From 28ccfbfc51068a663a80764e14074df5edf2b5ba Mon Sep 17 00:00:00 2001
From: kongdeqiang <kongdeqiang960204@163.com>
Date: 星期五, 13 三月 2026 17:41:41 +0800
Subject: [PATCH] 提交
---
funasr/bin/train.py | 287 +++++++++++++++++++++++++++++++++++----------------------
1 files changed, 177 insertions(+), 110 deletions(-)
diff --git a/funasr/bin/train.py b/funasr/bin/train.py
index 26b0f4a..c56d047 100644
--- a/funasr/bin/train.py
+++ b/funasr/bin/train.py
@@ -4,121 +4,103 @@
import os
import sys
import torch
+import torch.nn as nn
import hydra
import logging
+import time
import argparse
from io import BytesIO
+
+from contextlib import nullcontext
import torch.distributed as dist
-from collections.abc import Sequence
+
from omegaconf import DictConfig, OmegaConf
+from torch.cuda.amp import autocast, GradScaler
from torch.nn.parallel import DistributedDataParallel as DDP
from torch.distributed.fsdp import FullyShardedDataParallel as FSDP
+from torch.distributed.algorithms.join import Join
+from torch.distributed.fsdp.sharded_grad_scaler import ShardedGradScaler
+from tensorboardX import SummaryWriter
+from funasr.train_utils.average_nbest_models import average_checkpoints
from funasr.register import tables
from funasr.optimizers import optim_classes
from funasr.train_utils.trainer import Trainer
from funasr.schedulers import scheduler_classes
from funasr.train_utils.initialize import initialize
-from funasr.download.download_from_hub import download_model
+from funasr.download.download_model_from_hub import download_model
from funasr.models.lora.utils import mark_only_lora_as_trainable
from funasr.train_utils.set_all_random_seed import set_all_random_seed
from funasr.train_utils.load_pretrained_model import load_pretrained_model
-# from funasr.tokenizer.build_tokenizer import build_tokenizer
-# from funasr.tokenizer.token_id_converter import TokenIDConverter
-# from funasr.tokenizer.funtoken import build_tokenizer
+from funasr.utils.misc import prepare_model_dir
+from funasr.train_utils.model_summary import model_summary
+from funasr import AutoModel
@hydra.main(config_name=None, version_base=None)
def main_hydra(kwargs: DictConfig):
if kwargs.get("debug", False):
- import pdb; pdb.set_trace()
+ import pdb
+
+ pdb.set_trace()
assert "model" in kwargs
if "model_conf" not in kwargs:
- logging.info("download models from model hub: {}".format(kwargs.get("model_hub", "ms")))
+ logging.info("download models from model hub: {}".format(kwargs.get("hub", "ms")))
kwargs = download_model(is_training=kwargs.get("is_training", True), **kwargs)
-
main(**kwargs)
def main(**kwargs):
- print(kwargs)
-
+
# set random seed
set_all_random_seed(kwargs.get("seed", 0))
torch.backends.cudnn.enabled = kwargs.get("cudnn_enabled", torch.backends.cudnn.enabled)
torch.backends.cudnn.benchmark = kwargs.get("cudnn_benchmark", torch.backends.cudnn.benchmark)
torch.backends.cudnn.deterministic = kwargs.get("cudnn_deterministic", True)
-
- local_rank = int(os.environ.get('LOCAL_RANK', 0))
+ # open tf32
+ torch.backends.cuda.matmul.allow_tf32 = kwargs.get("enable_tf32", True)
+
+ local_rank = int(os.environ.get("LOCAL_RANK", 0))
if local_rank == 0:
tables.print()
# Check if we are using DDP or FSDP
- use_ddp = 'WORLD_SIZE' in os.environ and int(os.environ["WORLD_SIZE"]) > 1
