mirror of https://github.com/hpcaitech/ColossalAI
278 lines
11 KiB
Python
278 lines
11 KiB
Python
import math
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import os
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import time
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from functools import partial
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import torch
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from arguments import parse_args
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from evaluation import evaluate
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from loss import LossForPretraining
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from nvidia_bert_dataset_provider import NvidiaBertDatasetProvider
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from pretrain_utils import get_lr_scheduler, get_model, get_optimizer, save_ckpt
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from tqdm import tqdm
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from transformers import AutoTokenizer
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from utils.exp_util import get_mem_info, get_tflops, log_args, throughput_calculator
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from utils.global_vars import get_tensorboard_writer, get_timers, set_global_variables
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from utils.logger import Logger
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import colossalai
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from colossalai.context import ParallelMode
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from colossalai.nn.parallel import zero_model_wrapper, zero_optim_wrapper
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from colossalai.tensor import ProcessGroup, ShardSpec
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from colossalai.utils import get_current_device
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from colossalai.utils.model.colo_init_context import ColoInitContext
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def main():
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args = parse_args()
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launch_time = time.strftime("%Y-%m-%d-%H:%M:%S", time.localtime())
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tokenizer = AutoTokenizer.from_pretrained(args.tokenizer_path)
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# os.environ['CUDA_LAUNCH_BLOCKING'] = '1'
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logger = Logger(os.path.join(args.log_path, launch_time), cuda=torch.cuda.is_available(), debug=args.vscode_debug)
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if args.vscode_debug:
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colossalai.launch(
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config={}, rank=args.rank, world_size=args.world_size, host=args.host, port=args.port, backend=args.backend
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)
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args.local_rank = -1
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args.log_interval = 1
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else:
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colossalai.launch_from_torch(config={}) # args.colossal_config
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args.local_rank = int(os.environ["LOCAL_RANK"])
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logger.info(
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f"launch_from_torch, world size: {torch.distributed.get_world_size()} | "
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+ f"ParallelMode.MODEL: {ParallelMode.MODEL} | ParallelMode.DATA: {ParallelMode.DATA} | ParallelMode.TENSOR: {ParallelMode.TENSOR}"
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)
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log_args(logger, args)
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args.tokenizer = tokenizer
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args.logger = logger
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set_global_variables(launch_time, args.tensorboard_path)
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world_size = torch.distributed.get_world_size()
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get_current_device()
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# build model, optimizer and criterion
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if args.distplan.startswith("CAI"):
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# all param must use the same process group.
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world_size = torch.distributed.get_world_size()
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shard_pg = ProcessGroup(tp_degree=world_size) if args.shardinit else None
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default_dist_spec = ShardSpec([-1], [world_size]) if args.shardinit else None
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if args.shardinit and args.distplan != "CAI_Gemini":
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raise RuntimeError("You can only use shardinit with CAI_Gemini")
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# build GPT model
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with ColoInitContext(
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device=get_current_device(), dtype=torch.half, default_dist_spec=default_dist_spec, default_pg=shard_pg
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):
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config, model, numel = get_model(args, logger)
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# assign running configurations
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gemini_config = None
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if args.distplan.startswith("CAI_ZeRO"):
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optim_config = dict(reduce_bucket_size=12 * 1024 * 1024, overlap_communication=True, verbose=True)
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elif args.distplan == "CAI_Gemini":
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gemini_config = dict(
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strict_ddp_mode=args.tp_degree == 1,
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device=get_current_device(),
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placement_policy=args.placement,
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pin_memory=True,
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hidden_dim=model.config.hidden_size,
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search_range_m=128,
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)
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optim_config = dict(gpu_margin_mem_ratio=0.0)
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else:
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raise RuntimeError
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# build a highly optimized gpu/cpu optimizer
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optimizer = get_optimizer(model, lr=args.lr)
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if args.distplan == "CAI_ZeRO1":
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zero_stage = 1
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elif args.distplan == "CAI_ZeRO2":
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zero_stage = 2
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elif args.distplan == "CAI_Gemini":
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zero_stage = 3
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else:
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raise RuntimeError
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# wrap your model and optimizer
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model = zero_model_wrapper(model, zero_stage, gemini_config)
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optimizer = zero_optim_wrapper(model, optimizer, optim_config=optim_config)
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logger.info(get_mem_info(prefix="After init optim, "))
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else:
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config, model, numel = get_model(args, logger)
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logger.info("no_zero")
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if torch.distributed.get_rank() == 0:
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os.mkdir(os.path.join(args.ckpt_path, launch_time))
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logger.info(f"Model numel: {numel}")
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get_tflops_func = partial(get_tflops, numel, args.train_micro_batch_size_per_gpu, args.max_seq_length)
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# 144003367 is is the length of the entire dataset
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# len(dataloader)
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steps_per_epoch = (
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144003367
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// world_size
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// args.train_micro_batch_size_per_gpu
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// args.gradient_accumulation_steps
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// args.refresh_bucket_size
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)
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total_steps = steps_per_epoch * args.epoch
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lr_scheduler = get_lr_scheduler(optimizer, total_steps=total_steps, last_epoch=-1)
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start_epoch = 0
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start_shard = 0
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global_step = 0
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if args.resume_train:
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assert os.path.exists(args.load_optimizer_lr)
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o_l_state_dict = torch.load(args.load_optimizer_lr, map_location="cpu")
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o_l_state_dict["lr_scheduler"]["last_epoch"] = o_l_state_dict["lr_scheduler"]["last_epoch"] - 1
