_support: ClassVar[QueryLenSupport] = QueryLenSupport.UNIFORM 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, AiterMLAMetadata ) self.compilation_config = vllm_config.compilation_config self.decode_attn_out_dtype = vllm_config.model_config.dtype # kernel block size is always 1. max_num_pages_per_req = vllm_config.model_config.max_model_len max_num_reqs = vllm_config.scheduler_config.max_num_seqs max_num_pages = max_num_reqs * max_num_pages_per_req # Preparing persistent buffers # TODO: we can disambiguate between decode and mixed-prefill decode here # so we can only use the persistent buffer if a cudagraph is actually # being used. # paged_kv_last_page_len is always 1s (kernel block size is always 1), # so we create it once and reuse slices in both eager and cudagraph modes. self.paged_kv_last_page_len = torch.ones( max_num_reqs, dtype=torch.int32, device=device ) if self.compilation_config.cudagraph_mode.has_full_cudagraphs(): self.paged_kv_indptr = torch.zeros( max_num_reqs + 1, dtype=torch.int32, device=device ) self.paged_kv_indices = torch.zeros( max_num_pages, dtype=torch.int32, device=device ) self.qo_indptr = torch.zeros( max_num_reqs + 1, dtype=torch.int32, device=device ) def _build_decode( self, block_table_tensor: torch.Tensor, seq_lens_device: torch.Tensor, max_seq_len: int, query_start_loc_cpu: torch.Tensor, query_start_loc_device: torch.Tensor, num_decode_tokens: int, dcp_tot_seq_lens_device: torch.Tensor | None, ) -> AiterMLADecodeMetadata: # kernel block size is always 1, although the kv block size is not 1. device = self.device num_reqs = seq_lens_device.size(0) mask = torch.arange( block_table_tensor.size(1), dtype=block_table_tensor.dtype, device=device ).unsqueeze(0) < seq_lens_device.unsqueeze(1) paged_kv_indices = block_table_tensor[mask] # kernel block size is always 1, so each page has exactly 1 token. # last_page_len is always 1 - just slice the pre-initialized buffer. paged_kv_last_page_len = self.paged_kv_last_page_len[:num_reqs] paged_kv_indptr = torch.cat( [ torch.zeros(1, dtype=seq_lens_device.dtype, device=device), seq_lens_device.cumsum(dim=0, dtype=torch.int32), ] ) qo_len = query_start_loc_cpu[1:] - query_start_loc_cpu[:-1] max_qo_len = qo_len.max().item() if self.compilation_config.cudagraph_mode.has_full_cudagraphs(): num_actual_pages = paged_kv_indices.size(0) self.paged_kv_indices[:num_actual_pages].copy_( paged_kv_indices, non_blocking=True ) self.paged_kv_indices[num_actual_pages:].fill_(-1) paged_kv_indices = self.paged_kv_indices[:num_actual_pages] self.paged_kv_indptr[: 1 + num_reqs].copy_( paged_kv_indptr, non_blocking=True ) self.paged_kv_indptr[1 + num_reqs :].fill_(paged_kv_indptr[-1]) paged_kv_indptr = self.paged_kv_indptr[: 1 + num_reqs] # paged_kv_last_page_len already uses the pre-initialized buffer slice # (set above), so no copy needed - buffer is always 1s. self.qo_indptr[: 1 + num_reqs].copy_( query_start_loc_device, non_blocking=True ) self.qo_indptr[1 + num_reqs :] = query_start_loc_device[-1] qo_indptr = self.qo_indptr[: 1 + num_reqs] else: qo_indptr = torch.arange( 0, num_reqs + 1, step=1, dtype=torch.int32, device=device ) attn_metadata = AiterMLADecodeMetadata( block_table=block_table_tensor, seq_lens=seq_lens_device, paged_kv_indptr=paged_kv_indptr, paged_kv_indices=paged_kv_indices, paged_kv_last_page_len=paged_kv_last_page_len, qo_indptr=qo_indptr, dcp_tot_seq_lens=dcp_tot_seq_lens_device, max_qo_len=max_qo_len, attn_out_dtype=self.decode_attn_out_dtype, ) return attn_metadata class AiterMLAImpl(MLACommonImpl[AiterMLAMetadata]): def __init__( self, num_heads: int, head_size: int, scale: float, num_kv_heads: int, alibi_slopes: list[float] | None, sliding_window: int | None, kv_cache_dtype: str, logits_soft_cap: float | None, attn_type: str, kv_sharing_target_layer_name: str | None, # 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 num_heads == 16 or num_heads == 128, ( f"Aiter MLA only supports 16 or 128 number of heads.\n" f"Provided {num_heads} number of heads.\n" "Try adjusting tensor_parallel_size value." ) unsupported_features = [alibi_slopes, sliding_window, logits_soft_cap] if any(unsupported_features): raise NotImplementedError( "Aiter MLA does not support one of the following: " "alibi_slopes, sliding_window, logits_soft_cap" ) from aiter import flash_attn_varlen_func self.flash_attn_varlen_func = flash_attn_varlen_func def _flash_attn_varlen_diff_headdims( self, q, k, v, return_softmax_lse=False, softmax_scale=None, **kwargs ): output = self.flash_attn_varlen_func( # type: ignore[call-arg] q=q, k=k, v=v, softmax_scale=softmax_scale, return_lse=return_softmax_lse, **kwargs, ) return output def _forward_decode( self, q: torch.Tensor | tuple[torch.Tensor, torch.Tensor], kv_c_and_k_pe_cache: torch.Tensor, attn_metadata: AiterMLAMetadata, layer: AttentionLayer, ) -> tuple[torch.Tensor, torch.Tensor | None]: assert kv_c_and_k_pe_cache.numel() > 0 assert attn_metadata.decode is not None assert attn_metadata.decode.max_qo_len is not None if type(q) is tuple: q = torch.cat(q, dim=-1) assert isinstance(q, torch.Tensor) B = q.shape[0] o = torch.zeros( B, self.num_heads, self.kv_lora_rank, dtype=attn_metadata.decode.attn_out_dtype, device=q.device, ) kv_buffer = kv_c_and_k_pe_cache.unsqueeze(2) rocm_aiter_ops.mla_decode_fwd( q, kv_buffer, o, self.scale, attn_metadata.decode.qo_indptr, attn_metadata.decode.max_qo_len, attn_metadata.decode.paged_kv_indptr, attn_metadata.decode.paged_kv_indices, attn_metadata.decode.paged_kv_last_page_len, q_scale=layer._q_scale, kv_scale=layer._k_scale, ) return o, None