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imagenet.py
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imagenet.py
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'''
Training script for ImageNet
Copyright (c) Wei YANG, 2017
'''
from __future__ import print_function
import argparse
import os
import random
import shutil
import time
import warnings
import torch
import torch.nn as nn
import torch.nn.parallel
import torch.backends.cudnn as cudnn
import torch.distributed as dist
import torch.optim
import torch.utils.data
import torch.utils.data.distributed
import torchvision.transforms as transforms
import torchvision.datasets as datasets
import torchvision.models as models
import models.imagenet as customized_models
from utils import Bar, Logger, AverageMeter, accuracy, mkdir_p, savefig
from utils.dataloaders import *
from tensorboardX import SummaryWriter
default_model_names = sorted(name for name in models.__dict__
if name.islower() and not name.startswith("__")
and callable(models.__dict__[name]))
customized_models_names = sorted(name for name in customized_models.__dict__
if name.islower() and not name.startswith("__")
and callable(customized_models.__dict__[name]))
for name in customized_models.__dict__:
if name.islower() and not name.startswith("__") and callable(customized_models.__dict__[name]):
models.__dict__[name] = customized_models.__dict__[name]
model_names = default_model_names + customized_models_names
parser = argparse.ArgumentParser(description='PyTorch ImageNet Training')
parser.add_argument('-d', '--data', metavar='DIR',
help='path to dataset')
parser.add_argument('--data-backend', metavar='BACKEND', default='pytorch',
choices=DATA_BACKEND_CHOICES)
parser.add_argument('-a', '--arch', metavar='ARCH', default='resnet18',
choices=model_names,
help='model architecture: ' +
' | '.join(model_names) +
' (default: resnet18)')
parser.add_argument('-j', '--workers', default=4, type=int, metavar='N',
help='number of data loading workers (default: 4)')
parser.add_argument('--epochs', default=90, type=int, metavar='N',
help='number of total epochs to run')
parser.add_argument('--start-epoch', default=0, type=int, metavar='N',
help='manual epoch number (useful on restarts)')
parser.add_argument('-b', '--batch-size', default=256, type=int,
metavar='N',
help='mini-batch size (default: 256), this is the total '
'batch size of all GPUs on the current node when '
'using Data Parallel or Distributed Data Parallel')
parser.add_argument('--lr', '--learning-rate', default=0.1, type=float,
metavar='LR', help='initial learning rate', dest='lr')
parser.add_argument('--momentum', default=0.9, type=float, metavar='M',
help='momentum')
parser.add_argument('--wd', '--weight-decay', default=1e-4, type=float,
metavar='W', help='weight decay (default: 1e-4)',
dest='weight_decay')
parser.add_argument('-p', '--print-freq', default=10, type=int,
metavar='N', help='print frequency (default: 10)')
parser.add_argument('--resume', default='', type=str, metavar='PATH',
help='path to latest checkpoint (default: none)')
parser.add_argument('-e', '--evaluate', dest='evaluate', action='store_true',
help='evaluate model on validation set')
parser.add_argument('--pretrained', dest='pretrained', action='store_true',
help='use pre-trained model')
parser.add_argument('--world-size', default=-1, type=int,
help='number of nodes for distributed training')
parser.add_argument('--rank', default=-1, type=int,
help='node rank for distributed training')
parser.add_argument('--dist-url', default='tcp://224.66.41.62:23456', type=str,
help='url used to set up distributed training')
parser.add_argument('--dist-backend', default='nccl', type=str,
help='distributed backend')
parser.add_argument('--seed', default=None, type=int,
help='seed for initializing training. ')
parser.add_argument('--lr-decay', type=str, default='step',
help='mode for learning rate decay')
parser.add_argument('--step', type=int, default=30,
help='interval for learning rate decay in step mode')
parser.add_argument('--schedule', type=int, nargs='+', default=[150, 225],
help='decrease learning rate at these epochs.')
parser.add_argument('--gamma', type=float, default=0.1,
help='LR is multiplied by gamma on schedule.')
parser.add_argument('--warmup', action='store_true',
help='set lower initial learning rate to warm up the training')
parser.add_argument('-c', '--checkpoint', default='checkpoints', type=str, metavar='PATH',
help='path to save checkpoint (default: checkpoints)')
parser.add_argument('--width-mult', type=float, default=1.0, help='MobileNet model width multiplier.')
parser.add_argument('--input-size', type=int, default=224, help='MobileNet model input resolution')
parser.add_argument('--weight', default='', type=str, metavar='WEIGHT',
help='path to pretrained weight (default: none)')
best_prec1 = 0
def main():
global args, best_prec1
args = parser.parse_args()
if args.seed is not None:
random.seed(args.seed)
torch.manual_seed(args.seed)
cudnn.deterministic = True
warnings.warn('You have chosen to seed training. '
'This will turn on the CUDNN deterministic setting, '
'which can slow down your training considerably! '
'You may see unexpected behavior when restarting '
'from checkpoints.')
