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155 lines
6.1 KiB
155 lines
6.1 KiB
import argparse
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import math
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from typing import Any, List, Union
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import evaluate
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import torch
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import torch.distributed as dist
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from data import GLUEDataBuilder
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from torch import nn
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from torch.optim import Adam, AdamW, Optimizer
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from torch.utils._pytree import tree_map
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from torch.utils.data import DataLoader
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from tqdm import tqdm
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from transformers import BertConfig, BertForSequenceClassification, get_linear_schedule_with_warmup
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import colossalai
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from colossalai.cluster import DistCoordinator
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from colossalai.nn.optimizer import HybridAdam
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from colossalai.shardformer import ShardConfig, ShardFormer
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def to_device(x: Any, device: torch.device) -> Any:
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def _to(t: Any):
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if isinstance(t, torch.Tensor):
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return t.to(device)
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return t
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return tree_map(_to, x)
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def train(args):
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colossalai.launch_from_torch(config={}, seed=42)
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coordinator = DistCoordinator()
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# prepare for data and dataset
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data_builder = GLUEDataBuilder(model_name_or_path=args.pretrain,
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task_name=args.task,
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train_batch_size=args.batch_size,
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eval_batch_size=args.batch_size)
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train_dataloader = data_builder.train_dataloader()
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test_dataloader = data_builder.test_dataloader()
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if args.model == "bert":
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cfg = BertConfig.from_pretrained(args.pretrain, num_labels=data_builder.num_labels)
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model = BertForSequenceClassification.from_pretrained(args.pretrain, config=cfg)
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model.to(torch.cuda.current_device())
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# if multiple GPUs, shard the model
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if dist.get_world_size() > 1:
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shard_config = ShardConfig(enable_fused_normalization=args.fused_layernorm)
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shard_former = ShardFormer(shard_config=shard_config)
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model = shard_former.optimize(model)
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optim = Adam(model.parameters(), lr=args.lr)
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num_update_steps_per_epoch = len(train_dataloader) // args.accumulation_steps
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max_steps = math.ceil(args.max_epochs * num_update_steps_per_epoch)
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lr_scheduler = get_linear_schedule_with_warmup(
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optim,
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num_warmup_steps=math.ceil(max_steps * args.warmup_fraction),
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num_training_steps=max_steps,
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)
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fit(model, optim, lr_scheduler, train_dataloader, args.max_epochs, args.accumulation_steps, args.batch_size,
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coordinator)
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results = evaluate_model(model, test_dataloader, data_builder.num_labels, args.task, data_builder.eval_splits,
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coordinator)
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if coordinator.is_master():
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print(results)
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if args.target_f1 is not None and 'f1' in results:
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assert results['f1'] >= args.target_f1, f'f1 score {results["f1"]} is lower than target {args.target_f1}'
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def fit(model: nn.Module, optimizer: Optimizer, scheduler, train_dataloader, max_epochs, accumulation_steps, batch_size,
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coordinator):
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step_bar = tqdm(range(len(train_dataloader) // accumulation_steps * max_epochs),
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desc=f'steps',
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disable=not coordinator.is_master())
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total_loss = 0
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for epoch in range(max_epochs):
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model.train()
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for batch_id, batch in enumerate(train_dataloader):
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batch = to_device(batch, torch.cuda.current_device())
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outputs = model(**batch)
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loss = outputs.loss
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loss = loss / accumulation_steps
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loss.backward()
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total_loss += loss.item()
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if (batch_id + 1) % accumulation_steps == 0:
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optimizer.step()
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scheduler.step()
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optimizer.zero_grad()
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step_bar.set_postfix({
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'epoch': epoch,
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'loss': total_loss / batch_size,
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'lr': scheduler.get_last_lr()[0]
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})
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total_loss = 0
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step_bar.update()
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# evaluate
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@torch.no_grad()
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def evaluate_model(model: nn.Module, test_dataloader: Union[DataLoader, List[DataLoader]], num_labels: int,
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task_name: str, eval_splits: List[str], coordinator: DistCoordinator):
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metric = evaluate.load("glue", task_name, process_id=coordinator.rank, num_process=coordinator.world_size)
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model.eval()
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def evaluate_subset(dataloader: DataLoader):
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accum_loss = torch.zeros(1, device=torch.cuda.current_device())
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for batch in dataloader:
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batch = to_device(batch, torch.cuda.current_device())
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outputs = model(**batch)
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val_loss, logits = outputs[:2]
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accum_loss.add_(val_loss)
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if num_labels > 1:
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preds = torch.argmax(logits, axis=1)
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elif num_labels == 1:
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preds = logits.squeeze()
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labels = batch["labels"]
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metric.add_batch(predictions=preds, references=labels)
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results = metric.compute()
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if coordinator.is_master():
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results['loss'] = accum_loss.item() / (len(dataloader) * dataloader.batch_size)
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return results
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if isinstance(test_dataloader, DataLoader):
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return evaluate_subset(test_dataloader)
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else:
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assert len(test_dataloader) == len(eval_splits)
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final_results = {}
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for split, sub_loader in zip(eval_splits, test_dataloader):
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results = evaluate_subset(sub_loader)
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final_results.update({f'{k}_{split}': v for k, v in results.items()})
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return final_results
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if __name__ == '__main__':
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parser = argparse.ArgumentParser()
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parser.add_argument('-t', '--task', default='mrpc', help="GLUE task to run")
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parser.add_argument('--model', type=str, default="bert")
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parser.add_argument('--pretrain', type=str, default="bert-base-uncased")
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parser.add_argument('--max_epochs', type=int, default=1)
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parser.add_argument('--batch_size', type=int, default=4)
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parser.add_argument('--lr', type=float, default=2.4e-5)
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parser.add_argument('--fused_layernorm', type=bool, default=False)
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parser.add_argument('--accumulation_steps', type=int, default=8)
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parser.add_argument('--warmup_fraction', type=float, default=0.03)
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parser.add_argument('--target_f1', type=float, default=None)
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args = parser.parse_args()
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train(args)
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