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import torch
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from typing import List, Optional
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from colossalai.logging import get_dist_logger
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from colossalai.context.singleton_meta import SingletonMeta
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class PyTorchProcessGroupDict(metaclass=SingletonMeta):
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def __init__(self):
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# distributed settings
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self.dict = {}
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def get(self, rank_list: List[int], backend: str = 'nccl'):
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"""Reuse Pytorch ProcessGroup when such a group is initialized
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"""
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rank_tuple = tuple(rank_list)
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# we need to convert the passed list to a tuple
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# since List is unhashable
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pg_key = (backend, rank_tuple)
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if pg_key not in self.dict:
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self.logger = get_dist_logger('ProcessGroup')
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self.logger.info(f'NCCL initialize ProcessGroup on {rank_list}', ranks=[0])
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self.dict[pg_key] = torch.distributed.new_group(ranks=rank_list, backend=backend)
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return self.dict[pg_key]
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PYTORCHPGDICT_ = PyTorchProcessGroupDict()
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class ProcessGroup:
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"""
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Process Group contains group partition for Tensor Parallel and Data Parallel.
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NOTE, the ProcessGroup must be used after torch.distributed.initialize()
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args:
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rank: the global rank of the current process.
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ranks: List[int], a list of rank id belongings to this process group.
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backend: str, the backend of the process group.
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tp_degree: Optional[int], tensor parallelism degree, default None means 1
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dp_degree: Optional[int], data parallelism degree, default None means len(ranks)
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"""
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def __init__(self,
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rank: Optional[int] = None,
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ranks: Optional[List[int]] = None,
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tp_degree: Optional[int] = None,
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dp_degree: Optional[int] = None) -> None:
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if not torch.distributed.is_initialized():
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self.is_init = False
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return
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assert torch.distributed.is_initialized(), f"ProcessGroup must be used after distributed initialized"
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if rank is None:
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self._rank = torch.distributed.get_rank()
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else:
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self._rank = rank
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if ranks is None:
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self._rank_list = list(range(torch.distributed.get_world_size()))
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else:
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self._rank_list = ranks
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self._rank_list.sort() # ensure that the list is in order
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self._world_size = len(self._rank_list)
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if dp_degree is None and tp_degree is None:
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self._dp_degree = self._world_size
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self._tp_degree = 1
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elif dp_degree and not tp_degree:
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self._dp_degree = dp_degree
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assert self._world_size % self._dp_degree == 0, f"DP degree {dp_degree} should be divisible by {self._world_size} hen DP degree is None"
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self._tp_degree = self._world_size // dp_degree
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elif not dp_degree and tp_degree:
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self._tp_degree = tp_degree
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assert self._world_size % self._tp_degree == 0, f"TP degree {tp_degree} should be divisible by {self._world_size} when DP degree is None"
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self._dp_degree = self._world_size // tp_degree
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else:
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self._dp_degree = dp_degree
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self._tp_degree = tp_degree
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assert self._dp_degree * self._tp_degree == self._world_size, \
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f"the world size {self._world_size} should equals to the product of DP degree {self._dp_degree}" \
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f"and TP degree {self._tp_degree}"
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self._tp_rank_list = None
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self._dp_rank_list = None
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for i in range(self._dp_degree):
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i_tp_list = [self._rank_list[i * self._tp_degree + j] for j in range(self._tp_degree)]
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PYTORCHPGDICT_.get(i_tp_list, 'nccl')
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if self._rank in i_tp_list:
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self._tp_rank_list = i_tp_list
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for j in range(self._tp_degree):
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j_dp_list = [self._rank_list[i * self._tp_degree + j] for i in range(self._dp_degree)]
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PYTORCHPGDICT_.get(j_dp_list, 'nccl')
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if self._rank in j_dp_list:
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self._dp_rank_list = j_dp_list
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self._has_cpu_groups = False
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self.is_init = True
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def set_cpu_groups(self):
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if self.has_cpu_groups:
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return
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self.logger.info(
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f'{self._rank} Gloo initialize TP group on {self._tp_rank_list}, DP group on {self._dp_rank_list}')
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PYTORCHPGDICT_.get(self._tp_rank_list, 'gloo')
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PYTORCHPGDICT_.get(self._dp_rank_list, 'gloo')
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self._has_cpu_groups = True
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@property
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def has_cpu_groups(self):
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return self._has_cpu_groups
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def __repr__(self):
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if self.is_init:
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return "ProcessGroup:\n\tRank: {}, World size: {}, DP degree: {}, TP degree: {}\n\tRanks in group: {}".\
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format(self._rank, self._world_size, self._dp_degree, self._tp_degree, self._rank_list)
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else:
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return "ProcessGroup not initialized"
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def __eq__(self, obj: 'ProcessGroup') -> bool:
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if not isinstance(obj, ProcessGroup):
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return False
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if self._rank != obj._rank:
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return False
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if self._rank_list != obj._rank_list:
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return False
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if self._tp_rank_list != obj._tp_rank_list:
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return False
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if self._dp_rank_list != obj._dp_rank_list:
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return False
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if self._tp_degree != obj._tp_degree:
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return False
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if self._dp_degree != obj._dp_degree:
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return False
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return True
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def rank(self):
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return self._rank
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def world_size(self):
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return self._world_size
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def tp_local_rank(self):
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return self._rank % self._tp_degree
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def dp_local_rank(self):
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return self._rank // self._tp_degree
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def dp_world_size(self):
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return len(self._dp_rank_list)
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def tp_world_size(self):
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return len(self._tp_rank_list)
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def dp_process_group(self):
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# return self._dp_process_group
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return PYTORCHPGDICT_.get(self._dp_rank_list, 'nccl')
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def tp_process_group(self):
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# return self._tp_process_group
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return PYTORCHPGDICT_.get(self._tp_rank_list, 'nccl')
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def cpu_dp_process_group(self):
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assert self._has_cpu_groups
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return PYTORCHPGDICT_.get(self._dp_rank_list, 'gloo')
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def cpu_tp_process_group(self):
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assert self._has_cpu_groups
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return PYTORCHPGDICT_.get(self._tp_rank_list, 'gloo')
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