1 初始化进程组
import os
from torch import distributed
try:
world_size = int(os.environ["WORLD_SIZE"]) # 全局进程个数
rank = int(os.environ["RANK"]) # 当前进程编号(全局)
local_rank = int(os.environ["LOCAL_RANK"]) # 每台机器上的进程编号(局部)
distributed.init_process_group("nccl") # 初始化进程, 使用nccl后端
except KeyError:
world_size = 1
rank = 0
local_rank = 0
distributed.init_process_group(
backend="nccl",
init_method="tcp://127.0.0.1:12584",
rank=rank,
world_size=world_size,
)2 使用DistributedSampler划分数据集
与nn.DataParrallel不同的是,分布式训练中的batch_size为单卡的输入样本数,因为它代表的是当前rank下对应的partition,总batch_size是这里的batch_size再乘以并行数。举个例子,假设使用8张卡训练模型,nn.DataParrallel中的batch_size为3200,nn.DistributedDataParallel中的batch_size则为400,
from dataloader.distributed_sampler import DistributedSampler
train_sampler = DistributedSampler(
train_set, num_replicas=world_size, rank=rank, shuffle=True, seed=seed)
trainloader = DataLoader(
dataset=train_set,
pin_memory=true,
batch_size=batch_size,
num_workers=num_workers,
sampler=train_sampler
) # pin_memory: 是否提前申请CUDA内存. 创建DataLoader时,设置pin_memory=True,则意味着生成的Tensor数据最开始是属于内存中的锁页内存,这样将内存的Tensor转义到GPU的显存就会更快一些.3 使用DistributedDataParallel封装模型
DistributedDataParallel能够为不同GPU上求得的梯度进行all reduce(即汇总不同GPU计算所得的梯度,并同步计算结果)。all reduce后不同GPU中模型的梯度均为all reduce之前各GPU梯度的均值,
backbone = get_model(
cfg.network, dropout=0.0, fp16=cfg.fp16, num_features=cfg.embedding_size).cuda()
backbone = torch.nn.parallel.DistributedDataParallel(
module=backbone, broadcast_buffers=False, device_ids=[local_rank], bucket_cap_mb=16,
find_unused_parameters=True)4 训练模型
把输入图片、标签及模型加载到当前进程使用的GPU中,
for epoch in range(start_epoch, cfg.num_epoch):
if isinstance(train_loader, DataLoader):
# 设置train_loader中的sampler的epoch,DistributedSampler需要这个参数来维持各个进程之间的相同随机数种子
train_loader.sampler.set_epoch(epoch)
for _, (img, local_labels) in enumerate(train_loader):
global_step += 1
local_embeddings = backbone(img)
loss: torch.Tensor = module_partial_fc(local_embeddings, local_labels, opt)
loss.backward()
torch.nn.utils.clip_grad_norm_(backbone.parameters(), 5)
opt.step()
opt.zero_grad()
lr_scheduler.step()5 计算损失
distributed.all_gather(tensor_list,input_tensor):从所有设备收集指定的input_tensor并将其放置在所有设备上的tensor_list变量中,
from torch import distributed
distributed.all_gather(_gather_embeddings, local_embeddings)
distributed.all_gather(_gather_labels, local_labels)
distributed.all_reduce(loss, distributed.ReduceOp.SUM)6 保存模型
if rank == 0:
path_module = os.path.join(cfg.output, "model_final.pt")
torch.save(backbone.module.state_dict(), path_module)7 启动并行程序
(1) 使用torch.distributed.launch
该指令会使脚本并行地运行n次(n为使用的GPU个数),
python -m torch.distributed.launch --nproc_per_node=8 train.py configs/ms1mv3_r50(2) 使用torch.multiprocessing
torch.multiprocessing会自动创建进程,绕开torch.distributed.launch开启和退出进程的一些小毛病,
def main(rank):
pass
torch.multiprocessing.spawn(main, nprocs, args)8 代码示例
参考insightface的代码,
import argparse
import logging
import os
from datetime import datetime
import numpy as np
import torch
from backbones import get_model
from dataset import get_dataloader
from losses import CombinedMarginLoss
from lr_scheduler import PolyScheduler
from partial_fc import PartialFC, PartialFCAdamW
from torch import distributed
from torch.utils.data import DataLoader
from torch.utils.tensorboard import SummaryWriter
from utils.utils_callbacks import CallBackLogging, CallBackVerification
from utils.utils_config import get_config
from utils.utils_distributed_sampler import setup_seed
from utils.utils_logging import AverageMeter, init_logging
assert torch.__version__ >= "1.12.0", "In order to enjoy the features of the new torch, \
we have upgraded the torch to 1.12.0. torch before than 1.12.0 may not work in the future."
