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xiezhongtao
2026-01-19 10:38:50 +08:00
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commit 5aef6c175a
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vllm/attention/ops/triton_merge_attn_states.py Normal file
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# SPDX-License-Identifier: Apache-2.0
# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
import torch
from vllm.triton_utils import tl, triton
# Implements section 2.2 of https://www.arxiv.org/pdf/2501.01005
# can be used to combine partial attention results (in the split-KV case)
def merge_attn_states(
output: torch.Tensor,
prefix_output: torch.Tensor,
prefix_lse: torch.Tensor,
suffix_output: torch.Tensor,
suffix_lse: torch.Tensor,
output_lse: torch.Tensor | None = None,
) -> None:
num_tokens = output.shape[0]
num_query_heads = output.shape[1]
head_size = output.shape[2]
padded_head_size = triton.next_power_of_2(head_size)
# We assume the output stride on num_head is not always as same as the
# `suffix_output` and `prefix_output`, as them might be padded by the attention
# backend.
prefix_head_stride = prefix_output.stride(1)
output_head_stride = output.stride(1)
# TODO(woosuk): Use CUDA kernel instead of Triton to minimize CPU overhead.
merge_attn_states_kernel[(num_tokens, num_query_heads)](
output,
output_lse,
prefix_output,
prefix_lse,
suffix_output,
suffix_lse,
prefix_head_stride,
output_head_stride,
head_size,
padded_head_size,
output_lse is not None,
)
@triton.jit
def merge_attn_states_kernel(
output, # [NUM_TOKENS, NUM_HEADS, HEAD_SIZE]
output_lse, # [NUM_HEADS, NUM_TOKENS]
prefix_output, # [NUM_TOKENS, NUM_HEADS, HEAD_SIZE]
prefix_lse, # [NUM_HEADS, NUM_TOKENS]
suffix_output, # [NUM_TOKENS, NUM_HEADS, HEAD_SIZE]
suffix_lse, # [NUM_HEADS, NUM_TOKENS]
prefix_head_stride,
output_head_stride,
HEAD_SIZE: tl.constexpr,
PADDED_HEAD_SIZE: tl.constexpr,
OUTPUT_LSE: tl.constexpr,
):
token_idx = tl.program_id(0)
num_tokens = tl.num_programs(0)
head_idx = tl.program_id(1)
num_heads = tl.num_programs(1)
p_lse = tl.load(prefix_lse + head_idx * num_tokens + token_idx)
s_lse = tl.load(suffix_lse + head_idx * num_tokens + token_idx)
# FA2 and FA3 have different behavior for when the sum-exp is 0, this namely
# arises with 0 len seqlens. FA3 returns -inf here while FA2 returns inf.
# If we see an inf assume FA2 and convert inf to -inf for consistency
# and correctness. Inf generally doesn't make sense in this context outside
# of undefined-behavior/FA2-case, so I think this a safe assumption.
p_lse = float("-inf") if p_lse == float("inf") else p_lse
s_lse = float("-inf") if s_lse == float("inf") else s_lse
max_lse = tl.maximum(p_lse, s_lse)
p_lse = p_lse - max_lse
s_lse = s_lse - max_lse
# Will reuse precomputed Exp values for scale factor computation.
p_se = tl.exp(p_lse)
s_se = tl.exp(s_lse)
out_se = p_se + s_se
if OUTPUT_LSE:
out_lse = tl.log(out_se) + max_lse
tl.store(output_lse + head_idx * num_tokens + token_idx, out_lse)
head_arange = tl.arange(0, PADDED_HEAD_SIZE)
head_mask = head_arange < HEAD_SIZE
p_out = tl.load(
prefix_output
+ token_idx * num_heads * prefix_head_stride
+ head_idx * prefix_head_stride
+ head_arange,
mask=head_mask,
)
s_out = tl.load(
suffix_output
+ token_idx * num_heads * prefix_head_stride
+ head_idx * prefix_head_stride
+ head_arange,
mask=head_mask,
)
# NOTE(woosuk): Be careful with the numerical stability.
# We should compute the scale first, and then multiply it with the output.
# Do not multiply the output with tl.exp(p_lse) or tl.exp(s_lse) directly.
p_scale = p_se / out_se
s_scale = s_se / out_se
out = p_out * p_scale + s_out * s_scale
tl.store(
output
+ token_idx * num_heads * output_head_stride
+ head_idx * output_head_stride
+ head_arange,
out,
mask=head_mask,
)