346 lines
14 KiB
Python
346 lines
14 KiB
Python
# --------------------------------------------------------
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# Swin Transformer
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# Copyright (c) 2021 Microsoft
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# Licensed under The MIT License [see LICENSE for details]
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# Written by Ze Liu
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# --------------------------------------------------------
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import os
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import time
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import argparse
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import datetime
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import numpy as np
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import torch
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import torch.backends.cudnn as cudnn
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import torch.distributed as dist
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from timm.loss import LabelSmoothingCrossEntropy, SoftTargetCrossEntropy
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from timm.utils import accuracy, AverageMeter
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from config import get_config
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from models import build_model
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from data import build_loader
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from lr_scheduler import build_scheduler
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from optimizer import build_optimizer
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from logger import create_logger
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from utils import load_checkpoint, save_checkpoint, get_grad_norm, auto_resume_helper, reduce_tensor
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try:
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# noinspection PyUnresolvedReferences
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from apex import amp
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except ImportError:
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amp = None
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def parse_option():
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parser = argparse.ArgumentParser('Swin Transformer training and evaluation script', add_help=False)
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parser.add_argument('--cfg', type=str, required=True, metavar="FILE", help='path to config file', )
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parser.add_argument(
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"--opts",
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help="Modify config options by adding 'KEY VALUE' pairs. ",
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default=None,
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nargs='+',
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)
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# easy config modification
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parser.add_argument('--batch-size', type=int, help="batch size for single GPU")
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parser.add_argument('--data-path', type=str, help='path to dataset')
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parser.add_argument('--zip', action='store_true', help='use zipped dataset instead of folder dataset')
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parser.add_argument('--cache-mode', type=str, default='part', choices=['no', 'full', 'part'],
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help='no: no cache, '
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'full: cache all data, '
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'part: sharding the dataset into nonoverlapping pieces and only cache one piece')
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parser.add_argument('--resume', help='resume from checkpoint')
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parser.add_argument('--accumulation-steps', type=int, help="gradient accumulation steps")
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parser.add_argument('--use-checkpoint', action='store_true',
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help="whether to use gradient checkpointing to save memory")
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parser.add_argument('--amp-opt-level', type=str, default='O1', choices=['O0', 'O1', 'O2'],
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help='mixed precision opt level, if O0, no amp is used')
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parser.add_argument('--output', default='output', type=str, metavar='PATH',
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help='root of output folder, the full path is <output>/<model_name>/<tag> (default: output)')
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parser.add_argument('--tag', help='tag of experiment')
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parser.add_argument('--eval', action='store_true', help='Perform evaluation only')
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parser.add_argument('--throughput', action='store_true', help='Test throughput only')
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# distributed training
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parser.add_argument("--local_rank", type=int, required=True, help='local rank for DistributedDataParallel')
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args, unparsed = parser.parse_known_args()
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config = get_config(args)
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return args, config
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def main(config):
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dataset_train, dataset_val, data_loader_train, data_loader_val, mixup_fn = build_loader(config)
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logger.info(f"Creating model:{config.MODEL.TYPE}/{config.MODEL.NAME}")
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model = build_model(config)
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model.cuda()
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logger.info(str(model))
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optimizer = build_optimizer(config, model)
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if config.AMP_OPT_LEVEL != "O0":
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model, optimizer = amp.initialize(model, optimizer, opt_level=config.AMP_OPT_LEVEL)
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model = torch.nn.parallel.DistributedDataParallel(model, device_ids=[config.LOCAL_RANK], broadcast_buffers=False)
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model_without_ddp = model.module
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n_parameters = sum(p.numel() for p in model.parameters() if p.requires_grad)
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logger.info(f"number of params: {n_parameters}")
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if hasattr(model_without_ddp, 'flops'):
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flops = model_without_ddp.flops()
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logger.info(f"number of GFLOPs: {flops / 1e9}")
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lr_scheduler = build_scheduler(config, optimizer, len(data_loader_train))
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if config.AUG.MIXUP > 0.:
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# smoothing is handled with mixup label transform
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criterion = SoftTargetCrossEntropy()
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elif config.MODEL.LABEL_SMOOTHING > 0.:
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criterion = LabelSmoothingCrossEntropy(smoothing=config.MODEL.LABEL_SMOOTHING)
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else:
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criterion = torch.nn.CrossEntropyLoss()
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max_accuracy = 0.0
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if config.TRAIN.AUTO_RESUME:
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resume_file = auto_resume_helper(config.OUTPUT)
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if resume_file:
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if config.MODEL.RESUME:
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logger.warning(f"auto-resume changing resume file from {config.MODEL.RESUME} to {resume_file}")
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config.MODEL.RESUME = resume_file