- use_fsdp = kwargs.get("use_fsdp", None)
+ use_ddp = "WORLD_SIZE" in os.environ and int(os.environ["WORLD_SIZE"]) > 1
+ use_fsdp = kwargs.get("use_fsdp", False)
+ # use_ddp = False if use_fsdp else use_fsdp
if use_ddp or use_fsdp:
- dist.init_process_group(backend=kwargs.get("backend", "nccl"), init_method='env://')
+ dist.init_process_group(backend=kwargs.get("backend", "nccl"), init_method="env://")
torch.cuda.set_device(local_rank)
-
+
+ logging.info("Build model, frontend, tokenizer")
+ device = kwargs.get("device", "cuda")
+ kwargs["device"] = "cpu"
+ model = AutoModel(**kwargs)
+
# save config.yaml
- if (use_ddp or use_fsdp) and dist.get_rank() == 0 or not (use_ddp or use_fsdp) and local_rank == 0:
- os.makedirs(kwargs.get("output_dir", "./"), exist_ok=True)
- yaml_file = os.path.join(kwargs.get("output_dir", "./"), "config.yaml")
- OmegaConf.save(config=kwargs, f=yaml_file)
- logging.info("config.yaml is saved to: %s", yaml_file)
+ if (
+ (use_ddp or use_fsdp)
+ and dist.get_rank() == 0
+ or not (use_ddp or use_fsdp)
+ and local_rank == 0
+ ):
+ prepare_model_dir(**kwargs)
- tokenizer = kwargs.get("tokenizer", None)
- if tokenizer is not None:
- tokenizer_class = tables.tokenizer_classes.get(tokenizer)
- tokenizer = tokenizer_class(**kwargs["tokenizer_conf"])
- kwargs["tokenizer"] = tokenizer
-
- # build frontend if frontend is none None
- frontend = kwargs.get("frontend", None)
- if frontend is not None:
- frontend_class = tables.frontend_classes.get(frontend)
- frontend = frontend_class(**kwargs["frontend_conf"])
- kwargs["frontend"] = frontend
- kwargs["input_size"] = frontend.output_size()
-
-
- # build model
- model_class = tables.model_classes.get(kwargs["model"])
- model = model_class(**kwargs, **kwargs["model_conf"], vocab_size=len(tokenizer.token_list))
-
-
-
- # init_param
- init_param = kwargs.get("init_param", None)
- if init_param is not None:
- if not isinstance(init_param, (list, tuple)):
- init_param = (init_param,)
- logging.info("init_param is not None: %s", init_param)
- for p in init_param:
- if os.path.exists(p):
- logging.info(f"Loading pretrained params from {p}")
- load_pretrained_model(
- model=model,
- path=p,
- ignore_init_mismatch=kwargs.get("ignore_init_mismatch", True),
- oss_bucket=kwargs.get("oss_bucket", None),
- scope_map=kwargs.get("scope_map", None),
- excludes=kwargs.get("excludes", None),
- )
- else:
- logging.info(f"Checkpoint does not exist, init randomly: {p}")
- elif kwargs.get("init", None):
- initialize(model, kwargs.get("init", "kaiming_normal"))
- else:
- print("No initialize method")
-
+ # parse kwargs
+ kwargs = model.kwargs
+ kwargs["device"] = device
+ tokenizer = kwargs["tokenizer"]
+ frontend = kwargs["frontend"]
+ model = model.model
+ del kwargs["model"]
# freeze_param
freeze_param = kwargs.get("freeze_param", None)
if freeze_param is not None:
- freeze_param = eval(freeze_param)
- if isinstance(freeze_param, Sequence):
+ if "," in freeze_param:
+ freeze_param = eval(freeze_param)
+ if not isinstance(freeze_param, (list, tuple)):
freeze_param = (freeze_param,)
logging.info("freeze_param is not None: %s", freeze_param)
for t in freeze_param:
@@ -126,73 +108,158 @@
if k.startswith(t + ".") or k == t:
logging.info(f"Setting {k}.requires_grad = False")