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optimizer.load_state_dict(o_l_state_dict["optimizer"])
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# o_l_state_dict['lr_scheduler']['last_epoch']
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lr_scheduler = get_lr_scheduler(
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optimizer, total_steps=total_steps, last_epoch=o_l_state_dict["lr_scheduler"]["last_epoch"]
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)
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for state in optimizer.state.values():
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for k, v in state.items():
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if isinstance(v, torch.Tensor):
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state[k] = v.cuda(f"cuda:{torch.cuda.current_device()}")
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# if you want delete the above three code, must move the model to gpu. Because in optimizer.step()
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lr_scheduler.load_state_dict(o_l_state_dict["lr_scheduler"])
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start_epoch = o_l_state_dict["epoch"]
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start_shard = o_l_state_dict["shard"] + 1
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# global_step = o_l_state_dict['global_step'] + 1
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logger.info(
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f"resume from epoch {start_epoch} shard {start_shard} step {lr_scheduler.last_epoch} lr {lr_scheduler.get_last_lr()[0]}"
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)
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criterion = LossForPretraining(config.vocab_size)
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# build dataloader
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pretrain_dataset_provider = NvidiaBertDatasetProvider(args)
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logger.info(get_mem_info(prefix="After init model, "))
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eval_loss = 0
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train_loss = 0
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timers = get_timers()
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timers("interval_time").start()
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timers("epoch_time").start()
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timers("shard_time").start()
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for epoch in range(start_epoch, args.epoch):
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for shard in range(start_shard, len(os.listdir(args.data_path_prefix))):
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dataset_iterator, total_length = pretrain_dataset_provider.get_shard(shard)
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# pretrain_dataset_provider.prefetch_shard(shard + 1) # may cause cpu memory overload
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if torch.distributed.get_rank() == 0:
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iterator_data = tqdm(
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enumerate(dataset_iterator),
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total=(total_length // args.train_micro_batch_size_per_gpu // world_size),
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colour="cyan",
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smoothing=1,
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)
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else:
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iterator_data = enumerate(dataset_iterator)
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model.train()
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for step, batch_data in iterator_data:
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# batch_data = pretrain_dataset_provider.get_batch(batch_index)
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input_ids = batch_data[0].cuda(f"cuda:{torch.cuda.current_device()}")
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attention_mask = batch_data[1].cuda(f"cuda:{torch.cuda.current_device()}")
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token_type_ids = batch_data[2].cuda(f"cuda:{torch.cuda.current_device()}")
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mlm_label = batch_data[3].cuda(f"cuda:{torch.cuda.current_device()}")
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# nsp_label = batch_data[5].cuda()
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output = model(input_ids=input_ids, token_type_ids=token_type_ids, attention_mask=attention_mask)
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loss = criterion(output.logits, mlm_label)
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pretrain_dataset_provider.prefetch_batch()
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optimizer.backward(loss)
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train_loss += loss.float().item()
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# if (step + 1) % args.accumulation_step == 0:
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optimizer.step()
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lr_scheduler.step()
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optimizer.zero_grad()
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global_step += 1
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if global_step % args.log_interval == 0 and global_step != 0 and torch.distributed.get_rank() == 0:
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elapsed_time = timers("interval_time").elapsed(reset=False)
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elapsed_time_per_iteration = elapsed_time / global_step
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samples_per_sec, tflops, approx_parameters_in_billions = throughput_calculator(
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numel, args, config, elapsed_time, global_step, world_size
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)
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cur_loss = train_loss / args.log_interval
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current_lr = lr_scheduler.get_last_lr()[0]
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log_str = (
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f"| epoch: {epoch} | shard: {shard} | step: {global_step} | lr {current_lr:.7f} | elapsed_time: {elapsed_time / 60 :.3f} minutes "
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+ f"| mins/batch: {elapsed_time_per_iteration :.3f} seconds | loss: {cur_loss:.7f} | ppl: {math.exp(cur_loss):.3f} | TFLOPS: {get_tflops_func(elapsed_time_per_iteration):.3f} or {tflops:.3f}"
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)
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logger.info(log_str, print_=False)
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if args.wandb:
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tensorboard_log = get_tensorboard_writer()
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tensorboard_log.log_train(
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{
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"lr": current_lr,
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"loss": cur_loss,
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"ppl": math.exp(cur_loss),
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"mins_batch": elapsed_time_per_iteration,
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},
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global_step,
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)
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train_loss = 0
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logger.info(f'epoch {epoch} shard {shard} has cost {timers("shard_time").elapsed() / 60 :.3f} mins')
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logger.info("*" * 100)
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eval_loss += evaluate(model, args, logger, global_step, criterion)
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save_ckpt(
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model,
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optimizer,
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lr_scheduler,
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os.path.join(args.ckpt_path, launch_time, f"epoch-{epoch}_shard-{shard}_" + launch_time),
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epoch,
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shard,
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global_step,
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)
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eval_loss /= len(os.listdir(args.data_path_prefix))
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logger.info(
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f'epoch {epoch} | shard_length {len(os.listdir(args.data_path_prefix))} | elapsed_time: {timers("epoch_time").elapsed() / 60 :.3f} mins'
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+ f"eval_loss: {eval_loss} | ppl: {math.exp(eval_loss)}"
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)
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logger.info("-" * 100)
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if args.wandb and torch.distributed.get_rank() == 0:
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tensorboard_log = get_tensorboard_writer()
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tensorboard_log.log_eval(
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{
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"all_eval_shard_loss": eval_loss,
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},
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epoch,
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)
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start_shard = 0
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eval_loss = 0
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pretrain_dataset_provider.release_shard()
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logger.info("Congratulation, training has finished!!!")
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if __name__ == "__main__":
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main()
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