args.distributed = args.world_size > 1
if args.distributed:
dist.init_process_group(backend=args.dist_backend, init_method=args.dist_url,
world_size=args.world_size)
# create model
print("=> creating model '{}'".format(args.arch))
model = models.__dict__[args.arch](width_mult=args.width_mult)
if not args.distributed:
if args.arch.startswith('alexnet') or args.arch.startswith('vgg'):
model.features = torch.nn.DataParallel(model.features)
model.cuda()
else:
model = torch.nn.DataParallel(model).cuda()
else:
model.cuda()
model = torch.nn.parallel.DistributedDataParallel(model)
# define loss function (criterion) and optimizer
criterion = nn.CrossEntropyLoss().cuda()
optimizer = torch.optim.SGD(model.parameters(), args.lr,
momentum=args.momentum,
weight_decay=args.weight_decay)
# optionally resume from a checkpoint
title = 'ImageNet-' + args.arch
if not os.path.isdir(args.checkpoint):
mkdir_p(args.checkpoint)
if args.resume:
if os.path.isfile(args.resume):
print("=> loading checkpoint '{}'".format(args.resume))
checkpoint = torch.load(args.resume)
args.start_epoch = checkpoint['epoch']
best_prec1 = checkpoint['best_prec1']
model.load_state_dict(checkpoint['state_dict'])
optimizer.load_state_dict(checkpoint['optimizer'])
print("=> loaded checkpoint '{}' (epoch {})"
.format(args.resume, checkpoint['epoch']))
args.checkpoint = os.path.dirname(args.resume)
logger = Logger(os.path.join(args.checkpoint, 'log.txt'), title=title, resume=True)
else:
print("=> no checkpoint found at '{}'".format(args.resume))
else:
logger = Logger(os.path.join(args.checkpoint, 'log.txt'), title=title)
logger.set_names(['Learning Rate', 'Train Loss', 'Valid Loss', 'Train Acc.', 'Valid Acc.'])
cudnn.benchmark = True
# Data loading code
if args.data_backend == 'pytorch':
get_train_loader = get_pytorch_train_loader
get_val_loader = get_pytorch_val_loader
elif args.data_backend == 'dali-gpu':
get_train_loader = get_dali_train_loader(dali_cpu=False)
get_val_loader = get_dali_val_loader()
elif args.data_backend == 'dali-cpu':
get_train_loader = get_dali_train_loader(dali_cpu=True)
get_val_loader = get_dali_val_loader()
train_loader, train_loader_len = get_train_loader(args.data, args.batch_size, workers=args.workers, input_size=args.input_size)
val_loader, val_loader_len = get_val_loader(args.data, args.batch_size, workers=args.workers, input_size=args.input_size)
if args.evaluate:
from collections import OrderedDict
if os.path.isfile(args.weight):
print("=> loading pretrained weight '{}'".format(args.weight))
source_state = torch.load(args.weight)
target_state = OrderedDict()
for k, v in source_state.items():
if k[:7] != 'module.':
k = 'module.' + k
target_state[k] = v
model.load_state_dict(target_state)
else:
print("=> no weight found at '{}'".format(args.weight))
validate(val_loader, val_loader_len, model, criterion)
return
# visualization
writer = SummaryWriter(os.path.join(args.checkpoint, 'logs'))
for epoch in range(args.start_epoch, args.epochs):
if args.distributed:
train_sampler.set_epoch(epoch)
print('\nEpoch: [%d | %d]' % (epoch + 1, args.epochs))
# train for one epoch
train_loss, train_acc = train(train_loader, train_loader_len, model, criterion, optimizer, epoch)
# evaluate on validation set
val_loss, prec1 = validate(val_loader, val_loader_len, model, criterion)
lr = optimizer.param_groups[0]['lr']
# append logger file
logger.append([lr, train_loss, val_loss, train_acc, prec1])
# tensorboardX
writer.add_scalar('learning rate', lr, epoch + 1)
writer.add_scalars('loss', {'train loss': train_loss, 'validation loss': val_loss}, epoch + 1)
writer.add_scalars('accuracy', {'train accuracy': train_acc, 'validation accuracy': prec1}, epoch + 1)
is_best = prec1 > best_prec1
best_prec1 = max(prec1, best_prec1)
save_checkpoint({
'epoch': epoch + 1,
'arch': args.arch,
'state_dict': model.state_dict(),
'best_prec1': best_prec1,
'optimizer' : optimizer.state_dict(),
}, is_best, checkpoint=args.checkpoint)
logger.close()