try:
rank = int(os.environ["RANK"])
local_rank = int(os.environ["LOCAL_RANK"])
world_size = int(os.environ["WORLD_SIZE"])
distributed.init_process_group("nccl")
except KeyError:
rank = 0
local_rank = 0
world_size = 1
distributed.init_process_group(
backend="nccl",
init_method="tcp://127.0.0.1:12584",
rank=rank,
world_size=world_size,
)
def main(args):
# get config
cfg = get_config(args.config)
# global control random seed
setup_seed(seed=cfg.seed, cuda_deterministic=False)
torch.cuda.set_device(local_rank)
os.makedirs(cfg.output, exist_ok=True)
init_logging(rank, cfg.output)
summary_writer = (
SummaryWriter(log_dir=os.path.join(cfg.output, "tensorboard"))
if rank == 0
else None
)
wandb_logger = None
if cfg.using_wandb:
import wandb
# Sign in to wandb
try:
wandb.login(key=cfg.wandb_key)
except Exception as e:
print("WandB Key must be provided in config file (base.py).")
print(f"Config Error: {e}")
# Initialize wandb
run_name = datetime.now().strftime("%y%m%d_%H%M") + f"_GPU{rank}"
run_name = run_name if cfg.suffix_run_name is None else run_name + f"_{cfg.suffix_run_name}"
try:
wandb_logger = wandb.init(
entity = cfg.wandb_entity,
project = cfg.wandb_project,
sync_tensorboard = True,
resume=cfg.wandb_resume,
name = run_name,
notes = cfg.notes) if rank == 0 or cfg.wandb_log_all else None
if wandb_logger:
wandb_logger.config.update(cfg)
except Exception as e:
print("WandB Data (Entity and Project name) must be provided in config file (base.py).")
print(f"Config Error: {e}")
train_loader = get_dataloader(
cfg.rec,
local_rank,
cfg.batch_size,
cfg.dali,
cfg.seed,
cfg.num_workers
)
backbone = get_model(
cfg.network, dropout=0.0, fp16=cfg.fp16, num_features=cfg.embedding_size).cuda()
backbone = torch.nn.parallel.DistributedDataParallel(
module=backbone, broadcast_buffers=False, device_ids=[local_rank], bucket_cap_mb=16,
find_unused_parameters=True)
backbone.train()
# FIXME using gradient checkpoint if there are some unused parameters will cause error
backbone._set_static_graph()
margin_loss = CombinedMarginLoss(
64,
cfg.margin_list[0],
cfg.margin_list[1],
cfg.margin_list[2],
cfg.interclass_filtering_threshold
)
if cfg.optimizer == "sgd":
module_partial_fc = PartialFC(
margin_loss, cfg.embedding_size, cfg.num_classes,
cfg.sample_rate, cfg.fp16)
module_partial_fc.train().cuda()
# TODO the params of partial fc must be last in the params list
opt = torch.optim.SGD(
params=[{"params": backbone.parameters()}, {"params": module_partial_fc.parameters()}],
lr=cfg.lr, momentum=0.9, weight_decay=cfg.weight_decay)
elif cfg.optimizer == "adamw":
module_partial_fc = PartialFCAdamW(
margin_loss, cfg.embedding_size, cfg.num_classes,
cfg.sample_rate, cfg.fp16)
module_partial_fc.train().cuda()
opt = torch.optim.AdamW(
params=[{"params": backbone.parameters()}, {"params": module_partial_fc.parameters()}],
lr=cfg.lr, weight_decay=cfg.weight_decay)
else:
raise
cfg.total_batch_size = cfg.batch_size * world_size
cfg.warmup_step = cfg.num_image // cfg.total_batch_size * cfg.warmup_epoch
cfg.total_step = cfg.num_image // cfg.total_batch_size * cfg.num_epoch
lr_scheduler = PolyScheduler(
optimizer=opt,
base_lr=cfg.lr,
max_steps=cfg.total_step,
warmup_steps=cfg.warmup_step,
last_epoch=-1
)
start_epoch = 0
global_step = 0
if cfg.resume:
dict_checkpoint = torch.load(os.path.join(cfg.output, f"checkpoint_gpu_{rank}.pt"))
