import importlib.util import logging import pickle from typing import Any, Callable, List, Mapping, Optional from langchain_core.callbacks import CallbackManagerForLLMRun from langchain_core.language_models.llms import LLM from langchain_core.pydantic_v1 import Extra from langchain_community.llms.utils import enforce_stop_tokens logger = logging.getLogger(__name__) def _generate_text( pipeline: Any, prompt: str, *args: Any, stop: Optional[List[str]] = None, **kwargs: Any, ) -> str: """Inference function to send to the remote hardware. Accepts a pipeline callable (or, more likely, a key pointing to the model on the cluster's object store) and returns text predictions for each document in the batch. """ text = pipeline(prompt, *args, **kwargs) if stop is not None: text = enforce_stop_tokens(text, stop) return text def _send_pipeline_to_device(pipeline: Any, device: int) -> Any: """Send a pipeline to a device on the cluster.""" if isinstance(pipeline, str): with open(pipeline, "rb") as f: pipeline = pickle.load(f) if importlib.util.find_spec("torch") is not None: import torch cuda_device_count = torch.cuda.device_count() if device < -1 or (device >= cuda_device_count): raise ValueError( f"Got device=={device}, " f"device is required to be within [-1, {cuda_device_count})" ) if device < 0 and cuda_device_count > 0: logger.warning( "Device has %d GPUs available. " "Provide device={deviceId} to `from_model_id` to use available" "GPUs for execution. deviceId is -1 for CPU and " "can be a positive integer associated with CUDA device id.", cuda_device_count, ) pipeline.device = torch.device(device) pipeline.model = pipeline.model.to(pipeline.device) return pipeline class SelfHostedPipeline(LLM): """Model inference on self-hosted remote hardware. Supported hardware includes auto-launched instances on AWS, GCP, Azure, and Lambda, as well as servers specified by IP address and SSH credentials (such as on-prem, or another cloud like Paperspace, Coreweave, etc.). To use, you should have the ``runhouse`` python package installed. Example for custom pipeline and inference functions: .. code-block:: python from langchain_community.llms import SelfHostedPipeline from transformers import AutoModelForCausalLM, AutoTokenizer, pipeline import runhouse as rh def load_pipeline(): tokenizer = AutoTokenizer.from_pretrained("gpt2") model = AutoModelForCausalLM.from_pretrained("gpt2") return pipeline( "text-generation", model=model, tokenizer=tokenizer, max_new_tokens=10 ) def inference_fn(pipeline, prompt, stop = None): return pipeline(prompt)[0]["generated_text"] gpu = rh.cluster(name="rh-a10x", instance_type="A100:1") llm = SelfHostedPipeline( model_load_fn=load_pipeline, hardware=gpu, model_reqs=model_reqs, inference_fn=inference_fn ) Example for <2GB model (can be serialized and sent directly to the server): .. code-block:: python from langchain_community.llms import SelfHostedPipeline import runhouse as rh gpu = rh.cluster(name="rh-a10x", instance_type="A100:1") my_model = ... llm = SelfHostedPipeline.from_pipeline( pipeline=my_model, hardware=gpu, model_reqs=["./", "torch", "transformers"], ) Example passing model path for larger models: .. code-block:: python from langchain_community.llms import SelfHostedPipeline import runhouse as rh import pickle from transformers import pipeline generator = pipeline(model="gpt2") rh.blob(pickle.dumps(generator), path="models/pipeline.pkl" ).save().to(gpu, path="models") llm = SelfHostedPipeline.from_pipeline( pipeline="models/pipeline.pkl", hardware=gpu, model_reqs=["./", "torch", "transformers"], ) """ pipeline_ref: Any #: :meta private: client: Any #: :meta private: inference_fn: Callable = _generate_text #: :meta private: """Inference function to send to the remote hardware.""" hardware: Any """Remote hardware to send the inference function to.""" model_load_fn: Callable """Function to load the model remotely on the server.""" load_fn_kwargs: Optional[dict] = None """Keyword arguments to pass to the model load function.""" model_reqs: List[str] = ["./", "torch"] """Requirements to install on hardware to inference the model.""" class Config: """Configuration for this pydantic object.""" extra = Extra.forbid def __init__(self, **kwargs: Any): """Init the pipeline with an auxiliary function. The load function must be in global scope to be imported and run on the server, i.e. in a module and not a REPL or closure. Then, initialize the remote inference function. """ super().__init__(**kwargs) try: import runhouse as rh except ImportError: raise ImportError( "Could not import runhouse python package. " "Please install it with `pip install runhouse`." ) remote_load_fn = rh.function(fn=self.model_load_fn).to( self.hardware, reqs=self.model_reqs ) _load_fn_kwargs = self.load_fn_kwargs or {} self.pipeline_ref = remote_load_fn.remote(**_load_fn_kwargs) self.client = rh.function(fn=self.inference_fn).to( self.hardware, reqs=self.model_reqs ) @classmethod def from_pipeline( cls, pipeline: Any, hardware: Any, model_reqs: Optional[List[str]] = None, device: int = 0, **kwargs: Any, ) -> LLM: """Init the SelfHostedPipeline from a pipeline object or string.""" if not isinstance(pipeline, str): logger.warning( "Serializing pipeline to send to remote hardware. " "Note, it can be quite slow" "to serialize and send large models with each execution. " "Consider sending the pipeline" "to the cluster and passing the path to the pipeline instead." ) load_fn_kwargs = {"pipeline": pipeline, "device": device} return cls( load_fn_kwargs=load_fn_kwargs, model_load_fn=_send_pipeline_to_device, hardware=hardware, model_reqs=["transformers", "torch"] + (model_reqs or []), **kwargs, ) @property def _identifying_params(self) -> Mapping[str, Any]: """Get the identifying parameters.""" return { **{"hardware": self.hardware}, } @property def _llm_type(self) -> str: return "self_hosted_llm" def _call( self, prompt: str, stop: Optional[List[str]] = None, run_manager: Optional[CallbackManagerForLLMRun] = None, **kwargs: Any, ) -> str: return self.client( pipeline=self.pipeline_ref, prompt=prompt, stop=stop, **kwargs )