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ColossalAI/applications/Chat/coati/trainer/sft.py

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import math
import time
from abc import ABC
from typing import Optional
import loralib as lora
import torch
import torch.distributed as dist
import wandb
from coati.models.loss import GPTLMLoss
from torch import nn
from torch.optim import Adam, Optimizer
from torch.optim.lr_scheduler import LambdaLR
from torch.utils.data import DataLoader
from torch.utils.data.distributed import DistributedSampler
from tqdm import tqdm
from transformers.tokenization_utils_base import PreTrainedTokenizerBase
from transformers.trainer import get_scheduler
from colossalai.logging import get_dist_logger
from .strategies import Strategy
from .utils import is_rank_0
class SFTTrainer(ABC):
"""
Trainer to use while training reward model.
Args:
model (torch.nn.Module): the model to train
strategy (Strategy): the strategy to use for training
optim(Optimizer): the optimizer to use for training
train_dataloader: the dataloader to use for training
eval_dataloader: the dataloader to use for evaluation
batch_size (int, defaults to 1): the batch size while training
max_epochs (int, defaults to 2): the number of epochs to train
optim_kwargs (dict, defaults to {'lr':1e-4}): the kwargs to use while initializing optimizer
"""
def __init__(
self,
model,
strategy: Strategy,
optim: Optimizer,
train_dataloader: DataLoader,
eval_dataloader: DataLoader = None,
batch_size: int = 1,
max_epochs: int = 2,
accimulation_steps: int = 8,
) -> None:
super().__init__()
self.strategy = strategy
self.epochs = max_epochs
self.train_dataloader = train_dataloader
self.eval_dataloader = eval_dataloader
self.model = strategy.setup_model(model)
if "DDP" in str(self.strategy):
self.model = self.model.module
self.optimizer = strategy.setup_optimizer(optim, self.model)
self.accimulation_steps = accimulation_steps
num_update_steps_per_epoch = len(train_dataloader) // self.accimulation_steps
max_steps = math.ceil(self.epochs * num_update_steps_per_epoch)
self.scheduler = get_scheduler("cosine",
self.optimizer,
num_warmup_steps=math.ceil(max_steps * 0.03),
num_training_steps=max_steps)
def fit(self, logger, log_interval=10):
wandb.init(project="Coati", name=time.strftime("%Y-%m-%d %H:%M:%S", time.localtime()))
wandb.watch(self.model)
total_loss = 0
# epoch_bar = tqdm(range(self.epochs), desc='Epochs', disable=not is_rank_0())
step_bar = tqdm(range(len(self.train_dataloader) // self.accimulation_steps * self.epochs),
desc=f'steps',
disable=not is_rank_0())
for epoch in range(self.epochs):
# process_bar = tqdm(range(len(self.train_dataloader)), desc=f'Train process for{epoch}', disable=not is_rank_0())
# train
self.model.train()
for batch_id, batch in enumerate(self.train_dataloader):
prompt_ids = batch["input_ids"].to(torch.cuda.current_device())
p_mask = batch["attention_mask"].to(torch.cuda.current_device())
labels = batch["labels"].to(torch.cuda.current_device())
# prompt_ids = prompt_ids.squeeze(1).cuda()
# p_mask = p_mask.squeeze(1).cuda()
# prompt_logits = self.model(prompt_ids, attention_mask=p_mask, labels=labels)
outputs = self.model(prompt_ids, attention_mask=p_mask, labels=labels)
loss = outputs.loss
prompt_logits = outputs.logits
if loss >= 2.5:
logger.warning(f"batch_id:{batch_id}, abnormal loss: {loss}")
loss = loss / self.accimulation_steps
self.strategy.backward(loss, self.model, self.optimizer)
total_loss += loss.item()
# gradient accumulation
if (batch_id + 1) % self.accimulation_steps == 0:
self.strategy.optimizer_step(self.optimizer)
self.optimizer.zero_grad()
self.scheduler.step()
wandb.log({
"loss": total_loss / self.accimulation_steps,
"lr": self.scheduler.get_last_lr()[0],
"epoch": epoch,
"batch_id": batch_id
})
total_loss = 0
step_bar.update()
# if batch_id % log_interval == 0:
# logger.info(f'Train Epoch {epoch}/{self.epochs} Batch {batch_id} Rank {dist.get_rank()} loss {loss.item()}')
# wandb.log({"loss": loss.item()})
# process_bar.update()
# eval
if self.eval_dataloader is not None:
self.model.eval()
with torch.no_grad():
loss_sum = 0
num_seen = 0
for batch in self.eval_dataloader:
prompt_ids = batch["input_ids"].to(torch.cuda.current_device())
p_mask = batch["attention_mask"].to(torch.cuda.current_device())
labels = batch["labels"].to(torch.cuda.current_device())
# prompt_ids = prompt_ids.squeeze(1).cuda()
# p_mask = p_mask.squeeze(1).cuda()
outputs = self.model(prompt_ids, attention_mask=p_mask, labels=labels)
loss = outputs.loss
# prompt_logits = outputs.logits
loss_sum += loss.item()
num_seen += prompt_ids.size(0)
loss_mean = loss_sum / num_seen
if dist.get_rank() == 0:
logger.info(f'Eval Epoch {epoch}/{self.epochs} loss {loss_mean}')
# epoch_bar.update()
def save_model(self,
path: str,
only_rank0: bool = False,
tokenizer: Optional[PreTrainedTokenizerBase] = None) -> None:
self.strategy.save_model(model=self.model, path=path, only_rank0=only_rank0, tokenizer=tokenizer)
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