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logger.info(f'auto resuming from {resume_file}')
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else:
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logger.info(f'no checkpoint found in {config.OUTPUT}, ignoring auto resume')
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if config.MODEL.RESUME:
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max_accuracy = load_checkpoint(config, model_without_ddp, optimizer, lr_scheduler, logger)
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acc1, acc5, loss = validate(config, data_loader_val, model)
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logger.info(f"Accuracy of the network on the {len(dataset_val)} test images: {acc1:.1f}%")
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if config.EVAL_MODE:
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return
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if config.THROUGHPUT_MODE:
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throughput(data_loader_val, model, logger)
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return
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logger.info("Start training")
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start_time = time.time()
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for epoch in range(config.TRAIN.START_EPOCH, config.TRAIN.EPOCHS):
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data_loader_train.sampler.set_epoch(epoch)
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train_one_epoch(config, model, criterion, data_loader_train, optimizer, epoch, mixup_fn, lr_scheduler)
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if dist.get_rank() == 0 and (epoch % config.SAVE_FREQ == 0 or epoch == (config.TRAIN.EPOCHS - 1)):
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save_checkpoint(config, epoch, model_without_ddp, max_accuracy, optimizer, lr_scheduler, logger)
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acc1, acc5, loss = validate(config, data_loader_val, model)
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logger.info(f"Accuracy of the network on the {len(dataset_val)} test images: {acc1:.1f}%")
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max_accuracy = max(max_accuracy, acc1)
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logger.info(f'Max accuracy: {max_accuracy:.2f}%')
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total_time = time.time() - start_time
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total_time_str = str(datetime.timedelta(seconds=int(total_time)))
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logger.info('Training time {}'.format(total_time_str))
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def train_one_epoch(config, model, criterion, data_loader, optimizer, epoch, mixup_fn, lr_scheduler):
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model.train()
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optimizer.zero_grad()
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num_steps = len(data_loader)
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batch_time = AverageMeter()
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loss_meter = AverageMeter()
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norm_meter = AverageMeter()
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start = time.time()
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end = time.time()
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for idx, (samples, targets) in enumerate(data_loader):
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samples = samples.cuda(non_blocking=True)
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targets = targets.cuda(non_blocking=True)
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if mixup_fn is not None:
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samples, targets = mixup_fn(samples, targets)
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outputs = model(samples)
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if config.TRAIN.ACCUMULATION_STEPS > 1:
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loss = criterion(outputs, targets)
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loss = loss / config.TRAIN.ACCUMULATION_STEPS
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if config.AMP_OPT_LEVEL != "O0":
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with amp.scale_loss(loss, optimizer) as scaled_loss:
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scaled_loss.backward()
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if config.TRAIN.CLIP_GRAD:
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grad_norm = torch.nn.utils.clip_grad_norm_(amp.master_params(optimizer), config.TRAIN.CLIP_GRAD)
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else:
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grad_norm = get_grad_norm(amp.master_params(optimizer))
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else:
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loss.backward()
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if config.TRAIN.CLIP_GRAD:
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grad_norm = torch.nn.utils.clip_grad_norm_(model.parameters(), config.TRAIN.CLIP_GRAD)
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else:
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grad_norm = get_grad_norm(model.parameters())
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if (idx + 1) % config.TRAIN.ACCUMULATION_STEPS == 0:
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optimizer.step()
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optimizer.zero_grad()
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lr_scheduler.step_update(epoch * num_steps + idx)
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else:
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loss = criterion(outputs, targets)
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optimizer.zero_grad()
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if config.AMP_OPT_LEVEL != "O0":
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with amp.scale_loss(loss, optimizer) as scaled_loss:
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scaled_loss.backward()
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if config.TRAIN.CLIP_GRAD:
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grad_norm = torch.nn.utils.clip_grad_norm_(amp.master_params(optimizer), config.TRAIN.CLIP_GRAD)
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else:
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grad_norm = get_grad_norm(amp.master_params(optimizer))
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else:
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loss.backward()
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if config.TRAIN.CLIP_GRAD:
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grad_norm = torch.nn.utils.clip_grad_norm_(model.parameters(), config.TRAIN.CLIP_GRAD)
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else:
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grad_norm = get_grad_norm(model.parameters())
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optimizer.step()
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lr_scheduler.step_update(epoch * num_steps + idx)
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torch.cuda.synchronize()
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loss_meter.update(loss.item(), targets.size(0))
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norm_meter.update(grad_norm)
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batch_time.update(time.time() - end)
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end = time.time()
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if idx % config.PRINT_FREQ == 0:
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lr = optimizer.param_groups[0]['lr']
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memory_used = torch.cuda.max_memory_allocated() / (1024.0 * 1024.0)
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etas = batch_time.avg * (num_steps - idx)
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logger.info(
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f'Train: [{epoch}/{config.TRAIN.EPOCHS}][{idx}/{num_steps}]\t'
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f'eta {datetime.timedelta(seconds=int(etas))} lr {lr:.6f}\t'
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f'time {batch_time.val:.4f} ({batch_time.avg:.4f})\t'
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f'loss {loss_meter.val:.4f} ({loss_meter.avg:.4f})\t'
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f'grad_norm {norm_meter.val:.4f} ({norm_meter.avg:.4f})\t'
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f'mem {memory_used:.0f}MB')
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epoch_time = time.time() - start
