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ColossalAI/tests/test_moe/moe_utils.py

154 lines
5.7 KiB

import torch
import torch.distributed as dist
import torch.nn as nn
from torch.distributed import ProcessGroup
from torch.testing import assert_close
from colossalai.booster.plugin.low_level_zero_plugin import LowLevelZeroModel
from colossalai.legacy.engine.gradient_handler._base_gradient_handler import BaseGradientHandler
from colossalai.legacy.engine.gradient_handler.utils import bucket_allreduce
from colossalai.legacy.registry import GRADIENT_HANDLER
from colossalai.moe.manager import MOE_MANAGER
from colossalai.moe.utils import get_moe_epsize_param_dict
from colossalai.tensor.moe_tensor.api import get_ep_group, get_ep_size, set_moe_tensor_ep_group
def delete_moe_info(model):
for _, param in model.named_parameters():
if hasattr(param, "ep_group"):
delattr(param, "ep_group")
class MoeModel(nn.Module):
def __init__(self, ep_group: ProcessGroup = None):
super().__init__()
self.test_embed = nn.Linear(4, 16, bias=False)
self.w1 = torch.nn.Parameter(torch.randn(16, 8))
if ep_group:
set_moe_tensor_ep_group(self.w1, ep_group)
def forward(self, x):
x = self.test_embed(x)
x = torch.matmul(x, self.w1)
return x
@GRADIENT_HANDLER.register_module
class MoeGradientHandler(BaseGradientHandler):
"""A helper class to handle all-reduce operations in a data parallel group and
moe model parallel. A all-reduce collective communication will be operated in
:func:`handle_gradient` among a data parallel group.
For better performance, it bucketizes the gradients of all parameters that are
the same type to improve the efficiency of communication.
Args:
model (Module): Model where the gradients accumulate.
optimizer (Optimizer): Optimizer for updating the parameters.
"""
def __init__(self, model, optimizer=None):
super().__init__(model, optimizer)
def handle_gradient(self):
"""A method running an all-reduce operation in a data parallel group.
Then running an all-reduce operation for all parameters in experts
across moe model parallel group
"""
if dist.get_world_size() > 1:
epsize_param_dict = get_moe_epsize_param_dict(self._model)
# epsize is 1, indicating the params are replicated among processes in data parallelism
# use the ParallelMode.DATA to get data parallel group
# reduce gradients for all parameters in data parallelism
if 1 in epsize_param_dict:
bucket_allreduce(param_list=epsize_param_dict[1])
for ep_size in epsize_param_dict:
if ep_size != 1 and ep_size != MOE_MANAGER.world_size:
bucket_allreduce(
param_list=epsize_param_dict[ep_size], group=MOE_MANAGER.parallel_info_dict[ep_size].dp_group
)
def assert_not_equal_in_group(tensor, process_group=None):
# all gather tensors from different ranks
world_size = dist.get_world_size(process_group)
tensor_list = [torch.empty_like(tensor) for _ in range(world_size)]
dist.all_gather(tensor_list, tensor, group=process_group)
# check if they are equal one by one
for i in range(world_size - 1):
a = tensor_list[i]
b = tensor_list[i + 1]
assert not torch.allclose(a, b), (
f"expected tensors on rank {i} and {i + 1} not to be equal " f"but they are, {a} vs {b}"
)
def run_fwd_bwd(model, data, label, criterion, optimizer, enable_autocast=False):
model.train()
with torch.cuda.amp.autocast(enabled=enable_autocast):
if criterion:
y = model(data)
loss = criterion(y, label)
else:
loss = model(data, label)
loss = loss.float()
if isinstance(model, LowLevelZeroModel):
optimizer.backward(loss)
else:
loss.backward()
return y
def sync_local_from_ep(local_model, ep_model, assert_grad_flag: bool = False) -> None:
"""Sync the parameters of tp model from ep model
Args:
local_model (MoeModule)
ep_model (MoeModule)
"""
for (local_name, local_param), (ep_name, ep_param) in zip(
local_model.named_parameters(), ep_model.named_parameters()
):
if "experts" not in local_name:
if assert_grad_flag:
assert torch.allclose(local_param, ep_param), f"local_param: {local_param}, ep_param: {ep_param}"
assert torch.allclose(local_param.grad, ep_param.grad)
else:
local_param.data.copy_(ep_param.data)
continue
# gather param from ep model
param_list = [torch.zeros_like(ep_param) for _ in range(get_ep_size(ep_param))]
dist.all_gather(param_list, ep_param, group=get_ep_group(ep_param))
all_param = torch.cat(param_list, dim=0)
if assert_grad_flag:
grad_list = [torch.zeros_like(ep_param) for _ in range(get_ep_size(ep_param))]
dist.all_gather(grad_list, ep_param.grad, group=get_ep_group(ep_param))
all_grad = torch.cat(grad_list, dim=0)
if assert_grad_flag:
assert torch.allclose(local_param, all_param)
assert torch.allclose(local_param.grad, all_grad)
else:
local_param.data.copy_(all_param.data)
def loose_close(a, b, dtype: torch.dtype = torch.float32, name=""):
rtol = None
atol = None
if dtype is torch.float16:
rtol = 5e-2
atol = 5e-4
elif dtype is torch.bfloat16:
rtol = 4e-3
atol = 4e-3
a = a.detach().to(dtype)
b = b.detach().to(dtype).to(a.device)
assert torch.allclose(a, b, rtol=rtol, atol=atol), f"{name} not close {a.mean()} {b.mean()}"