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xc-llm-ascend/vllm_ascend/ops/triton/reject_sample.py
Aoxuan Chen 8763953f56 [Feature] add the magicmtp speculative decoding acceleration algorithm (#5542) 
### What this PR does / why we need it?

1. MagicMTP (paper: "Block Verification Accelerates Speculative
Decoding") was introduced to consider the influence among multiple draft
tokens, improving the acceptance rate without compromising accuracy.
2. Added Triton and PyTorch implementations, and added E2E test cases.

### Does this PR introduce _any_ user-facing change?
MagicMTP will automatically take effect when the parameter
"num_speculative_tokens" >= 3.
- vLLM version: v0.13.0
- vLLM main:
7157596103

Signed-off-by: chenaoxuan <cax1165@163.com>
2026-01-08 09:15:55 +08:00

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#
# Copyright (c) 2025 Huawei Technologies Co., Ltd. All Rights Reserved.
# This file is a part of the vllm-ascend project.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
from vllm.triton_utils import tl, triton
from vllm_ascend.ops.triton.triton_utils import get_vectorcore_num
def cal_grid_and_block_size(batch_size: int):
vectorcore_num = get_vectorcore_num()
if batch_size <= vectorcore_num:
grid = batch_size
block_size = 1
else:
grid = vectorcore_num
block_size = triton.next_power_of_2(triton.cdiv(batch_size, grid))
return grid, block_size
@triton.jit(do_not_specialize=["max_spec_len"])
def bonus_renew_1(
bonus_token_ids_ptr,
position,
output_token_ids_ptr,
):
bonus_token_id = tl.load(bonus_token_ids_ptr + position)
tl.store(output_token_ids_ptr + position * 2 + 1, bonus_token_id)
@triton.jit(do_not_specialize=["max_spec_len"])
def rejection_greedy_sample_spec_len_1_triton(
output_token_ids_ptr, # [batch_size, 2]
draft_token_ids_ptr, # [num_tokens]
target_argmax_ptr, # [num_tokens]
bonus_token_ids_ptr,
vec_len,
BLOCK_SIZE: tl.constexpr,
):
block_idx = tl.program_id(0)
offset = block_idx * BLOCK_SIZE + tl.arange(0, BLOCK_SIZE)
mask = offset < vec_len
draft_token_id = tl.load(draft_token_ids_ptr + offset, mask)
target_argmax_id = tl.load(target_argmax_ptr + offset, mask)
tl.store(output_token_ids_ptr + offset * 2, target_argmax_id, mask)
for pos in tl.range(0, BLOCK_SIZE):
draft_token_id1 = tl.get_element(draft_token_id, (pos, ))
target_argmax1 = tl.get_element(target_argmax_id, (pos, ))
position = block_idx * BLOCK_SIZE + pos
if draft_token_id1 == target_argmax1:
bonus_renew_1(
bonus_token_ids_ptr,
position,
output_token_ids_ptr,
)
@triton.jit(do_not_specialize=["max_spec_len"])
def bonus_renew(
bonus_token_ids_ptr,
position,
output_token_ids_ptr,
max_spec_len,
num_tokens1,
):
bonus_token_id = tl.load(bonus_token_ids_ptr + position)
tl.store(
output_token_ids_ptr + position * (max_spec_len + 1) + num_tokens1,
bonus_token_id)
@triton.jit(do_not_specialize=["max_spec_len"])
def rejection_greedy_sample_triton(
output_token_ids_ptr, # [batch_size, max_spec_len + 1]
cu_num_draft_tokens_ptr, # [batch_size]
draft_token_ids_ptr, # [num_tokens]
target_argmax_ptr, # [num_tokens]
bonus_token_ids_ptr, # [batch_size]
is_greedy_ptr, # [batch_size] or None
vec_len,
max_spec_len,
BLOCK_SIZE: tl.constexpr,
):
block_idx = tl.program_id(0)
offset = block_idx * BLOCK_SIZE + tl.arange(0, BLOCK_SIZE)
mask = offset < vec_len
if is_greedy_ptr is None:
is_greedy_mask = mask
else:
is_greedy = tl.load(is_greedy_ptr + offset, mask=mask, other=0)
is_greedy_mask = mask & (is_greedy != 0)
start_idx = tl.where(
offset == 0, 0,
tl.load(cu_num_draft_tokens_ptr + offset - 1, is_greedy_mask))
end_idx = tl.load(cu_num_draft_tokens_ptr + offset, is_greedy_mask)
num_draft_tokens = end_idx - start_idx
for pos in tl.range(0, BLOCK_SIZE):
num_tokens1 = tl.get_element(num_draft_tokens, (pos, ))
rejected = False
start_idx1 = tl.get_element(start_idx, (pos, ))
is_greedy_mask1 = tl.get_element(is_greedy_mask, (pos, ))
position = block_idx * BLOCK_SIZE + pos
for i in range(num_tokens1):
if not rejected:
draft_token_id = tl.load(draft_token_ids_ptr + start_idx1 + i)
target_argmax_id = tl.load(target_argmax_ptr + start_idx1 + i)
tl.store(
output_token_ids_ptr + position * (max_spec_len + 1) + i,
target_argmax_id,
)
if draft_token_id != target_argmax_id:
# Reject.
rejected = True
if not rejected and is_greedy_mask1:
bonus_renew(
bonus_token_ids_ptr,
position,
output_token_ids_ptr,
max_spec_len,
num_tokens1,
)
@triton.jit(do_not_specialize=["max_spec_len"])
def rejection_random_sample_kernel(
output_token_ids_ptr, # [batch_size, max_spec_len + 1]
cu_num_draft_tokens_ptr, # [batch_size]
draft_token_ids_ptr, # [num_tokens]
draft_probs_ptr, # [num_tokens, vocab_size] or None
target_probs_ptr, # [num_tokens, vocab_size]
bonus_token_ids_ptr, # [batch_size]
recovered_token_ids_ptr, # [num_tokens]
uniform_probs_ptr, # [num_tokens]
is_greedy_ptr, # [batch_size]
max_spec_len,
vocab_size,
vec_len,
NO_DRAFT_PROBS: tl.constexpr,
BLOCK_SIZE: tl.constexpr):
block_idx = tl.program_id(0)
offsets = block_idx * BLOCK_SIZE + tl.arange(0, BLOCK_SIZE)
mask = offsets < vec_len
is_greedy = tl.load(is_greedy_ptr + offsets, mask, other=1)
not_greedy_mask = is_greedy == 0
start_idxs = tl.where(
offsets == 0, 0,
tl.load(cu_num_draft_tokens_ptr + offsets - 1, not_greedy_mask))
end_idxs = tl.load(cu_num_draft_tokens_ptr + offsets, not_greedy_mask)
n_num_draft_tokens = end_idxs - start_idxs
for req_i in range(BLOCK_SIZE):
not_greedy = tl.get_element(not_greedy_mask, (req_i, ))
if not_greedy:
rejected = False
start_idx = tl.get_element(start_idxs, (req_i, ))
req_idx = block_idx * BLOCK_SIZE + req_i
num_draft_tokens = tl.get_element(n_num_draft_tokens, (req_i, ))
for pos in range(num_draft_tokens):
if not rejected:
draft_token_id = tl.load(draft_token_ids_ptr + start_idx +
pos)
if NO_DRAFT_PROBS:
draft_prob = 1
else:
draft_prob = tl.load(draft_probs_ptr +
(start_idx + pos) * vocab_size +
draft_token_id)
target_prob = tl.load(target_probs_ptr +
(start_idx + pos) * vocab_size +
draft_token_id)
uniform_prob = tl.load(uniform_probs_ptr + start_idx + pos)
# NOTE(woosuk): While the draft probability should never be 0,
# we check it to avoid NaNs. If it happens to be 0, we reject.
if draft_prob > 0 and target_prob / draft_prob >= uniform_prob:
# Accept.
token_id = draft_token_id
else:
# Reject. Use recovered token.
rejected = True
token_id = tl.load(recovered_token_ids_ptr +
start_idx + pos)
tl.store(
output_token_ids_ptr + req_idx * (max_spec_len + 1) +
pos, token_id)
if not rejected:
# If all tokens are accepted, append the bonus token.
bonus_token_id = tl.load(bonus_token_ids_ptr + req_idx)
tl.store(
output_token_ids_ptr + req_idx * (max_spec_len + 1) +
num_draft_tokens,
bonus_token_id,
)
@triton.jit(do_not_specialize=["replace_from", "replace_to"])
def expand_kernel(
output_ptr, # [num_tokens]
input_ptr, # [batch_size]
cu_num_tokens_ptr, # [batch_size]
replace_from,
replace_to,
vec_len,
MAX_NUM_TOKENS: tl.constexpr,
BLOCK_SIZE: tl.constexpr,
):
req_idx = tl.program_id(0)
offset = req_idx * BLOCK_SIZE + tl.arange(0, BLOCK_SIZE)
len_mask = offset < vec_len
start_idx = tl.where(offset == 0, 0,
tl.load(cu_num_tokens_ptr + offset - 1, len_mask))
end_idx = tl.load(cu_num_tokens_ptr + offset, len_mask)
num_tokens = end_idx - start_idx
src_val = tl.load(input_ptr + offset, len_mask)
src_val = tl.where(src_val == replace_from, replace_to, src_val)
for i in tl.range(0, BLOCK_SIZE):
num_tokens1 = tl.get_element(num_tokens, (i, ))
start_idx1 = tl.get_element(start_idx, (i, ))
src_val1 = tl.get_element(src_val, (i, ))
offset1 = tl.arange(0, MAX_NUM_TOKENS)
tl.store(output_ptr + start_idx1 + offset1,
src_val1,
mask=offset1 < num_tokens1)
@triton.jit
def sample_recovered_tokens_kernel(
output_token_ids_ptr, # [num_tokens]
cu_num_draft_tokens_ptr, # [batch_size]
draft_token_ids_ptr, # [num_tokens]
draft_probs_ptr, # [num_tokens, vocab_size] or None
target_probs_ptr, # [num_tokens, vocab_size]
q_ptr, # [batch_size, vocab_size]
vocab_size,
PADDED_VOCAB_SIZE: tl.constexpr,
NO_DRAFT_PROBS: tl.constexpr,
SUB_BLOCK: tl.constexpr,
):
req_idx = tl.program_id(0)
start_idx = 0 if req_idx == 0 else tl.load(cu_num_draft_tokens_ptr +
req_idx - 1)
end_idx = tl.load(cu_num_draft_tokens_ptr + req_idx)
num_draft_tokens = end_idx - start_idx
# Early exit for out-of-range positions.
pos = tl.program_id(1)
if pos >= num_draft_tokens:
return
loop = (vocab_size + SUB_BLOCK - 1) // SUB_BLOCK
global_recovered_id = -1
global_max_p = -1.0
if NO_DRAFT_PROBS:
draft_token_id = tl.load(draft_token_ids_ptr + start_idx + pos)
orig_prob = tl.load(target_probs_ptr + (start_idx + pos) * vocab_size +
draft_token_id)
# Temporarily zero out the probability of the draft token.
# This is essentially the same as target_prob - draft_prob, except that
# n-gram does not have draft_prob. We regard it as 1.
tl.store(
target_probs_ptr + (start_idx + pos) * vocab_size + draft_token_id,
0)
for loop_i in range(loop):
vocab_start = loop_i * SUB_BLOCK
vocab_offset = vocab_start + tl.arange(0, SUB_BLOCK)
prob = tl.load(target_probs_ptr + (start_idx + pos) * vocab_size +
vocab_offset,
mask=vocab_offset < vocab_size,
other=0)
q = tl.load(q_ptr + req_idx * vocab_size + vocab_offset,
mask=vocab_offset < vocab_size,
other=float("-inf"))
new_p = prob / q
recovered_id = tl.argmax(new_p, axis=-1)
max_p = tl.get_element(new_p, (recovered_id, ))
if max_p > global_max_p:
global_max_p = max_p
global_recovered_id = vocab_start + recovered_id
else:
for loop_i in range(loop):
vocab_start = loop_i * SUB_BLOCK
vocab_offset = vocab_start + tl.arange(0, SUB_BLOCK)
draft_prob = tl.load(draft_probs_ptr +
(start_idx + pos) * vocab_size + vocab_offset,
mask=vocab_offset < vocab_size,
other=0)
target_prob = tl.load(target_probs_ptr +
(start_idx + pos) * vocab_size +
vocab_offset,
mask=vocab_offset < vocab_size,
other=0)
prob = tl.maximum(target_prob - draft_prob, 0)
# NOTE(woosuk): We don't need `prob = prob / tl.sum(prob)` here because
# `tl.argmax` will select the maximum value.
q = tl.load(q_ptr + req_idx * vocab_size + vocab_offset,
mask=vocab_offset < vocab_size,
other=float("-inf"))
new_p = prob / q
recovered_id = tl.argmax(new_p, axis=-1)
max_p = tl.get_element(new_p, (recovered_id, ))
if max_p > global_max_p:
global_max_p = max_p
global_recovered_id = vocab_start + recovered_id
tl.store(output_token_ids_ptr + start_idx + pos, global_recovered_id)
if NO_DRAFT_PROBS:
# Restore the original probability.
tl.store(
target_probs_ptr + (start_idx + pos) * vocab_size + draft_token_id,
orig_prob)
def rejection_greedy_sample_with_triton(output_token_ids, num_draft_tokens,
cu_num_draft_tokens, draft_token_ids,
target_argmax, bonus_token_ids,
is_greedy, max_spec_len, grid,
block_size):
vec_len = output_token_ids.shape[0]
if min(num_draft_tokens) == 1 and max(
num_draft_tokens) == 1 and is_greedy is None:
rejection_greedy_sample_spec_len_1_triton[(grid, )](
output_token_ids,
draft_token_ids,
target_argmax,
bonus_token_ids,
vec_len,
BLOCK_SIZE=block_size,
)
else:
rejection_greedy_sample_triton[(grid, )](
output_token_ids,
cu_num_draft_tokens,
draft_token_ids,
target_argmax,
bonus_token_ids,
is_greedy,
vec_len,
max_spec_len,
BLOCK_SIZE=block_size,
)
def expand_triton(batch_size, expanded_x, x, cu_num_tokens, replace_from,
replace_to, max_num_tokens):
vec_len = batch_size
grid, block_size = cal_grid_and_block_size(batch_size)
expand_kernel[(grid, )](
expanded_x,
x,
cu_num_tokens,
replace_from,
replace_to,
vec_len,
MAX_NUM_TOKENS=max_num_tokens, # To avoid recompilation.
BLOCK_SIZE=block_size,
)
@triton.jit(do_not_specialize=["max_spec_len"])
def rejection_random_sample_block_verify_kernel(
output_token_ids_ptr, # [batch_size, max_spec_len + 1]
cu_num_draft_tokens_ptr, # [batch_size]
draft_token_ids_ptr, # [num_tokens]
draft_probs_ptr, # [num_tokens, vocab_size] or None
target_probs_ptr, # [num_tokens, vocab_size]
bonus_token_ids_ptr, # [batch_size]
recovered_token_ids_ptr, # [num_tokens]
uniform_probs_ptr, # [num_tokens]
is_greedy_ptr, # [batch_size]
max_spec_len,
vocab_size,
vec_len,
NO_DRAFT_PROBS: tl.constexpr,
BLOCK_SIZE: tl.constexpr):
block_idx = tl.program_id(0)
offsets = block_idx * BLOCK_SIZE + tl.arange(0, BLOCK_SIZE)
mask = offsets < vec_len
is_greedy = tl.load(is_greedy_ptr + offsets, mask, other=1)
not_greedy_mask = is_greedy == 0
start_idxs = tl.where(
offsets == 0, 0,
tl.load(cu_num_draft_tokens_ptr + offsets - 1, not_greedy_mask))
end_idxs = tl.load(cu_num_draft_tokens_ptr + offsets, not_greedy_mask)
n_num_draft_tokens = end_idxs - start_idxs
for req_i in range(BLOCK_SIZE):
not_greedy = tl.get_element(not_greedy_mask, (req_i, ))
if not_greedy:
rejected = False
pi = 1.0
uniform_prob = 1.0
last_accepted_token_pos = -1
start_idx = tl.get_element(start_idxs, (req_i, ))
req_idx = block_idx * BLOCK_SIZE + req_i
num_draft_tokens = tl.get_element(n_num_draft_tokens, (req_i, ))
for pos in range(num_draft_tokens):
draft_token_id = tl.load(draft_token_ids_ptr + start_idx + pos)
target_prob = tl.load(target_probs_ptr +
(start_idx + pos) * vocab_size +
draft_token_id)
tmp_uniform_prob = tl.load(uniform_probs_ptr + start_idx + pos)
uniform_prob = uniform_prob * tmp_uniform_prob
if NO_DRAFT_PROBS:
draft_prob = 1
else:
draft_prob = tl.load(draft_probs_ptr +
(start_idx + pos) * vocab_size +
draft_token_id)
pi = min(pi * target_prob / draft_prob, 1.0)
if draft_prob > 0 and pi >= uniform_prob:
last_accepted_token_pos = pos
rejected = False
else:
rejected = True
if last_accepted_token_pos > -1:
for pos in range(last_accepted_token_pos + 1):
token_id = tl.load(draft_token_ids_ptr + start_idx + pos)
tl.store(
output_token_ids_ptr + req_idx * (max_spec_len + 1) +
pos, token_id)
if rejected:
recovered_token_id = tl.load(recovered_token_ids_ptr +
start_idx +
last_accepted_token_pos + 1)
tl.store(
output_token_ids_ptr + req_idx * (max_spec_len + 1) +
last_accepted_token_pos + 1, recovered_token_id)
else:
bonus_token_id = tl.load(bonus_token_ids_ptr + req_idx)
tl.store(
output_token_ids_ptr + req_idx * (max_spec_len + 1) +
num_draft_tokens, bonus_token_id)
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