start_epoch = dict_checkpoint["epoch"]
global_step = dict_checkpoint["global_step"]
backbone.module.load_state_dict(dict_checkpoint["state_dict_backbone"])
module_partial_fc.load_state_dict(dict_checkpoint["state_dict_softmax_fc"])
opt.load_state_dict(dict_checkpoint["state_optimizer"])
lr_scheduler.load_state_dict(dict_checkpoint["state_lr_scheduler"])
del dict_checkpoint
for key, value in cfg.items():
num_space = 25 - len(key)
logging.info(": " + key + " " * num_space + str(value))
callback_verification = CallBackVerification(
val_targets=cfg.val_targets, rec_prefix=cfg.rec,
summary_writer=summary_writer, wandb_logger = wandb_logger
)
callback_logging = CallBackLogging(
frequent=cfg.frequent,
total_step=cfg.total_step,
batch_size=cfg.batch_size,
start_step = global_step,
writer=summary_writer
)
loss_am = AverageMeter()
amp = torch.cuda.amp.grad_scaler.GradScaler(growth_interval=100)
for epoch in range(start_epoch, cfg.num_epoch):
if isinstance(train_loader, DataLoader):
train_loader.sampler.set_epoch(epoch)
for _, (img, local_labels) in enumerate(train_loader):
global_step += 1
local_embeddings = backbone(img)
loss: torch.Tensor = module_partial_fc(local_embeddings, local_labels, opt)
if cfg.fp16:
amp.scale(loss).backward()
amp.unscale_(opt)
torch.nn.utils.clip_grad_norm_(backbone.parameters(), 5)
amp.step(opt)
amp.update()
else:
loss.backward()
torch.nn.utils.clip_grad_norm_(backbone.parameters(), 5)
opt.step()
opt.zero_grad()
lr_scheduler.step()
with torch.no_grad():
if wandb_logger:
wandb_logger.log({
'Loss/Step Loss': loss.item(),
'Loss/Train Loss': loss_am.avg,
'Process/Step': global_step,
'Process/Epoch': epoch
})
loss_am.update(loss.item(), 1)
callback_logging(global_step, loss_am, epoch, cfg.fp16, lr_scheduler.get_last_lr()[0], amp)
if global_step % cfg.verbose == 0 and global_step > 0:
callback_verification(global_step, backbone)
if cfg.save_all_states:
checkpoint = {
"epoch": epoch + 1,
"global_step": global_step,
"state_dict_backbone": backbone.module.state_dict(),
"state_dict_softmax_fc": module_partial_fc.state_dict(),
"state_optimizer": opt.state_dict(),
"state_lr_scheduler": lr_scheduler.state_dict()
}
torch.save(checkpoint, os.path.join(cfg.output, f"checkpoint_gpu_{rank}.pt"))
if rank == 0:
path_module = os.path.join(cfg.output, "model.pt")
torch.save(backbone.module.state_dict(), path_module)
if wandb_logger and cfg.save_artifacts:
artifact_name = f"{run_name}_E{epoch}"
model = wandb.Artifact(artifact_name, type='model')
model.add_file(path_module)
wandb_logger.log_artifact(model)
if cfg.dali:
train_loader.reset()
if rank == 0:
path_module = os.path.join(cfg.output, "model.pt")
torch.save(backbone.module.state_dict(), path_module)
from torch2onnx import convert_onnx
convert_onnx(backbone.module.cpu().eval(), path_module, os.path.join(cfg.output, "model.onnx"))
if wandb_logger and cfg.save_artifacts:
artifact_name = f"{run_name}_Final"
model = wandb.Artifact(artifact_name, type='model')
model.add_file(path_module)
wandb_logger.log_artifact(model)
distributed.destroy_process_group()
if __name__ == "__main__":
torch.backends.cudnn.benchmark = True
parser = argparse.ArgumentParser(
description="Distributed Arcface Training in Pytorch")
parser.add_argument("config", type=str, help="py config file")
main(parser.parse_args())参考文档: