ColossalAI/colossalai/legacy/nn/parallel/data_parallel.py

175 lines
6.4 KiB
Python

from collections import OrderedDict
from functools import partial
from typing import Iterable, Optional, Set
import torch
import torch.distributed as dist
from colossalai.tensor import ProcessGroup as ColoProcessGroup
from colossalai.utils import is_ddp_ignored
from .reducer import Reducer
def free_storage(data: torch.Tensor) -> None:
"""Free underlying storage of a Tensor."""
if data.storage().size() > 0:
# Since we're modifying the Tensor's Storage directly, make sure the Tensor
# is the sole occupant of the Storage.
assert data.storage_offset() == 0
data.storage().resize_(0)
def _cast_float(args, dtype: torch.dtype):
if isinstance(args, torch.Tensor) and torch.is_floating_point(args):
args = args.to(dtype)
elif isinstance(args, (list, tuple)):
args = type(args)(_cast_float(t, dtype) for t in args)
elif isinstance(args, dict):
args = {k: _cast_float(v, dtype) for k, v in args.items()}
return args
class ColoDDP(torch.nn.Module):
"""Distributed data parallel for ColoTensor. Nested ColoDDP is not supported now.
Example:
>>> from colossalai.core import global_context as gpc
>>> from colossalai.context import ParallelMode
>>> model = torch.nn.Linear(20, 1)
>>> pg = ProcessGroup(tp_degree = world_size//2)
>>> model = ColoDDP(model, pg)
>>> logits = model(x)
>>> loss = criterion(logits, labels)
>>> model.backward(loss)
Args:
module (torch.nn.Module): Module to apply DDP.
process_group (Optional[dist.ProcessGroup], optional): The process group which DDP uses.
If it's None, the default data parallel group will be used. Defaults to None.
"""
def __init__(self,
module: torch.nn.Module,
process_group: ColoProcessGroup,
bucket_cap_mb: int = 25,
rebuild_bucket: bool = True) -> None:
assert not isinstance(module, ColoDDP)
super().__init__()
self.module = module
self.comm_stream: torch.cuda.Stream = torch.cuda.Stream()
assert process_group
self.process_group = process_group
self.dp_world_size = self.process_group.dp_world_size()
self.reducer = Reducer(bucket_cap_mb)
self.rebuild_bucket = rebuild_bucket
for p in module.parameters():
if is_ddp_ignored(p):
continue
if p.requires_grad:
p.register_hook(partial(self.grad_handle, p))
def parameters(self, recurse: bool = True):
return self.module.parameters(recurse)
def named_parameters(self, prefix: str = '', recurse: bool = True):
return self.module.named_parameters(prefix, recurse)
def named_buffers(self, prefix: str = '', recurse: bool = True):
return self.module.named_buffers(prefix, recurse)
def named_children(self):
return self.module.named_children()
def named_modules(self,
memo: Optional[Set[torch.nn.Module]] = None,
prefix: str = '',
remove_duplicate: bool = True):
return self.module.named_modules(memo, prefix, remove_duplicate)
def forward(self, *args, **kwargs):
self.module.zero_grad(set_to_none=True)
return self.module(*args, **kwargs)
def backward(self, loss: torch.Tensor):
loss.backward()
with torch.cuda.stream(self.comm_stream):
self.reducer.flush()
torch.cuda.current_stream().wait_stream(self.comm_stream)
if self.rebuild_bucket:
self.reducer.free()
for p in self.module.parameters():
if is_ddp_ignored(p):
continue
if p.grad.device.type != "cpu":
p.grad = p._saved_grad
def grad_handle(self, p, grad):
if grad.device.type != "cpu":
empty_grad = torch.empty_like(grad)
free_storage(empty_grad)
if self.dp_world_size > 1:
grad = grad / self.dp_world_size
self.comm_stream.wait_stream(torch.cuda.current_stream())
with torch.cuda.stream(self.comm_stream):
self.reducer.all_reduce_async(grad,
group=self.process_group.dp_process_group(),
callback_fn=partial(self._save_grad, p))
grad.record_stream(self.comm_stream)
else:
ColoDDP._save_grad(p, grad)
return empty_grad
else:
# TODO(jiaruifang) fixme
self.process_group.set_cpu_groups()
dist.all_reduce(grad, group=self.process_group.cpu_dp_process_group())
return grad
@staticmethod
def _save_grad(p, grad):
if hasattr(p, '_saved_grad'):
p._saved_grad.add_(grad)
else:
p._saved_grad = grad
def zero_grad(self, set_to_none: bool = False) -> None:
self.module.zero_grad(set_to_none=True)
for p in self.module.parameters():
if getattr(p, '_saved_grad', None) is not None:
if set_to_none:
p._saved_grad = None
else:
if p._saved_grad.grad_fn is not None:
p._saved_grad.detach_()
else:
p._saved_grad.requires_grad_(False)
p._saved_grad.zero_()
@staticmethod
def set_params_to_ignore(params_to_ignore: Iterable[torch.Tensor]) -> None:
"""Sets parameters to be ignored by DDP.
This method must be called before initializing ColoDDP.
Example:
>>> params_to_ignore = []
>>> for p in module.parameters():
>>> if should_ignore(p):
>>> params_to_ignore.append(p)
>>> ColoDDP.set_params_to_ignore(params_to_ignore)
>>> module = ColoDDP(module)
Args:
params_to_ignore (Iterable[torch.Tensor]): A list of parameters to be ignored.
"""
for p in params_to_ignore:
p._ddp_to_ignore = True
def state_dict(self, destination=None, prefix='', keep_vars=False):
return self.module.state_dict(destination=destination, prefix=prefix, keep_vars=keep_vars)
def load_state_dict(self, state_dict: 'OrderedDict[str, torch.Tensor]', strict: bool = True):
return self.module.load_state_dict(state_dict, strict)