Signed-off-by: youkaichao <youkaichao@gmail.com> Co-authored-by: Nick Hill <nhill@redhat.com>
307 lines
11 KiB
Python
307 lines
11 KiB
Python
import os
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from functools import partial
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from typing import Any, Awaitable, List, Optional, Set, Tuple, Union
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from vllm.executor.executor_base import ExecutorAsyncBase, ExecutorBase
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from vllm.executor.multiproc_worker_utils import (ProcessWorkerWrapper,
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ResultHandler, WorkerMonitor)
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from vllm.logger import init_logger
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from vllm.lora.request import LoRARequest
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from vllm.model_executor.layers.sampler import SamplerOutput
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from vllm.prompt_adapter.request import PromptAdapterRequest
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from vllm.sequence import ExecuteModelRequest
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from vllm.utils import (get_distributed_init_method, get_open_port,
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get_vllm_instance_id, make_async)
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from vllm.worker.worker_base import WorkerWrapperBase
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logger = init_logger(__name__)
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class CPUExecutor(ExecutorBase):
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uses_ray: bool = False
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def _init_executor(self) -> None:
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assert self.device_config.device_type == "cpu"
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# Reminder: Please update docs/source/serving/compatibility_matrix.rst
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# If the feature combo become valid
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assert self.lora_config is None, "cpu backend doesn't support LoRA"
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#
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# Environment variables for CPU executor
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#
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# Ensure that VLLM_INSTANCE_ID is set, to be inherited by workers
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os.environ["VLLM_INSTANCE_ID"] = get_vllm_instance_id()
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# Disable torch async compiling which won't work with daemonic processes
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os.environ["TORCHINDUCTOR_COMPILE_THREADS"] = "1"
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# Intel OpenMP setting
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ld_prealod_str = os.getenv("LD_PRELOAD", "")
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if "libiomp5.so" in ld_prealod_str:
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# The time(milliseconds) that a thread should wait after
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# completing the execution of a parallel region, before sleeping.
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os.environ['KMP_BLOCKTIME'] = "1"
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# Prevents the CPU to run into low performance state
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os.environ['KMP_TPAUSE'] = "0"
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# Provides fine granularity parallelism
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os.environ['KMP_FORKJOIN_BARRIER_PATTERN'] = "dist,dist"
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os.environ['KMP_PLAIN_BARRIER_PATTERN'] = "dist,dist"
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os.environ['KMP_REDUCTION_BARRIER_PATTERN'] = "dist,dist"
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# To hint IPEX uses shared memory based AllReduce
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os.environ["LOCAL_WORLD_SIZE"] = str(
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self.parallel_config.tensor_parallel_size)
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# Multiprocessing-based executor does not support multi-node setting.
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# Since it only works for single node, we can use the loopback address
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# 127.0.0.1 for communication.
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ip = "127.0.0.1"
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port = get_open_port()
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self.distributed_init_method = get_distributed_init_method(ip, port)
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is_async = isinstance(self, CPUExecutorAsync)
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world_size = self.parallel_config.tensor_parallel_size
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result_handler = ResultHandler()
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self.parallel_worker_tasks: Optional[Union[Any, Awaitable[Any]]] = None
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self.workers = []
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if is_async:
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self.workers = [
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ProcessWorkerWrapper(
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result_handler,
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partial(
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self._create_worker,
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rank=rank,
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local_rank=rank,
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)) for rank in range(0, world_size)
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]
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self.driver_worker = self.workers[0]
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self.workers = self.workers[1:]
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self.driver_method_invoker = _async_driver_method_invoker
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else:
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self.driver_worker = self._create_worker()
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self.driver_method_invoker = _driver_method_invoker
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if world_size != 1:
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self.workers = [
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ProcessWorkerWrapper(
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result_handler,
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partial(
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self._create_worker,
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rank=rank,
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local_rank=rank,
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)) for rank in range(1, world_size)
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]
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self.worker_monitor = None
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if world_size != 1 or is_async:
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if is_async:
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async_worker_list = self.workers + [self.driver_worker]
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else:
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async_worker_list = self.workers
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self.worker_monitor = WorkerMonitor(async_worker_list,
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result_handler)
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result_handler.start()
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self.worker_monitor.start()
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self._run_workers("init_device")
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self._run_workers("load_model")
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def _create_worker(
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self,
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local_rank: int = 0,
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rank: int = 0,
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):
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wrapper = WorkerWrapperBase(vllm_config=self.vllm_config)
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assert self.distributed_init_method is not None
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kwargs = dict(
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vllm_config=self.vllm_config,
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local_rank=local_rank,
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rank=rank,
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distributed_init_method=self.distributed_init_method,
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kv_cache_dtype=self.cache_config.cache_dtype,
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is_driver_worker=rank == 0,
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)
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wrapper.init_worker(**kwargs)
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return wrapper.worker
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def _run_workers(
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self,
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method: str,
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*args,
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async_run_remote_workers_only: bool = False,
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max_concurrent_workers: Optional[int] = None,
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**kwargs,
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) -> Any:
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"""Runs the given method on all workers.
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Args:
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async_run_remote_workers_only: If True the method will be run only
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in the remote workers, not the driver worker. It will also be
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run asynchronously and return a list of futures rather than
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blocking on the results.
