import argparse import dataclasses import json import uuid import aphrodite.common.envs as envs from aphrodite import LLM from aphrodite.engine.args_tools import EngineArgs from aphrodite.modeling.model_loader.tensorizer import ( TensorizerArgs, TensorizerConfig, tensorize_aphrodite_model) # yapf conflicts with isort for this docstring # yapf: disable """ tensorize_aphrodite_model.py is a script that can be used to serialize and deserialize Aphrodite models. These models can be loaded using tensorizer to the GPU extremely quickly over an HTTP/HTTPS endpoint, an S3 endpoint, or locally. Tensor encryption and decryption is also supported, although libsodium must be installed to use it. Install aphrodite with tensorizer support using `pip install aphrodite[tensorizer]`. To learn more about tensorizer, visit https://github.com/coreweave/tensorizer To serialize a model, install Aphrodite from source, then run something like this from the root level of this repository: python -m examples.tensorize_aphrodite_model \ --model facebook/opt-125m \ serialize \ --serialized-directory s3://my-bucket \ --suffix v1 Which downloads the model from HuggingFace, loads it into Aphrodite, serializes it, and saves it to your S3 bucket. A local directory can also be used. This assumes your S3 credentials are specified as environment variables in the form of `S3_ACCESS_KEY_ID`, `S3_SECRET_ACCESS_KEY`, and `S3_ENDPOINT_URL`. To provide S3 credentials directly, you can provide `--s3-access-key-id` and `--s3-secret-access-key`, as well as `--s3-endpoint` as CLI args to this script. You can also encrypt the model weights with a randomly-generated key by providing a `--keyfile` argument. To deserialize a model, you can run something like this from the root level of this repository: python -m examples.tensorize_aphrodite_model \ --model EleutherAI/gpt-j-6B \ --dtype float16 \ deserialize \ --path-to-tensors s3://my-bucket/aphrodite/EleutherAI/gpt-j-6B/v1/model.tensors Which downloads the model tensors from your S3 bucket and deserializes them. You can also provide a `--keyfile` argument to decrypt the model weights if they were serialized with encryption. To support distributed tensor-parallel models, each model shard will be serialized to a separate file. The tensorizer_uri is then specified as a string template with a format specifier such as '%03d' that will be rendered with the shard's rank. Sharded models serialized with this script will be named as model-rank-%03d.tensors For more information on the available arguments for serializing, run `python -m examples.tensorize_aphrodite_model serialize --help`. Or for deserializing: `python -m examples.tensorize_aphrodite_model deserialize --help`. Once a model is serialized, tensorizer can be invoked with the `LLM` class directly to load models: llm = LLM(model="facebook/opt-125m", load_format="tensorizer", model_loader_extra_config=TensorizerConfig( tensorizer_uri = path_to_tensors, num_readers=3, ) ) A serialized model can be used during model loading for the Aphrodite OpenAI inference server. `model_loader_extra_config` is exposed as the CLI arg `--model-loader-extra-config`, and accepts a JSON string literal of the TensorizerConfig arguments desired. In order to see all of the available arguments usable to configure loading with tensorizer that are given to `TensorizerConfig`, run: `python -m examples.tensorize_aphrodite_model deserialize --help` under the `tensorizer options` section. These can also be used for deserialization in this example script, although `--tensorizer-uri` and `--path-to-tensors` are functionally the same in this case. """ def parse_args(): parser = argparse.ArgumentParser( description="An example script that can be used to serialize and " "deserialize Aphrodite models. These models " "can be loaded using tensorizer directly to the GPU " "extremely quickly. Tensor encryption and decryption is " "also supported, although