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ColossalAI/colossalai/context/process_group_initializer/initializer_2d.py

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import math
import torch.distributed as dist
from colossalai.registry import DIST_GROUP_INITIALIZER
from .process_group_initializer import ProcessGroupInitializer
from ..parallel_mode import ParallelMode
from colossalai.global_variables import tensor_parallel_env as env
def _check_summa_env_var(summa_dim):
# check environment variable for SUMMA
env_summa_dim = env.summa_dim
if env_summa_dim:
assert int(env_summa_dim) == summa_dim, \
'SUMMA_DIM has been set in the current environment and ' \
'does not match with the value passed to this initialized'
else:
env.summa_dim = summa_dim
class Initializer_2D_Row(ProcessGroupInitializer):
"""2d tensor parallel initialization among rows.
:param num_group: The number of all tensor groups
:param summa_dim: The dimension of SUMMA
:param args: Args used to initialize base class
:param kwargs: Kwargs used to initialize base class
:type num_group: int
:type summa_dim: int
"""
def __init__(self, num_group, summa_dim, *args, **kwargs):
super(Initializer_2D_Row, self).__init__(*args, **kwargs)
self.num_group = num_group
self.summa_dim = summa_dim
def init_dist_group(self):
"""Initialize 2D tensor row parallel groups, and assign local_ranks and groups to each gpu.
:return: 2D tensor row parallelism's information
:rtype: Tuple(local_rank, group_world_size, process_group, ranks_in_group, mode)
"""
local_rank = None
ranks_in_group = None
process_group = None
group_world_size = None
mode = ParallelMode.PARALLEL_2D_ROW
for i in range(self.num_group):
for j in range(self.summa_dim):
ranks = [i * self.tensor_parallel_size + j * self.summa_dim + k for k in range(self.summa_dim)]
group = dist.new_group(ranks)
if self.rank in ranks:
local_rank = ranks.index(self.rank)
group_world_size = len(ranks)
process_group = group
ranks_in_group = ranks
return local_rank, group_world_size, process_group, ranks_in_group, mode
class Initializer_2D_Col(ProcessGroupInitializer):
"""2d tensor parallel initialization among cols.
:param num_group: The number of all tensor groups
:param summa_dim: The dimension of SUMMA
:param args: Args used to initialize base class
:param kwargs: Kwargs used to initialize base class
:type num_group: int
:type summa_dim: int
"""
def __init__(self, num_group, summa_dim, *args, **kwargs):
super(Initializer_2D_Col, self).__init__(*args, **kwargs)
self.num_group = num_group
self.summa_dim = summa_dim
def init_dist_group(self):
"""Initialize 2D tensor row parallel groups, and assign local_ranks and groups to each gpu.
:return: 2D tensor col parallelism's information
:rtype: Tuple(local_rank, group_world_size, process_group, ranks_in_group, mode)
"""
local_rank = None
ranks_in_group = None
process_group = None
group_world_size = None
mode = ParallelMode.PARALLEL_2D_COL
for i in range(self.num_group):
for j in range(self.summa_dim):
ranks = [i * self.tensor_parallel_size + j + k * self.summa_dim for k in range(self.summa_dim)]
group = dist.new_group(ranks)
if self.rank in ranks:
local_rank = ranks.index(self.rank)
group_world_size = len(ranks)
process_group = group
ranks_in_group = ranks
return local_rank, group_world_size, process_group, ranks_in_group, mode
@DIST_GROUP_INITIALIZER.register_module
class Initializer_2D(ProcessGroupInitializer):
"""
Serve as the single entry point to 2D parallel initialization.
:param args: Args used to initialize ProcessGroupInitializer
:param kwargs: Kwargs used to initialize ProcessGroupInitializer
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.num_group = self.world_size // self.tensor_parallel_size
self.summa_dim = int(math.sqrt(self.tensor_parallel_size))
assert self.tensor_parallel_size == self.summa_dim ** 2, \
"2D summa dim should equal to tensor parallel size ^ 0.5"
_check_summa_env_var(self.summa_dim)
self.col_initializer = Initializer_2D_Col(self.num_group, self.summa_dim, *args, **kwargs)
self.row_initializer = Initializer_2D_Row(self.num_group, self.summa_dim, *args, **kwargs)
def init_dist_group(self):
"""Initialize 2D tensor row and col parallel groups, and assign local_ranks and groups to each gpu.
:return: 2D tensor parallelism's information
:rtype: list of Tuples (local_rank, group_world_size, process_group, ranks_in_group, mode)
"""
parallel_setting = [self.row_initializer.init_dist_group(), self.col_initializer.init_dist_group()]
return parallel_setting
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