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vllm/vllm/attention/ops/paged_attn.py
Russell Bryant e489ad7a21 [Misc] Add SPDX-License-Identifier headers to python source files (#12628) 
- **Add SPDX license headers to python source files**
- **Check for SPDX headers using pre-commit**

commit 9d7ef44c3cfb72ca4c32e1c677d99259d10d4745
Author: Russell Bryant <rbryant@redhat.com>
Date:   Fri Jan 31 14:18:24 2025 -0500

    Add SPDX license headers to python source files
    
This commit adds SPDX license headers to python source files as
recommended to
the project by the Linux Foundation. These headers provide a concise way
that is
both human and machine readable for communicating license information
for each
source file. It helps avoid any ambiguity about the license of the code
and can
    also be easily used by tools to help manage license compliance.
    
The Linux Foundation runs license scans against the codebase to help
ensure
    we are in compliance with the licenses of the code we use, including
dependencies. Having these headers in place helps that tool do its job.
    
    More information can be found on the SPDX site:
    
    - https://spdx.dev/learn/handling-license-info/
    
    Signed-off-by: Russell Bryant <rbryant@redhat.com>

commit 5a1cf1cb3b80759131c73f6a9dddebccac039dea
Author: Russell Bryant <rbryant@redhat.com>
Date:   Fri Jan 31 14:36:32 2025 -0500

