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295 lines
11 KiB
295 lines
11 KiB
import argparse
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import torch
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import torch.distributed as dist
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from colossal_moe.models.mixtral_checkpoint import MixtralMoEHybridParallelCheckpointIO
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from colossal_moe.models.mixtral_policy import MixtralForCausalLMPolicy
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from colossal_moe.utils import load_checkpoint, move_to_cuda, save_checkpoint
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from torch.utils.data import Dataset
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from tqdm import tqdm
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from transformers import AutoTokenizer
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from transformers.models.mixtral import MixtralForCausalLM
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import colossalai
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from colossalai.booster import Booster
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from colossalai.booster.plugin.moe_hybrid_parallel_plugin import MoeHybridParallelPlugin
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from colossalai.cluster import DistCoordinator
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from colossalai.nn.lr_scheduler import CosineAnnealingWarmupLR
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from colossalai.nn.optimizer import HybridAdam
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from colossalai.utils import get_current_device
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@torch.no_grad()
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def get_global_loss(loss, booster):
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global_loss = loss.clone().detach()
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dist.all_reduce(tensor=global_loss, op=dist.ReduceOp.SUM, group=booster.plugin.dp_group)
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global_loss.div_(booster.plugin.dp_size)
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return global_loss
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class RandomDataset(Dataset):
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def __init__(self, num_samples: int = 1000, max_length: int = 2048, vocab_size: int = 100, tokenizer=None):
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self.num_samples = num_samples
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self.max_length = max_length
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self.input_ids = torch.randint(0, vocab_size, (num_samples, max_length), device=get_current_device())
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self.attention_mask = torch.ones_like(self.input_ids)
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def __len__(self):
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return self.num_samples
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def __getitem__(self, idx):
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return {
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"input_ids": self.input_ids[idx],
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"attention_mask": self.attention_mask[idx],
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"labels": self.input_ids[idx],
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}
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def parse_args():
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# basic settings
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parser = argparse.ArgumentParser()
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parser.add_argument(
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"--model_name",
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type=str,
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default="mistralai/Mixtral-8x7B-v0.1",
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help="Path to pretrained model or model identifier from huggingface.co/models.",
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)
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parser.add_argument("--load_checkpoint", type=str, default=None, help="Load checkpoint")
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parser.add_argument(
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"--plugin",
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type=str,
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default="hybrid",
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choices=["hybrid"],
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help="Parallel methods.",
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)
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parser.add_argument(
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"--output_path",
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type=str,
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default="./outputs",
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help="The path of your saved model after finetuning.",
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)
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parser.add_argument("--num_epoch", type=int, default=1, help="Number of epochs.")
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parser.add_argument(
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"--batch_size",
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type=int,
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default=1,
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help="Batch size (per dp group) for the training dataloader.",
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)
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parser.add_argument(
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"--save_interval",
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type=int,
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default=1000,
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help=" The interval (steps) of saving checkpoints.",
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)
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parser.add_argument(
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"--precision",
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type=str,
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default="bf16",
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choices=["fp32", "bf16", "fp16"],
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help="The mixed precision training.",
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)
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parser.add_argument("--max_length", type=int, default=2048, help="Max sequence length.")
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parser.add_argument("--seed", type=int, default=42, help="A seed for reproducible training.")
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# optim
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parser.add_argument("--lr", type=float, default=1e-5, help="Learning rate.")
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parser.add_argument("--weight_decay", type=float, default=0.0, help="Weight decay to use.")
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# lr scheduler
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parser.add_argument("--num_epochs", type=int, default=1, help="Number of training epochs")
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parser.add_argument("--warmup_steps", type=int, default=None, help="Warmup steps")
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# zero stage for all plugins
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parser.add_argument("--zero_stage", type=int, default=2, help="zero stage.")
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# hybrid plugin
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parser.add_argument("--pp_size", type=int, default=2, help="pp size for hybrid plugin")
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parser.add_argument("--dp_size", type=int, default=1, help="dp size for hybrid plugin")
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parser.add_argument("--ep_size", type=int, default=2, help="ep size for hybrid plugin")
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parser.add_argument("--microbatch_size", type=int, default=1, help="Microbatch size in pipeline for hybrid plugin")
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# kernel
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parser.add_argument(
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"--use_kernel",
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action="store_true",
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help="Use kernel optim. Need to install flash attention and triton to enable all kernel optimizations. Skip if not installed.",
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)
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parser.add_argument(
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"--use_layernorm_kernel",
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action="store_true",
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help="Use layernorm kernel. Need to install apex. Raise error if not installed.",
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)
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# load balance
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parser.add_argument(
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"--load_balance", action="store_true", help="Expert load balance. Defaults to False. Recommend to enable."
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)
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parser.add_argument("--load_balance_interval", type=int, default=1000, help="Expert load balance interval.")