p.requires_grad = False
-
+ if local_rank == 0:
+ logging.info(f"{model_summary(model)}")
if use_ddp:
model = model.cuda(local_rank)
- model = DDP(model, device_ids=[local_rank],
- find_unused_parameters=kwargs.get("train_conf", {}).get("find_unused_parameters", False))
+ model = DDP(
+ model,
+ device_ids=[local_rank],
+ find_unused_parameters=kwargs.get("train_conf", {}).get(
+ "find_unused_parameters", False
+ ),
+ )
elif use_fsdp:
- model = FSDP(model).cuda(local_rank)
+ # model = FSDP(model).cuda(local_rank)
+
+ def custom_auto_wrap_policy(
+ module: nn.Module,
+ recurse: bool,
+ nonwrapped_numel: int,
+ # Additional custom arguments
+ min_num_params: int = int(1e8),
+ ) -> bool:
+ # 鏍规嵁鑷畾涔夐�昏緫鍐冲畾鏄惁鍖呰妯″潡
+ is_large = unwrapped_params >= min_num_params
+ requires_grad_uniform = len({p.requires_grad for p in module.parameters()}) == 1
+ return is_large and requires_grad_uniform
+
+ # Configure a custom `min_num_params`
+ my_auto_wrap_policy = functools.partial(custom_auto_wrap_policy, min_num_params=int(1e5))
+ torch.cuda.set_device(local_rank)
+ model = FSDP(
+ model,
+ auto_wrap_policy=custom_auto_wrap_policy,
+ mixed_precision=None,
+ device_id=torch.cuda.current_device(),
+ )
else:
model = model.to(device=kwargs.get("device", "cuda"))
-
-
+
+ kwargs["device"] = next(model.parameters()).device
+
# optim
+ logging.info("Build optim")
optim = kwargs.get("optim", "adam")
assert optim in optim_classes
optim_class = optim_classes.get(optim)
optim = optim_class(model.parameters(), **kwargs.get("optim_conf"))
-
+
# scheduler
+ logging.info("Build scheduler")
scheduler = kwargs.get("scheduler", "warmuplr")
assert scheduler in scheduler_classes
scheduler_class = scheduler_classes.get(scheduler)
scheduler = scheduler_class(optim, **kwargs.get("scheduler_conf"))
-
# dataset
- dataset_class = tables.dataset_classes.get(kwargs.get("dataset", "AudioDataset"))
- dataset_tr = dataset_class(kwargs.get("train_data_set_list"), frontend=frontend, tokenizer=tokenizer, is_training=True, **kwargs.get("dataset_conf"))
- dataset_val = dataset_class(kwargs.get("valid_data_set_list"), frontend=frontend, tokenizer=tokenizer, is_training=False, **kwargs.get("dataset_conf"))
-
- # dataloader
- batch_sampler = kwargs["dataset_conf"].get("batch_sampler", "DynamicBatchLocalShuffleSampler")
- batch_sampler_val = None
- if batch_sampler is not None:
- batch_sampler_class = tables.batch_sampler_classes.get(batch_sampler)
- batch_sampler = batch_sampler_class(dataset_tr, **kwargs.get("dataset_conf"))
- batch_sampler_val = batch_sampler_class(dataset_val, is_training=False, **kwargs.get("dataset_conf"))
- dataloader_tr = torch.utils.data.DataLoader(dataset_tr,
- collate_fn=dataset_tr.collator,
- batch_sampler=batch_sampler,
- num_workers=kwargs.get("dataset_conf").get("num_workers", 4),
- pin_memory=True)
-
- dataloader_val = torch.utils.data.DataLoader(dataset_val,
- collate_fn=dataset_val.collator,
- batch_sampler=batch_sampler_val,
- num_workers=kwargs.get("dataset_conf").get("num_workers", 4),
- pin_memory=True)
+ logging.info("Build dataloader")
+ dataloader_class = tables.dataloader_classes.get(
+ kwargs["dataset_conf"].get("dataloader", "DataloaderMapStyle")
+ )
+ dataloader = dataloader_class(**kwargs)