libsodium must be installed to " "use it.") parser = EngineArgs.add_cli_args(parser) subparsers = parser.add_subparsers(dest='command') serialize_parser = subparsers.add_parser( 'serialize', help="Serialize a model to `--serialized-directory`") serialize_parser.add_argument( "--suffix", type=str, required=False, help=( "The suffix to append to the serialized model directory, which is " "used to construct the location of the serialized model tensors, " "e.g. if `--serialized-directory` is `s3://my-bucket/` and " "`--suffix` is `v1`, the serialized model tensors will be " "saved to " "`s3://my-bucket/aphrodite/EleutherAI/gpt-j-6B/v1/model.tensors`. " "If none is provided, a random UUID will be used.")) serialize_parser.add_argument( "--serialized-directory", type=str, required=True, help="The directory to serialize the model to. " "This can be a local directory or S3 URI. The path to where the " "tensors are saved is a combination of the supplied `dir` and model " "reference ID. For instance, if `dir` is the serialized directory, " "and the model HuggingFace ID is `EleutherAI/gpt-j-6B`, tensors will " "be saved to `dir/aphrodite/EleutherAI/gpt-j-6B/suffix/model.tensors`, " "where `suffix` is given by `--suffix` or a random UUID if not " "provided.") serialize_parser.add_argument( "--keyfile", type=str, required=False, help=("Encrypt the model weights with a randomly-generated binary key," " and save the key at this path")) deserialize_parser = subparsers.add_parser( 'deserialize', help=("Deserialize a model from `--path-to-tensors`" " to verify it can be loaded and used.")) deserialize_parser.add_argument( "--path-to-tensors", type=str, required=True, help="The local path or S3 URI to the model tensors to deserialize. ") deserialize_parser.add_argument( "--keyfile", type=str, required=False, help=("Path to a binary key to use to decrypt the model weights," " if the model was serialized with encryption")) TensorizerArgs.add_cli_args(deserialize_parser) return parser.parse_args() def deserialize(): llm = LLM(model=args.model, load_format="tensorizer", tensor_parallel_size=args.tensor_parallel_size, model_loader_extra_config=tensorizer_config ) return llm if __name__ == '__main__': args = parse_args() s3_access_key_id = (getattr(args, 's3_access_key_id', None) or envs.S3_ACCESS_KEY_ID) s3_secret_access_key = (getattr(args, 's3_secret_access_key', None) or envs.S3_SECRET_ACCESS_KEY) s3_endpoint = (getattr(args, 's3_endpoint', None) or envs.S3_ENDPOINT_URL) credentials = { "s3_access_key_id": s3_access_key_id, "s3_secret_access_key": s3_secret_access_key, "s3_endpoint": s3_endpoint } model_ref = args.model model_name = model_ref.split("/")[1] keyfile = args.keyfile if args.keyfile else None if args.model_loader_extra_config: config = json.loads(args.model_loader_extra_config) tensorizer_args = \ TensorizerConfig(**config)._construct_tensorizer_args() tensorizer_args.tensorizer_uri = args.path_to_tensors else: tensorizer_args = None if args.command == "serialize": eng_args_dict = {f.name: getattr(args, f.name) for f in dataclasses.fields(EngineArgs)} engine_args = EngineArgs.from_cli_args( argparse.Namespace(**eng_args_dict) ) input_dir = args.serialized_directory.rstrip('/') suffix = args.suffix if args.suffix else uuid.uuid4().hex base_path = f"{input_dir}/aphrodite/{model_ref}/{suffix}" if engine_args.tensor_parallel_size > 1: model_path = f"{base_path}/model-rank-%03d.tensors" else: model_path = f"{base_path}/model.tensors" tensorizer_config = TensorizerConfig( tensorizer_uri=model_path, encryption_keyfile=keyfile, **credentials) tensorize_aphrodite_model(engine_args, tensorizer_config) elif args.command == "deserialize": if not tensorizer_args: tensorizer_config = TensorizerConfig( tensorizer_uri=args.path_to_tensors, encryption_keyfile = keyfile, **credentials ) deserialize() else: raise ValueError("Either serialize or deserialize must be specified.")