EngineX/xc-llm-ascend
3
0
Fork 0
Code Issues Pull Requests Actions Projects Releases Wiki Activity
Files
7bdc606677705d072c1dc45f050a3c3471d6d379
xc-llm-ascend/vllm_ascend/utils.py
sdmyzlp 7bdc606677 Support multistream of shared experts in FusedMoE (#997) 
Contains on #1111 for completeness.

<!--  Thanks for sending a pull request!

BEFORE SUBMITTING, PLEASE READ
https://docs.vllm.ai/en/latest/contributing/overview.html

-->
### What this PR does / why we need it?
Implement multi-stream parallelism for MoE layers with shared experts,
where computation of shared experts will be overlapped with expert token
dispatch and combine. Also, when multi-stream is enabled, weights of
shared experts will be force to replicate across all cards, regardless
of any tensor parallelism configurations, to avoid AllReduce operations.

With the expected overlaping being:
```
| shared gate_up | shared act |              | shared down |
|    dispatch    | routed gate_up, act, down |   combine   |
```

<!--
- Please clarify what changes you are proposing. The purpose of this
section is to outline the changes and how this PR fixes the issue.
If possible, please consider writing useful notes for better and faster
reviews in your PR.

- Please clarify why the changes are needed. For instance, the use case
and bug description.

- Fixes #
-->

### Does this PR introduce _any_ user-facing change?
No.

<!--
Note that it means *any* user-facing change including all aspects such
as API, interface or other behavior changes.
Documentation-only updates are not considered user-facing changes.
-->

### How was this patch tested?
Tested on 1x16 910 node, with tailored 2 layer DSKv2.
<!--
CI passed with new added/existing test.
If it was tested in a way different from regular unit tests, please
clarify how you tested step by step, ideally copy and paste-able, so
that other reviewers can test and check, and descendants can verify in
the future.
If tests were not added, please describe why they were not added and/or
why it was difficult to add.
-->

