직렬화
huggingface_hub에는 ML 라이브러리가 모델 가중치를 표준화된 방식으로 직렬화 할 수 있도록 돕는 헬퍼를 포함하고 있습니다. 라이브러리의 이 부분은 아직 개발 중이며 향후 버전에서 개선될 예정입니다. 개선 목표는 Hub에서 가중치의 직렬화 방식을 통일하고, 라이브러리 간 코드 중복을 줄이며, Hub에서의 규약을 촉진하는 것입니다.
상태 사전을 샤드로 나누기
현재 이 모듈은 상태 딕셔너리(예: 레이어 이름과 관련 텐서 간의 매핑)를 받아 여러 샤드로 나누고, 이 과정에서 적절한 인덱스를 생성하는 단일 헬퍼를 포함하고 있습니다. 이 헬퍼는 torch, tensorflow, numpy 텐서에 사용 가능하며, 다른 ML 프레임워크로 쉽게 확장될 수 있도록 설계되었습니다.
split_tf_state_dict_into_shards
huggingface_hub.split_tf_state_dict_into_shards
< source >( state_dict: Dict filename_pattern: str = 'tf_model{suffix}.h5' max_shard_size: Union = '5GB' ) → StateDictSplit
Parameters
- state_dict (
Dict[str, Tensor]) — The state dictionary to save. - filename_pattern (
str, optional) — The pattern to generate the files names in which the model will be saved. Pattern must be a string that can be formatted withfilename_pattern.format(suffix=...)and must contain the keywordsuffixDefaults to"tf_model{suffix}.h5". - max_shard_size (
intorstr, optional) — The maximum size of each shard, in bytes. Defaults to 5GB.
Returns
StateDictSplit
A StateDictSplit object containing the shards and the index to retrieve them.
Split a model state dictionary in shards so that each shard is smaller than a given size.
The shards are determined by iterating through the state_dict in the order of its keys. There is no optimization
made to make each shard as close as possible to the maximum size passed. For example, if the limit is 10GB and we
have tensors of sizes [6GB, 6GB, 2GB, 6GB, 2GB, 2GB] they will get sharded as [6GB], [6+2GB], [6+2+2GB] and not
[6+2+2GB], [6+2GB], [6GB].
If one of the model’s tensor is bigger than max_shard_size, it will end up in its own shard which will have a
size greater than max_shard_size.
split_torch_state_dict_into_shards
huggingface_hub.split_torch_state_dict_into_shards
< source >( state_dict: Dict filename_pattern: str = 'model{suffix}.safetensors' max_shard_size: Union = '5GB' ) → StateDictSplit
Parameters
- state_dict (
Dict[str, torch.Tensor]) — The state dictionary to save. - filename_pattern (
str, optional) — The pattern to generate the files names in which the model will be saved. Pattern must be a string that can be formatted withfilename_pattern.format(suffix=...)and must contain the keywordsuffixDefaults to"model{suffix}.safetensors". - max_shard_size (
intorstr, optional) — The maximum size of each shard, in bytes. Defaults to 5GB.
Returns
StateDictSplit
A StateDictSplit object containing the shards and the index to retrieve them.
Split a model state dictionary in shards so that each shard is smaller than a given size.
The shards are determined by iterating through the state_dict in the order of its keys. There is no optimization
made to make each shard as close as possible to the maximum size passed. For example, if the limit is 10GB and we
have tensors of sizes [6GB, 6GB, 2GB, 6GB, 2GB, 2GB] they will get sharded as [6GB], [6+2GB], [6+2+2GB] and not
[6+2+2GB], [6+2GB], [6GB].
To save a model state dictionary to the disk, see save_torch_state_dict(). This helper uses
split_torch_state_dict_into_shards under the hood.
If one of the model’s tensor is bigger than max_shard_size, it will end up in its own shard which will have a
size greater than max_shard_size.
Example:
>>> import json
>>> import os
>>> from safetensors.torch import save_file as safe_save_file
>>> from huggingface_hub import split_torch_state_dict_into_shards
>>> def save_state_dict(state_dict: Dict[str, torch.Tensor], save_directory: str):
... state_dict_split = split_torch_state_dict_into_shards(state_dict)
... for filename, tensors in state_dict_split.filename_to_tensors.items():
... shard = {tensor: state_dict[tensor] for tensor in tensors}
... safe_save_file(
... shard,
... os.path.join(save_directory, filename),
... metadata={"format": "pt"},
... )
... if state_dict_split.is_sharded:
... index = {
... "metadata": state_dict_split.metadata,
... "weight_map": state_dict_split.tensor_to_filename,
... }
... with open(os.path.join(save_directory, "model.safetensors.index.json"), "w") as f:
... f.write(json.dumps(index, indent=2))split_state_dict_into_shards_factory
이것은 각 프레임워크별 헬퍼가 파생되는 기본 틀입니다. 실제로는 아직 지원되지 않는 프레임워크에 맞게 조정할 필요가 있는 경우가 아니면 이 틀을 직접 사용할 것으로 예상되지 않습니다. 그런 경우가 있다면, huggingface_hub 리포지토리에 새로운 이슈를 개설 하여 알려주세요.
huggingface_hub.split_state_dict_into_shards_factory
< source >( state_dict: Dict get_storage_size: Callable filename_pattern: str get_storage_id: Callable = <function <lambda> at 0x7fa52c1564d0> max_shard_size: Union = '5GB' ) → StateDictSplit
Parameters
- state_dict (
Dict[str, Tensor]) — The state dictionary to save. - get_storage_size (
Callable[[Tensor], int]) — A function that returns the size of a tensor when saved on disk in bytes. - get_storage_id (
Callable[[Tensor], Optional[Any]], optional) — A function that returns a unique identifier to a tensor storage. Multiple different tensors can share the same underlying storage. This identifier is guaranteed to be unique and constant for this tensor’s storage during its lifetime. Two tensor storages with non-overlapping lifetimes may have the same id. - filename_pattern (
str, optional) — The pattern to generate the files names in which the model will be saved. Pattern must be a string that can be formatted withfilename_pattern.format(suffix=...)and must contain the keywordsuffix - max_shard_size (
intorstr, optional) — The maximum size of each shard, in bytes. Defaults to 5GB.
Returns
StateDictSplit
A StateDictSplit object containing the shards and the index to retrieve them.
Split a model state dictionary in shards so that each shard is smaller than a given size.
The shards are determined by iterating through the state_dict in the order of its keys. There is no optimization
made to make each shard as close as possible to the maximum size passed. For example, if the limit is 10GB and we
have tensors of sizes [6GB, 6GB, 2GB, 6GB, 2GB, 2GB] they will get sharded as [6GB], [6+2GB], [6+2+2GB] and not
[6+2+2GB], [6+2GB], [6GB].
If one of the model’s tensor is bigger than max_shard_size, it will end up in its own shard which will have a
size greater than max_shard_size.
도우미
get_torch_storage_id
Return unique identifier to a tensor storage.
Multiple different tensors can share the same underlying storage. For example, “meta” tensors all share the same storage, and thus their identifier will all be equal. This identifier is guaranteed to be unique and constant for this tensor’s storage during its lifetime. Two tensor storages with non-overlapping lifetimes may have the same id.