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"""
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if max_concurrent_workers:
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raise NotImplementedError(
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"max_concurrent_workers is not supported yet.")
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# Start the workers first.
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worker_outputs = [
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worker.execute_method(method, *args, **kwargs)
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for worker in self.workers
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]
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if async_run_remote_workers_only:
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# Just return futures
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return worker_outputs
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driver_worker_output = self.driver_method_invoker(
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self.driver_worker, method, *args, **kwargs)
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# Get the results of the workers.
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return [driver_worker_output
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] + [output.get() for output in worker_outputs]
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def determine_num_available_blocks(self) -> Tuple[int, int]:
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"""Determine the number of available KV blocks by invoking the
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underlying worker.
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"""
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return self.driver_method_invoker(self.driver_worker,
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"determine_num_available_blocks")
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def initialize_cache(self, num_gpu_blocks: int,
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num_cpu_blocks: int) -> None:
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"""Initialize the KV cache by invoking the underlying worker.
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"""
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# NOTE: We log here to avoid multiple logs when number of workers is
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# greater than one. We could log in the engine, but not all executors
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# have GPUs.
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# NOTE: `cpu block` for CPU backend is located on CPU memory but is
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# referred as `gpu block`. Because we want to reuse the existing block
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# management procedure.
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logger.info("# CPU blocks: %d", num_gpu_blocks)
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self._run_workers("initialize_cache",
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num_gpu_blocks=num_gpu_blocks,
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num_cpu_blocks=num_cpu_blocks)
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def execute_model(
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self,
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execute_model_req: ExecuteModelRequest) -> List[SamplerOutput]:
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if (self.parallel_config.tensor_parallel_size > 1
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and self.parallel_worker_tasks is None):
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self.parallel_worker_tasks = self._run_workers(
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"start_worker_execution_loop",
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async_run_remote_workers_only=True,
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)
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output = self.driver_method_invoker(self.driver_worker,
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"execute_model", execute_model_req)
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return output
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def stop_remote_worker_execution_loop(self) -> None:
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if self.parallel_worker_tasks is None:
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return
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"""
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Passing None will cause the driver to stop the model execution
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loop running in each of the remote workers.
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"""
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self.driver_method_invoker(self.driver_worker, "execute_model", None)
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parallel_worker_tasks = self.parallel_worker_tasks
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self.parallel_worker_tasks = None
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# Ensure that workers exit model loop cleanly
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# (this will raise otherwise)
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self._wait_for_tasks_completion(parallel_worker_tasks)
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def add_lora(self, lora_request: LoRARequest) -> bool:
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return all(self._run_workers("add_lora", lora_request))
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def remove_lora(self, lora_id: int) -> bool:
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return all(self._run_workers("remove_lora", lora_id))
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def pin_lora(self, lora_id: int) -> bool:
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assert lora_id > 0, "lora_id must be greater than 0."
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return all(self._run_workers(
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"pin_lora",
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lora_id=lora_id,
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))
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def list_loras(self) -> Set[int]:
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return self.driver_method_invoker(self.driver_worker, "list_loras")
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def add_prompt_adapter(
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self, prompt_adapter_request: PromptAdapterRequest) -> bool:
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return all(
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self._run_workers(
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"add_prompt_adapter",
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prompt_adapter_request,
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))
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def remove_prompt_adapter(self, prompt_adapter_id: int) -> bool:
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return all(
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self._run_workers(
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"remove_prompt_adapter",
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prompt_adapter_id,
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))
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def list_prompt_adapters(self) -> Set[int]:
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return self.driver_method_invoker(self.driver_worker,
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"list_prompt_adapters")
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def pin_prompt_adapter(self, prompt_adapter_id: int) -> bool:
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return all(self._run_workers(
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"pin_prompt_adapter",
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prompt_adapter_id,
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))
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def check_health(self) -> None:
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"""Raises an error if engine is unhealthy."""
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if self.worker_monitor is not None and not self.worker_monitor.is_alive(
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):
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raise RuntimeError("Worker processes are not running")
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def shutdown(self):
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if (worker_monitor := getattr(self, "worker_monitor",
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None)) is not None:
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worker_monitor.close()
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def _wait_for_tasks_completion(self, parallel_worker_tasks: Any) -> None:
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"""Wait for futures returned from _run_workers() with
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async_run_remote_workers_only to complete."""
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for result in parallel_worker_tasks:
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result.get()
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def start_profile(self) -> None:
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self.driver_method_invoker(self.driver_worker, "start_profile")
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def stop_profile(self) -> None:
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self.driver_method_invoker(self.driver_worker, "stop_profile")
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class CPUExecutorAsync(CPUExecutor, ExecutorAsyncBase):
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async def execute_model_async(
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self,
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execute_model_req: ExecuteModelRequest) -> List[SamplerOutput]:
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output = await make_async(self.execute_model
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)(execute_model_req=execute_model_req, )
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return output
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async def check_health_async(self) -> None:
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self.check_health()
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def _driver_method_invoker(driver, method: str, *args, **kwargs):
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return getattr(driver, method)(*args, **kwargs)
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def _async_driver_method_invoker(driver, method: str, *args, **kwargs):
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return driver.execute_method(method, *args, **kwargs).get()
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