    Check for SPDX headers using pre-commit
    
    Signed-off-by: Russell Bryant <rbryant@redhat.com>

---------

Signed-off-by: Russell Bryant <rbryant@redhat.com>
2025-02-02 11:58:18 -08:00

256 lines
8.1 KiB
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# SPDX-License-Identifier: Apache-2.0
from dataclasses import dataclass
from typing import List, Optional, Tuple
import torch
from vllm import _custom_ops as ops
from vllm.triton_utils import HAS_TRITON
if HAS_TRITON:
from vllm.attention.ops.prefix_prefill import context_attention_fwd
# Should be the same as PARTITION_SIZE in `paged_attention_v2_launcher`.
_PARTITION_SIZE = 512
@dataclass
class PagedAttentionMetadata:
"""Metadata for PagedAttention."""
# (batch_size,). The length of sequences (entire tokens seen so far) per
# sequence.
seq_lens_tensor: Optional[torch.Tensor]
# Maximum sequence length in the batch. 0 if it is prefill-only batch.
max_decode_seq_len: int
# (batch_size, max_blocks_per_seq).
# Block addresses per sequence. (Seq id -> list of physical block)
# E.g., [0, 1, 2] means tokens are stored in 0th, 1st, and 2nd blocks
# in the kv cache. Each block can contain up to block_size tokens.
# 2nd dimensions are padded up to max_blocks_per_seq if it is cuda-graph
# captured.
block_tables: Optional[torch.Tensor]
class PagedAttention:
@staticmethod
def get_supported_head_sizes() -> List[int]:
return [32, 64, 80, 96, 112, 120, 128, 192, 256]
@staticmethod
def get_kv_cache_shape(
num_blocks: int,
block_size: int,
num_kv_heads: int,
head_size: int,
) -> Tuple[int, ...]:
return (2, num_blocks, block_size * num_kv_heads * head_size)
@staticmethod
def split_kv_cache(
kv_cache: torch.Tensor,
num_kv_heads: int,
head_size: int,
) -> Tuple[torch.Tensor, torch.Tensor]:
x = 16 // kv_cache.element_size()
num_blocks = kv_cache.shape[1]
key_cache = kv_cache[0]
key_cache = key_cache.view(num_blocks, num_kv_heads, head_size // x,
-1, x)
value_cache = kv_cache[1]
value_cache = value_cache.view(num_blocks, num_kv_heads, head_size, -1)
return key_cache, value_cache
@staticmethod
def write_to_paged_cache(
key: torch.Tensor,
value: torch.Tensor,
key_cache: torch.Tensor,
value_cache: torch.Tensor,
slot_mapping: torch.Tensor,
kv_cache_dtype: str,
k_scale: torch.Tensor,
v_scale: torch.Tensor,
) -> None:
ops.reshape_and_cache(
key,
value,
key_cache,
value_cache,
slot_mapping.flatten(),
kv_cache_dtype,
k_scale,
v_scale,
)
@staticmethod
def forward_decode(
query: torch.Tensor,
key_cache: torch.Tensor,
value_cache: torch.Tensor,
block_tables: torch.Tensor,
seq_lens: torch.Tensor,
max_seq_len: int,
kv_cache_dtype: str,
num_kv_heads: int,
scale: float,
alibi_slopes: Optional[torch.Tensor],
k_scale: torch.Tensor,
v_scale: torch.Tensor,
tp_rank: int = 0,
blocksparse_local_blocks: int = 0,
blocksparse_vert_stride: int = 0,
blocksparse_block_size: int = 64,
blocksparse_head_sliding_step: int = 0,
) -> torch.Tensor:
if blocksparse_vert_stride is not None and blocksparse_vert_stride > 1:
# use blocksparse paged attention
block_size = value_cache.size(-1)
assert (blocksparse_block_size > 0 and
blocksparse_block_size % block_size == 0), \
(f"{blocksparse_block_size=} needs to be a multiple of"
f"{block_size=} used in block_tables.")
output = torch.empty_like(query)
block_size = value_cache.shape[3]
num_seqs, num_heads, head_size = query.shape
max_num_partitions = ((max_seq_len + _PARTITION_SIZE - 1) //
_PARTITION_SIZE)
# NOTE(woosuk): We use a simple heuristic to decide whether to use
# PagedAttention V1 or V2. If the number of partitions is 1, we use
# V1 to avoid the overhead of reduction. Also, if the number of
# sequences or heads is large, we use V1 since there is enough work
# to parallelize.
# TODO(woosuk): Tune this heuristic.
# For context len > 8192, use V2 kernel to avoid shared memory shortage.
use_v1 = (max_seq_len <= 8192
and (max_num_partitions == 1 or num_seqs * num_heads > 512))
if use_v1:
# Run PagedAttention V1.
ops.paged_attention_v1(
output,
query,
key_cache,
value_cache,
num_kv_heads,
scale,
block_tables,
seq_lens,
block_size,
max_seq_len,
alibi_slopes,
kv_cache_dtype,
k_scale,
v_scale,
tp_rank,
blocksparse_local_blocks,
blocksparse_vert_stride,
blocksparse_block_size,
blocksparse_head_sliding_step,
)
else:
# Run PagedAttention V2.
assert _PARTITION_SIZE % block_size == 0
tmp_output = torch.empty(
size=(num_seqs, num_heads, max_num_partitions, head_size),
dtype=output.dtype,
device=output.device,
)
exp_sums = torch.empty(
size=(num_seqs, num_heads, max_num_partitions),
dtype=torch.float32,
device=output.device,
)
max_logits = torch.empty_like(exp_sums)
ops.paged_attention_v2(
output,
exp_sums,
max_logits,
tmp_output,
query,
key_cache,
value_cache,
num_kv_heads,
scale,
block_tables,
seq_lens,
block_size,
max_seq_len,
alibi_slopes,
kv_cache_dtype,
k_scale,
v_scale,
tp_rank,
blocksparse_local_blocks,
blocksparse_vert_stride,
blocksparse_block_size,
blocksparse_head_sliding_step,
)
return output
@staticmethod
def forward_prefix(
query: torch.Tensor,
key: torch.Tensor,
value: torch.Tensor,
kv_cache_dtype: str,
key_cache: torch.Tensor,
value_cache: torch.Tensor,
block_tables: torch.Tensor,
query_start_loc: torch.Tensor,
seq_lens_tensor: torch.Tensor,
context_lens: torch.Tensor,
max_query_len: int,
alibi_slopes: Optional[torch.Tensor],
sliding_window: Optional[int],
k_scale: torch.Tensor,
v_scale: torch.Tensor,
) -> torch.Tensor:
output = torch.empty_like(query)
context_attention_fwd(
query,
key,
value,
output,
kv_cache_dtype,
key_cache,
value_cache,
block_tables,
# query_start_loc is (batch_size + 1,)
query_start_loc[:-1],
seq_lens_tensor,
context_lens,
max_query_len,
k_scale,
v_scale,
alibi_slopes,
sliding_window,
)
return output
@staticmethod
def swap_blocks(
src_kv_cache: torch.Tensor,
dst_kv_cache: torch.Tensor,
src_to_dst: torch.Tensor,
) -> None:
src_key_cache = src_kv_cache[0]
dst_key_cache = dst_kv_cache[0]
ops.swap_blocks(src_key_cache, dst_key_cache, src_to_dst)
src_value_cache = src_kv_cache[1]
dst_value_cache = dst_kv_cache[1]
ops.swap_blocks(src_value_cache, dst_value_cache, src_to_dst)
@staticmethod
def copy_blocks(
kv_caches: List[torch.Tensor],
src_to_dists: torch.Tensor,
) -> None:
key_caches = [kv_cache[0] for kv_cache in kv_caches]
value_caches = [kv_cache[1] for kv_cache in kv_caches]
ops.copy_blocks(key_caches, value_caches, src_to_dists)
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