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# communicate overlap
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parser.add_argument(
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"--comm_overlap",
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action="store_true",
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help="Use communication overlap for MoE. Recommended to enable for multi-node training.",
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)
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# hierarchical all-to-all
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parser.add_argument(
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"--hierarchical_alltoall",
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action="store_true",
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help="Use hierarchical all-to-all for MoE. Recommended to enable for multi-node training.",
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)
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args = parser.parse_args()
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return args
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def main():
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args = parse_args()
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# Launch ColossalAI
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colossalai.launch_from_torch(seed=args.seed)
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coordinator = DistCoordinator()
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# Set plugin
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if args.plugin == "hybrid":
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plugin = MoeHybridParallelPlugin(
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tp_size=1,
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pp_size=args.pp_size,
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ep_size=args.ep_size,
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microbatch_size=args.microbatch_size,
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custom_policy=MixtralForCausalLMPolicy(),
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enable_fused_normalization=args.use_layernorm_kernel,
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enable_jit_fused=args.use_kernel,
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precision=args.precision,
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zero_stage=args.zero_stage,
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checkpoint_io=MixtralMoEHybridParallelCheckpointIO,
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)
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else:
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raise ValueError(f"Invalid plugin {args.plugin}")
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coordinator.print_on_master(f"Set plugin as {plugin.__class__.__name__}")
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# Build Mixtral model
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model = MixtralForCausalLM.from_pretrained(args.model_name)
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coordinator.print_on_master(f"Finish init model")
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# Enable gradient checkpointing
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model.gradient_checkpointing_enable()
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# Prepare tokenizer and dataloader
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tokenizer = AutoTokenizer.from_pretrained(args.model_name)
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dataset = RandomDataset(num_samples=100, tokenizer=tokenizer)
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collate_fn = None
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dataloader = plugin.prepare_dataloader(
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dataset, batch_size=args.batch_size, shuffle=True, drop_last=True, collate_fn=collate_fn
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)
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# Set optimizer
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optimizer = HybridAdam(
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model_params=model.parameters(),
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lr=args.lr,
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betas=(0.9, 0.95),
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weight_decay=args.weight_decay,
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adamw_mode=True,
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)
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# Set lr scheduler
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lr_scheduler = CosineAnnealingWarmupLR(
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optimizer=optimizer,
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total_steps=args.num_epochs * len(dataloader),
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warmup_steps=(
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args.warmup_steps if args.warmup_steps is not None else int(args.num_epochs * len(dataloader) * 0.025)
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),
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eta_min=0.1 * args.lr,
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)
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# Set booster
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booster = Booster(plugin=plugin)
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model, optimizer, _, dataloader, lr_scheduler = booster.boost(
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model=model,
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optimizer=optimizer,
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lr_scheduler=lr_scheduler,
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dataloader=dataloader,
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)
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use_pipeline = isinstance(booster.plugin, MoeHybridParallelPlugin) and booster.plugin.pp_size > 1
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is_pp_last_stage = use_pipeline and booster.plugin.stage_manager.is_last_stage()
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coordinator.print_on_master(f"Finish init booster")
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# Load ckpt
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if args.load_checkpoint is not None:
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load_checkpoint(args.load_checkpoint, booster, model, optimizer, lr_scheduler)
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coordinator.print_on_master(f"Finish load optimizer")
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# Start finetuning
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coordinator.print_on_master(f"Start finetuning")
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for epoch in range(args.num_epoch):
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model.train()
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train_dataloader_iter = iter(dataloader)
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total_len = len(train_dataloader_iter)
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with tqdm(
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range(total_len),
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desc=f"Epoch [{epoch + 1}/{args.num_epoch}]",
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disable=not coordinator.is_master() if use_pipeline == False else not is_pp_last_stage,
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) as pbar:
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for step in pbar:
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if use_pipeline:
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# Forward pass
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outputs = booster.execute_pipeline(
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train_dataloader_iter,
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model,
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lambda x, y: x.loss,
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optimizer,
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return_loss=True,
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)
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# Backward and optimize
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if is_pp_last_stage:
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loss = outputs["loss"]
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global_loss = get_global_loss(loss, booster)
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if coordinator._local_rank == "0":
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pbar.set_postfix({"Loss": global_loss.item()})
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else:
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# Forward pass
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data = next(train_dataloader_iter)
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data = move_to_cuda(data, torch.cuda.current_device())
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outputs = model(**data)
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loss = outputs["loss"]
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# Backward
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booster.backward(loss, optimizer)
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pbar.set_postfix({"loss": loss.item()})
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optimizer.step()
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lr_scheduler.step()
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optimizer.zero_grad()
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# Apply load balance
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# if (
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# args.load_balance
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# and args.load_balance_interval > 0
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# and (step + 1) % args.load_balance_interval == 0
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# ):
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# coordinator.print_on_master(f"Apply load balance")
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# apply_load_balance(model, optimizer)
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# save checkpoint
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if (step + 1) % args.save_interval == 0:
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coordinator.print_on_master(f"Saving model checkpoint to {args.output_path}")
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save_checkpoint(
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args.output_path,
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booster,
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model,
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optimizer,
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lr_scheduler,
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epoch,
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step,
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args.batch_size,
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coordinator,
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)
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# save checkpoint at the end of each epochs
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booster.save_model(model, args.output_path, shard=True, size_per_shard=5120)
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coordinator.print_on_master(f"Saving model checkpoint to {args.output_path}")
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# Finish training
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coordinator.print_on_master(f"Finish training")
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if __name__ == "__main__":
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main()
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