---------

Signed-off-by: sdmyzlp <lrwei2@petalmail.com>
2025-06-11 09:18:38 +08:00

250 lines
8.7 KiB
Python
Raw Blame History

#
# Copyright (c) 2025 Huawei Technologies Co., Ltd. All Rights Reserved.
# Copyright 2023 The vLLM team.
#
# 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.
# This file is a part of the vllm-ascend project.
# Adapted from vllm-project/vllm/vllm/worker/worker.py
#
import atexit
import math
from contextlib import contextmanager, nullcontext
from threading import Lock
from typing import TYPE_CHECKING, List, Tuple
import torch
import torchair # type: ignore[import] # noqa: F401
from packaging.version import InvalidVersion, Version
from torch_npu.npu.streams import Event
from vllm.logger import logger
import vllm_ascend.envs as envs
try:
# Recent release of torchair has moved these ops to `.scope`.
from torchair.scope import npu_stream_switch as _npu_stream_switch
from torchair.scope import npu_wait_tensor as _npu_wait_tensor
except ImportError:
from torchair.ops import NpuStreamSwitch as _npu_stream_switch
from torchair.ops import npu_wait_tensor as _npu_wait_tensor
if TYPE_CHECKING:
from vllm.config import VllmConfig
else:
VllmConfig = None
# NOTE: Currently, we can only capture 1920 graphs at most,
# due to the limitation of ACL graph. This number is bounded by
# the number of streams, which is 2048, we save 128 streams
# as a buffer.
# Maximum number of graphs that can be captured by ACL Graph
MAX_CAPTURE_SIZE = 1920
ASCEND_QUATIZATION_METHOD = "ascend"
def try_register_lib(lib_name: str, lib_info: str = ""):
import importlib
import importlib.util
try:
module_spec = importlib.util.find_spec(lib_name)
if module_spec is not None:
importlib.import_module(lib_name)
if lib_info:
logger.info(lib_info)
except Exception:
pass
def find_hccl_library() -> str:
"""
We either use the library file specified by the `HCCL_SO_PATH`
environment variable, or we find the library file brought by PyTorch.
After importing `torch`, `libhccl.so` can be
found by `ctypes` automatically.
"""
so_file = envs.HCCL_SO_PATH
# manually load the hccl library
if so_file:
logger.info("Found hccl from environment variable HCCL_SO_PATH=%s",
so_file)
else:
if torch.version.cann is not None:
so_file = "libhccl.so"
else:
raise ValueError("HCCL only supports Ascend NPU backends.")
logger.info("Found hccl from library %s", so_file)
return so_file
_current_stream = None
def current_stream() -> torch.npu.Stream:
"""
replace `torch.npu.current_stream()` with `vllm.utils.current_stream()`.
it turns out that `torch.npu.current_stream()` is quite expensive,
as it will construct a new stream object at each call.
here we patch `torch.npu.set_stream` to keep track of the current stream
directly, so that we can avoid calling `torch.npu.current_stream()`.
"""
global _current_stream
if _current_stream is None:
# when this function is called before any stream is set,
# we return the default stream.
_current_stream = torch.npu.current_stream()
return _current_stream
def adapt_patch(is_global_patch: bool = False):
if is_global_patch:
from vllm_ascend.patch import platform # noqa: F401
else:
from vllm_ascend.patch import worker # noqa: F401
def vllm_version_is(target_vllm_version: str):
if envs.VLLM_VERSION is not None:
vllm_version = envs.VLLM_VERSION
else:
import vllm
vllm_version = vllm.__version__
try:
return Version(vllm_version) == Version(target_vllm_version)
except InvalidVersion:
raise ValueError(
f"Invalid vllm version {vllm_version} found. A dev version of vllm "
"is installed probably. Set the environment variable VLLM_VERSION "
"to control it by hand. And please make sure the value follows the "
"format of x.y.z.")
def update_aclgraph_sizes(vllm_config: VllmConfig) -> None:
"""Update ACL graph capture sizes based on hardware limitations"""
# Store original configuration and temporarily clear it
compilation_config = vllm_config.compilation_config
original_sizes, compilation_config.cudagraph_capture_sizes = \
compilation_config.cudagraph_capture_sizes, None
# Calculate parallel configuration factor
num_hidden_layers = vllm_config.model_config.hf_config.num_hidden_layers
parallel_config = vllm_config.parallel_config
# TODO: Find out whether we need to take into account the pp_size
parallel_factor = 1 + sum(size > 1 for size in [
parallel_config.data_parallel_size_local,
parallel_config.tensor_parallel_size,
parallel_config.expert_parallel_size,
parallel_config.expert_tensor_parallel_size,
])
# Calculate maximum supported batch sizes considering model architecture
max_num_batch_sizes = math.floor(MAX_CAPTURE_SIZE /
(num_hidden_layers + 1) / parallel_factor)
logger.info("Calculated maximum supported batch sizes for ACL graph: %s",
max_num_batch_sizes)
# If original sizes exceed maximum, sample a representative subset
if max_num_batch_sizes < len(original_sizes):
# Sample uniformly from original sizes
step = (len(original_sizes) - 1) / (max_num_batch_sizes - 1)
indices = [round(i * step) for i in range(max_num_batch_sizes)]
# Ensure first and last elements are preserved
indices[0], indices[-1] = 0, len(original_sizes) - 1
sampled_sizes = [original_sizes[i] for i in indices]
compilation_config.init_with_cudagraph_sizes(sampled_sizes)
logger.info(
"Adjusted ACL graph batch sizes for %s model (layers: %d): %d%d sizes",
vllm_config.model_config.architectures[0],
num_hidden_layers,
len(original_sizes),
len(compilation_config.
cudagraph_capture_sizes # type: ignore[arg-type]
))
else:
# No adjustment needed
compilation_config.cudagraph_capture_sizes = original_sizes
logger.info(
"No adjustment needed for ACL graph batch sizes: %s model (layers: %d) with %d sizes",
vllm_config.model_config.architectures[0], num_hidden_layers,
len(original_sizes))
def dispose_tensor(x: torch.Tensor):
x.set_(torch.empty((0, ), device=x.device, dtype=x.dtype))
class ProfileExecuteDuration:
_instance = None
_observations: List[Tuple[str, Event, Event]] = []
_lock = Lock()
def __new__(cls):
with cls._lock:
if cls._instance is None:
cls._instance = super().__new__(cls)
atexit.register(cls._instance.destroy)
return cls._instance
def destroy(self):
with self._lock:
self._observations.clear()
@contextmanager
def capture_async(self, duration_tag: str):
if not envs.VLLM_ASCEND_MODEL_EXECUTE_TIME_OBSERVE:
yield
return
observe_start = Event(enable_timing=True)
observe_start.record()
try:
yield
finally:
observe_end = Event(enable_timing=True)
observe_end.record()
with self._lock:
self._observations.append(
(duration_tag, observe_start, observe_end))
def pop_captured_sync(self) -> dict:
"""Pop and synchronize all events in the observation list"""
durations: dict[str, float] = {}
if not envs.VLLM_ASCEND_MODEL_EXECUTE_TIME_OBSERVE:
return durations
while self._observations:
with self._lock:
tag, observe_start, observe_end = self._observations.pop()
observe_end.synchronize()
durations[tag] = observe_start.elapsed_time(observe_end)
return durations
def npu_stream_switch(tag: str, priority: int, *, enabled: bool = True):
return _npu_stream_switch(tag, priority) if enabled else nullcontext()
def npu_wait_tensor(self: torch.Tensor,
dependency: torch.Tensor,
*,
enabled: bool = True):
return _npu_wait_tensor(self, dependency) if enabled else self
Reference in New Issue View Git Blame Copy Permalink