from dataclasses import dataclass, field from typing import Any, Dict, Optional import torch.distributed as dist from torch.distributed import ProcessGroup from colossalai.pipeline.stage_manager import PipelineStageManager __all__ = ["ShardConfig"] @dataclass class ShardConfig: r""" The config for sharding the huggingface model Args: tensor_parallel_process_group (Optional[ProcessGroup]): The process group of tensor parallelism, it's necessary when using tensor parallel. Defaults to None, which is the global process group. pipeline_stage_manager (Optional[PipelineStageManager]): If using pipeline parallelism, it's necessary to specify a pipeline stage manager for inter-process communication in pipeline parallelism. Defaults to None, which means not using pipeline parallelism. enable_tensor_parallelism (bool): Whether to use tensor parallelism. Defaults to True. enable_fused_normalization (bool): Whether to use fused layernorm. Defaults to False. enable_flash_attention (bool, optional): Whether to switch on flash attention. Defaults to False. enable_jit_fused (bool, optional): Whether to switch on JIT fused operators. Defaults to False. enable_sequence_parallelism (bool): Whether to turn on sequence parallelism, which partitions non-tensor-parallel regions along the sequence dimension. Defaults to False. enable_sequence_overlap (bool): Whether to turn on sequence overlap, which overlap the computation and communication in sequence parallelism. It can only be used when enable_sequence_parallelism is True. Defaults to False. enable_all_optimization (bool): Whether to turn on all optimization tools including 'fused normalization', 'flash attention', 'JIT fused operators', 'sequence parallelism' and 'sequence overlap'. Defaults to False. """ tensor_parallel_process_group: Optional[ProcessGroup] = None pipeline_stage_manager: Optional[PipelineStageManager] = None enable_tensor_parallelism: bool = True enable_fused_normalization: bool = False enable_flash_attention: bool = False enable_jit_fused: bool = False enable_all_optimization: bool = False enable_sequence_parallelism: bool = False enable_sequence_overlap: bool = False parallel_output: bool = True extra_kwargs: Dict[str, Any] = field(default_factory=dict) # TODO padding vocab # make_vocab_size_divisible_by: int = 128 # pipeline_parallel_size: int # data_parallel_size: int # tensor_parallel_mode: Literal['1d', '2d', '2.5d', '3d'] @property def tensor_parallel_size(self): return self._tensor_parallel_size def __post_init__(self): if not self.enable_tensor_parallelism and self.enable_sequence_parallelism: raise ValueError( "enable_sequence_parallelism can only be set to True when enable_tensor_parallelism is True" ) if not self.enable_sequence_parallelism and self.enable_sequence_overlap: raise ValueError("enable_sequence_overlap can only be set to True when enable_sequence_parallelism is True") if not self.enable_tensor_parallelism: self._tensor_parallel_size = 1 else: # get the parallel size self._tensor_parallel_size = dist.get_world_size(self.tensor_parallel_process_group) # turn on all optimization if all_optimization is set to True if self.enable_all_optimization: self._turn_on_all_optimization() def _turn_on_all_optimization(self): """ Turn on all optimization. """ # you can add all the optimization flag here self.enable_fused_normalization = True self.enable_flash_attention = True self.enable_jit_fused = True self.enable_sequence_parallelism = True self.enable_sequence_overlap = True def _infer(self): """ Set default params for inference. """ # assert self.pipeline_stage_manager is None, "pipeline parallelism is not supported in inference for now"