logger.plot()
savefig(os.path.join(args.checkpoint, 'log.eps'))
writer.close()
print('Best accuracy:')
print(best_prec1)
def train(train_loader, train_loader_len, model, criterion, optimizer, epoch):
bar = Bar('Processing', max=train_loader_len)
batch_time = AverageMeter()
data_time = AverageMeter()
losses = AverageMeter()
top1 = AverageMeter()
top5 = AverageMeter()
# switch to train mode
model.train()
end = time.time()
for i, (input, target) in enumerate(train_loader):
adjust_learning_rate(optimizer, epoch, i, train_loader_len)
# measure data loading time
data_time.update(time.time() - end)
target = target.cuda(non_blocking=True)
# compute output
output = model(input)
loss = criterion(output, target)
# measure accuracy and record loss
prec1, prec5 = accuracy(output, target, topk=(1, 5))
losses.update(loss.item(), input.size(0))
top1.update(prec1.item(), input.size(0))
top5.update(prec5.item(), input.size(0))
# compute gradient and do SGD step
optimizer.zero_grad()
loss.backward()
optimizer.step()
# measure elapsed time
batch_time.update(time.time() - end)
end = time.time()
# plot progress
bar.suffix = '({batch}/{size}) Data: {data:.3f}s | Batch: {bt:.3f}s | Total: {total:} | ETA: {eta:} | Loss: {loss:.4f} | top1: {top1: .4f} | top5: {top5: .4f}'.format(
batch=i + 1,
size=train_loader_len,
data=data_time.avg,
bt=batch_time.avg,
total=bar.elapsed_td,
eta=bar.eta_td,
loss=losses.avg,
top1=top1.avg,
top5=top5.avg,
)
bar.next()
bar.finish()
return (losses.avg, top1.avg)
def validate(val_loader, val_loader_len, model, criterion):
bar = Bar('Processing', max=val_loader_len)
batch_time = AverageMeter()
data_time = AverageMeter()
losses = AverageMeter()
top1 = AverageMeter()
top5 = AverageMeter()
# switch to evaluate mode
model.eval()
end = time.time()
for i, (input, target) in enumerate(val_loader):
# measure data loading time
data_time.update(time.time() - end)
target = target.cuda(non_blocking=True)
with torch.no_grad():
# compute output
output = model(input)
loss = criterion(output, target)
# measure accuracy and record loss
prec1, prec5 = accuracy(output, target, topk=(1, 5))
losses.update(loss.item(), input.size(0))
top1.update(prec1.item(), input.size(0))
top5.update(prec5.item(), input.size(0))
# measure elapsed time
batch_time.update(time.time() - end)
end = time.time()
# plot progress
bar.suffix = '({batch}/{size}) Data: {data:.3f}s | Batch: {bt:.3f}s | Total: {total:} | ETA: {eta:} | Loss: {loss:.4f} | top1: {top1: .4f} | top5: {top5: .4f}'.format(
batch=i + 1,
size=val_loader_len,
data=data_time.avg,
bt=batch_time.avg,
total=bar.elapsed_td,
eta=bar.eta_td,
loss=losses.avg,
top1=top1.avg,
top5=top5.avg,
)
bar.next()
bar.finish()
return (losses.avg, top1.avg)
def save_checkpoint(state, is_best, checkpoint='checkpoint', filename='checkpoint.pth.tar'):
filepath = os.path.join(checkpoint, filename)
torch.save(state, filepath)
if is_best:
shutil.copyfile(filepath, os.path.join(checkpoint, 'model_best.pth.tar'))
from math import cos, pi
def adjust_learning_rate(optimizer, epoch, iteration, num_iter):
lr = optimizer.param_groups[0]['lr']
warmup_epoch = 5 if args.warmup else 0
warmup_iter = warmup_epoch * num_iter
current_iter = iteration + epoch * num_iter
max_iter = args.epochs * num_iter
if args.lr_decay == 'step':
lr = args.lr * (args.gamma ** ((current_iter - warmup_iter) / (max_iter - warmup_iter)))
elif args.lr_decay == 'cos':
lr = args.lr * (1 + cos(pi * (current_iter - warmup_iter) / (max_iter - warmup_iter))) / 2
elif args.lr_decay == 'linear':
lr = args.lr * (1 - (current_iter - warmup_iter) / (max_iter - warmup_iter))
elif args.lr_decay == 'schedule':
count = sum([1 for s in args.schedule if s <= epoch])
lr = args.lr * pow(args.gamma, count)
else:
raise ValueError('Unknown lr mode {}'.format(args.lr_decay))
if epoch < warmup_epoch:
lr = args.lr * current_iter / warmup_iter
for param_group in optimizer.param_groups:
param_group['lr'] = lr
if __name__ == '__main__':
main()