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logger.info(f"EPOCH {epoch} training takes {datetime.timedelta(seconds=int(epoch_time))}")
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@torch.no_grad()
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def validate(config, data_loader, model):
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criterion = torch.nn.CrossEntropyLoss()
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model.eval()
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batch_time = AverageMeter()
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loss_meter = AverageMeter()
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acc1_meter = AverageMeter()
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acc5_meter = AverageMeter()
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end = time.time()
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for idx, (images, target) in enumerate(data_loader):
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images = images.cuda(non_blocking=True)
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target = target.cuda(non_blocking=True)
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# compute output
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output = model(images)
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# measure accuracy and record loss
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loss = criterion(output, target)
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acc1, acc5 = accuracy(output, target, topk=(1, 5))
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acc1 = reduce_tensor(acc1)
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acc5 = reduce_tensor(acc5)
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loss = reduce_tensor(loss)
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loss_meter.update(loss.item(), target.size(0))
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acc1_meter.update(acc1.item(), target.size(0))
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acc5_meter.update(acc5.item(), target.size(0))
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# measure elapsed time
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batch_time.update(time.time() - end)
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end = time.time()
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if idx % config.PRINT_FREQ == 0:
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memory_used = torch.cuda.max_memory_allocated() / (1024.0 * 1024.0)
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logger.info(
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f'Test: [{idx}/{len(data_loader)}]\t'
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f'Time {batch_time.val:.3f} ({batch_time.avg:.3f})\t'
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f'Loss {loss_meter.val:.4f} ({loss_meter.avg:.4f})\t'
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f'Acc@1 {acc1_meter.val:.3f} ({acc1_meter.avg:.3f})\t'
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f'Acc@5 {acc5_meter.val:.3f} ({acc5_meter.avg:.3f})\t'
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f'Mem {memory_used:.0f}MB')
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logger.info(f' * Acc@1 {acc1_meter.avg:.3f} Acc@5 {acc5_meter.avg:.3f}')
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return acc1_meter.avg, acc5_meter.avg, loss_meter.avg
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@torch.no_grad()
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def throughput(data_loader, model, logger):
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model.eval()
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for idx, (images, _) in enumerate(data_loader):
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images = images.cuda(non_blocking=True)
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batch_size = images.shape[0]
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for i in range(50):
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model(images)
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torch.cuda.synchronize()
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logger.info(f"throughput averaged with 30 times")
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tic1 = time.time()
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for i in range(30):
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model(images)
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torch.cuda.synchronize()
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tic2 = time.time()
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logger.info(f"batch_size {batch_size} throughput {30 * batch_size / (tic2 - tic1)}")
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return
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if __name__ == '__main__':
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_, config = parse_option()
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if config.AMP_OPT_LEVEL != "O0":
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assert amp is not None, "amp not installed!"
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if 'RANK' in os.environ and 'WORLD_SIZE' in os.environ:
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rank = int(os.environ["RANK"])
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world_size = int(os.environ['WORLD_SIZE'])
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print(f"RANK and WORLD_SIZE in environ: {rank}/{world_size}")
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else:
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rank = -1
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world_size = -1
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torch.cuda.set_device(config.LOCAL_RANK)
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torch.distributed.init_process_group(backend='nccl', init_method='env://', world_size=world_size, rank=rank)
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torch.distributed.barrier()
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seed = config.SEED + dist.get_rank()
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torch.manual_seed(seed)
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np.random.seed(seed)
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cudnn.benchmark = True
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# linear scale the learning rate according to total batch size, may not be optimal
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linear_scaled_lr = config.TRAIN.BASE_LR * config.DATA.BATCH_SIZE * dist.get_world_size() / 512.0
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linear_scaled_warmup_lr = config.TRAIN.WARMUP_LR * config.DATA.BATCH_SIZE * dist.get_world_size() / 512.0
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linear_scaled_min_lr = config.TRAIN.MIN_LR * config.DATA.BATCH_SIZE * dist.get_world_size() / 512.0
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# gradient accumulation also need to scale the learning rate
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if config.TRAIN.ACCUMULATION_STEPS > 1:
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linear_scaled_lr = linear_scaled_lr * config.TRAIN.ACCUMULATION_STEPS
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linear_scaled_warmup_lr = linear_scaled_warmup_lr * config.TRAIN.ACCUMULATION_STEPS
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linear_scaled_min_lr = linear_scaled_min_lr * config.TRAIN.ACCUMULATION_STEPS
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config.defrost()
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config.TRAIN.BASE_LR = linear_scaled_lr
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config.TRAIN.WARMUP_LR = linear_scaled_warmup_lr
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config.TRAIN.MIN_LR = linear_scaled_min_lr
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config.freeze()
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os.makedirs(config.OUTPUT, exist_ok=True)
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logger = create_logger(output_dir=config.OUTPUT, dist_rank=dist.get_rank(), name=f"{config.MODEL.NAME}")
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if dist.get_rank() == 0:
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path = os.path.join(config.OUTPUT, "config.json")
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with open(path, "w") as f:
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f.write(config.dump())
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logger.info(f"Full config saved to {path}")
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# print config
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logger.info(config.dump())
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main(config)
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