+ # dataloader_tr, dataloader_val = dataloader_class(**kwargs)
trainer = Trainer(
- model=model,
- optim=optim,
- scheduler=scheduler,
- dataloader_train=dataloader_tr,
- dataloader_val=dataloader_val,
local_rank=local_rank,
use_ddp=use_ddp,
use_fsdp=use_fsdp,
+ device=kwargs["device"],
output_dir=kwargs.get("output_dir", "./exp"),
- resume=kwargs.get("resume", True),
**kwargs.get("train_conf"),
)
- trainer.run()
-
- if use_ddp or use_fsdp:
- torch.distributed.destroy_process_group()
-
+ scaler = GradScaler(enabled=trainer.use_fp16) if trainer.use_fp16 else None
+ scaler = ShardedGradScaler(enabled=trainer.use_fp16) if trainer.use_fsdp else scaler
+
+ trainer.resume_checkpoint(
+ model=model,
+ optim=optim,
+ scheduler=scheduler,
+ scaler=scaler,
+ )
+
+ tensorboard_dir = os.path.join(kwargs.get("output_dir"), "tensorboard")
+ os.makedirs(tensorboard_dir, exist_ok=True)
+ try:
+ writer = SummaryWriter(tensorboard_dir) # if trainer.rank == 0 else None
+ except:
+ writer = None
+
+ dataloader_tr, dataloader_val = None, None
+ for epoch in range(trainer.start_epoch, trainer.max_epoch):
+ time1 = time.perf_counter()
+
+ for data_split_i in range(trainer.start_data_split_i, dataloader.data_split_num):
+ time_slice_i = time.perf_counter()
+ dataloader_tr, dataloader_val = dataloader.build_iter(
+ epoch, data_split_i=data_split_i, start_step=trainer.start_step
+ )
+
+ trainer.train_epoch(
+ model=model,
+ optim=optim,
+ scheduler=scheduler,
+ scaler=scaler,
+ dataloader_train=dataloader_tr,
+ dataloader_val=dataloader_val,
+ epoch=epoch,
+ writer=writer,
+ data_split_i=data_split_i,
+ data_split_num=dataloader.data_split_num,
+ start_step=trainer.start_step,
+ )
+ trainer.start_step = 0
+
+ device = next(model.parameters()).device
+ if device.type == "cuda":
+ with torch.cuda.device(device):
+ torch.cuda.empty_cache()
+
+ time_escaped = (time.perf_counter() - time_slice_i) / 3600.0
+ logging.info(
+ f"rank: {local_rank}, "
+ f"time_escaped_epoch: {time_escaped:.3f} hours, "
+ f"estimated to finish {dataloader.data_split_num} data_slices, remaining: {dataloader.data_split_num-data_split_i} slices, {(dataloader.data_split_num-data_split_i)*time_escaped:.3f} hours, "
+ f"epoch: {trainer.max_epoch - epoch} epochs, {((trainer.max_epoch - epoch - 1)*dataloader.data_split_num + dataloader.data_split_num-data_split_i)*time_escaped:.3f} hours\n"
+ )
+
+ trainer.start_data_split_i = 0
+ trainer.validate_epoch(
+ model=model, dataloader_val=dataloader_val, epoch=epoch + 1, writer=writer
+ )
+ scheduler.step()
+ trainer.step_in_epoch = 0
+ trainer.save_checkpoint(
+ epoch + 1, model=model, optim=optim, scheduler=scheduler, scaler=scaler
+ )
+
+ time2 = time.perf_counter()
+ time_escaped = (time2 - time1) / 3600.0
+ logging.info(
+ f"rank: {local_rank}, "
+ f"time_escaped_epoch: {time_escaped:.3f} hours, "
+ f"estimated to finish {trainer.max_epoch} "
+ f"epoch: {(trainer.max_epoch - epoch) * time_escaped:.3f} hours\n"
+ )
+ trainer.train_acc_avg = 0.0
+ trainer.train_loss_avg = 0.0
+
+ if trainer.rank == 0:
+ average_checkpoints(trainer.output_dir, trainer.avg_nbest_model)
+
+ trainer.close()
+
if __name__ == "__main__":
- main_hydra()
\ No newline at end of file
+ main_hydra()
--
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