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ColossalAI/colossalai/moe/utils.py

178 lines
5.5 KiB

import contextlib
from typing import Any, Callable, Dict, List
import torch
import torch.distributed as dist
import torch.nn as nn
import torch.nn.functional as F
from colossalai.moe.manager import MOE_MANAGER
from colossalai.tensor.moe_tensor.api import get_dp_group, get_dp_group_ranks, get_ep_size, is_moe_tensor
from colossalai.utils import get_current_device
class ForceFP32Parameter(torch.nn.Parameter):
def half(self, memory_format=None):
return self.data.clone()
class NormalNoiseGenerator:
"""Generates a random noisy mask for logits tensor.
All noise is generated from a normal distribution :math:`(0, 1 / E^2)`, where
`E = the number of experts`.
Args:
num_experts (int): The number of experts.
"""
def __init__(self, num_experts: int):
self.normal = torch.distributions.normal.Normal(
loc=torch.tensor(0.0, device=get_current_device()),
scale=torch.tensor(1.0 / num_experts**2, device=get_current_device()),
).rsample
def __call__(self, inputs: torch.Tensor):
noisy = self.normal(inputs.shape)
return inputs + noisy
class UniformNoiseGenerator:
"""Generates a random noisy mask for logits tensor.
copied from mesh tensorflow:
Multiply values by a random number between :math:`1-epsilon` and :math:`1+epsilon`.
Makes models more resilient to rounding errors introduced by bfloat16.
This seems particularly important for logits.
Args:
eps (float, optional): Epsilon in generator, defaults 1e-2.
"""
def __init__(self, eps: float = 1e-2):
self.uniform = torch.distributions.uniform.Uniform(
low=torch.tensor(1.0 - eps, device=get_current_device()),
high=torch.tensor(1.0 + eps, device=get_current_device()),
).rsample
def __call__(self, inputs: torch.Tensor):
noisy = self.uniform(inputs.shape)
return inputs * noisy
def autocast_softmax(logit: torch.Tensor, dim: int):
return F.softmax(logit, dim=dim, detype=torch.float32)
def get_noise_generator(noise_type: str, num_experts: int) -> Callable:
if noise_type is None:
return None
elif noise_type == "Jitter":
noisy_func = UniformNoiseGenerator()
elif noise_type == "Gaussian":
noisy_func = NormalNoiseGenerator(num_experts)
else:
raise NotImplementedError("Unsupported input noisy policy")
return noisy_func
def get_activation(act: str) -> Callable:
if act is None or act == "relu":
return torch.nn.ReLU()
elif act == "gelu":
return torch.nn.GELU()
elif act == "swiglu":
return SwiGLU
else:
raise NotImplementedError("Unsupported activation function")
def SwiGLU(x):
"""Gated linear unit activation function.
Args:
x : input array
axis: the axis along which the split should be computed (default: -1)
"""
size = x.shape[-1]
assert size % 2 == 0, "axis size must be divisible by 2"
x1, x2 = torch.split(x, size // 2, -1)
return x1 * (x2 * torch.sigmoid(x2))
@contextlib.contextmanager
def skip_init():
"""
skip param random init
"""
def _skip_init(*args, **kwargs):
pass
init_func = {
"constant_": torch.nn.init.constant_,
"uniform_": torch.nn.init.uniform_,
"normal_": torch.nn.init.normal_,
"kaiming_uniform_": torch.nn.init.kaiming_uniform_,
"kaiming_normal_": torch.nn.init.kaiming_normal_,
"xavier_normal_": torch.nn.init.xavier_normal_,
"xavier_uniform_": torch.nn.init.xavier_uniform_,
"trunc_normal_": torch.nn.init.trunc_normal_,
}
for method_name, original_init in init_func.items():
setattr(torch.nn.init, method_name, _skip_init)
yield
for method_name, original_init in init_func.items():
setattr(torch.nn.init, method_name, original_init)
return
def get_moe_epsize_param_dict(model: nn.Module) -> Dict[int, List[nn.Parameter]]:
"""Returns a parameter dictionary, the key of which is the expert parallel
size of every parameter. Since the parameters in data parallelism is replicated
in each GPU, we set their ep_size to 1.
Args:
model (:class:`torch.nn.Module`): A pyTorch `nn.Module` from which we get dict.
"""
epsize_param_dict = dict()
for param in model.parameters():
if not is_moe_tensor(param):
ep_size = 1 # set ep_size to 1 for dp parameters
else:
ep_size = get_ep_size(param)
if ep_size not in epsize_param_dict:
epsize_param_dict[ep_size] = []
epsize_param_dict[ep_size].append(param)
return epsize_param_dict
def sync_moe_model_param(model: nn.Module):
"""Make sure model parameters are consistent in MoE parallel context.
Args:
model (:class:`torch.nn.Module`): A pyTorch model on whose parameters you check the consistency.
"""
param_dict = get_moe_epsize_param_dict(model)
# synchronize the parameters whose dp_group is the whole world
if 1 in param_dict:
for param in param_dict[1]:
dist.broadcast(param, src=0)
for ep_size in param_dict:
# When ep_size = world_size, communication is not needed
if ep_size != 1 and ep_size != MOE_MANAGER.world_size:
for param in param_dict[ep_size]:
src_rank = get_dp_group_ranks(param)[0]
dist.broadcast(param, src=src_rank, group=get_dp_group(param))
def set_moe_args(config: Any, args: dict):
for k, v in args.items():
setattr(config, k, v)