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eval_semisup.py
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eval_semisup.py
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# Copyright (c) Facebook, Inc. and its affiliates.
# All rights reserved.
#
# This source code is licensed under the license found in the
# LICENSE file in the root directory of this source tree.
#
import argparse
import os
import time
from logging import getLogger
import urllib
import torch
import torch.nn as nn
import torch.nn.parallel
import torch.backends.cudnn as cudnn
import torch.optim
import torch.utils.data as data
import torchvision.transforms as transforms
import torchvision.datasets as datasets
from src.utils import (
bool_flag,
initialize_exp,
restart_from_checkpoint,
fix_random_seeds,
AverageMeter,
init_distributed_mode,
accuracy,
)
import src.resnet50 as resnet_models
logger = getLogger()
parser = argparse.ArgumentParser(description="Evaluate models: Fine-tuning with 1% or 10% labels on ImageNet")
#########################
#### main parameters ####
#########################
parser.add_argument("--labels_perc", type=str, default="10", choices=["1", "10"],
help="fine-tune on either 1% or 10% of labels")
parser.add_argument("--dump_path", type=str, default=".",
help="experiment dump path for checkpoints and log")
parser.add_argument("--seed", type=int, default=31, help="seed")
parser.add_argument("--data_path", type=str, default="/path/to/imagenet",
help="path to imagenet")
parser.add_argument("--workers", default=10, type=int,
help="number of data loading workers")
#########################
#### model parameters ###
#########################
parser.add_argument("--arch", default="resnet50", type=str, help="convnet architecture")
parser.add_argument("--pretrained", default="", type=str, help="path to pretrained weights")
#########################
#### optim parameters ###
#########################
parser.add_argument("--epochs", default=20, type=int,
help="number of total epochs to run")
parser.add_argument("--batch_size", default=32, type=int,
help="batch size per gpu, i.e. how many unique instances per gpu")
parser.add_argument("--lr", default=0.01, type=float, help="initial learning rate - trunk")
parser.add_argument("--lr_last_layer", default=0.2, type=float, help="initial learning rate - head")
parser.add_argument("--decay_epochs", type=int, nargs="+", default=[12, 16],
help="Epochs at which to decay learning rate.")
parser.add_argument("--gamma", type=float, default=0.2, help="lr decay factor")
#########################
#### dist parameters ###
#########################
parser.add_argument("--dist_url", default="env://", type=str,
help="url used to set up distributed training")
parser.add_argument("--world_size", default=-1, type=int, help="""
number of processes: it is set automatically and
should not be passed as argument""")
parser.add_argument("--rank", default=0, type=int, help="""rank of this process:
it is set automatically and should not be passed as argument""")
parser.add_argument("--local_rank", default=0, type=int,
help="this argument is not used and should be ignored")
def main():
global args, best_acc
args = parser.parse_args()
init_distributed_mode(args)
fix_random_seeds(args.seed)
logger, training_stats = initialize_exp(
args, "epoch", "loss", "prec1", "prec5", "loss_val", "prec1_val", "prec5_val"
)
# build data
train_data_path = os.path.join(args.data_path, "train")
train_dataset = datasets.ImageFolder(train_data_path)
# take either 1% or 10% of images
subset_file = urllib.request.urlopen("https://raw.githubusercontent.com/google-research/simclr/master/imagenet_subsets/" + str(args.labels_perc) + "percent.txt")
list_imgs = [li.decode("utf-8").split('\n')[0] for li in subset_file]
train_dataset.samples = [(
os.path.join(train_data_path, li.split('_')[0], li),
train_dataset.class_to_idx[li.split('_')[0]]
) for li in list_imgs]
val_dataset = datasets.ImageFolder(os.path.join(args.data_path, "val"))
tr_normalize = transforms.Normalize(
mean=[0.485, 0.456, 0.406], std=[0.228, 0.224, 0.225]
)
train_dataset.transform = transforms.Compose([
transforms.RandomResizedCrop(224),
transforms.RandomHorizontalFlip(),
transforms.ToTensor(),
tr_normalize,
])
val_dataset.transform = transforms.Compose([
transforms.Resize(256),
transforms.CenterCrop(224),
transforms.ToTensor(),
tr_normalize,
])
sampler = torch.utils.data.distributed.DistributedSampler(train_dataset)
train_loader = torch.utils.data.DataLoader(
train_dataset,
sampler=sampler,
batch_size=args.batch_size,
num_workers=args.workers,
pin_memory=True,
)
val_loader = torch.utils.data.DataLoader(
val_dataset,
batch_size=args.batch_size,
num_workers=args.workers,
pin_memory=True,
)
logger.info("Building data done with {} images loaded.".format(len(train_dataset)))
# build model
model = resnet_models.__dict__[args.arch](output_dim=1000)
# convert batch norm layers
model = nn.SyncBatchNorm.convert_sync_batchnorm(model)
# load weights
if os.path.isfile(args.pretrained):
state_dict = torch.load(args.pretrained, map_location="cuda:" + str(args.gpu_to_work_on))
if "state_dict" in state_dict:
state_dict = state_dict["state_dict"]
# remove prefixe "module."
state_dict = {k.replace("module.", ""): v for k, v in state_dict.items()}
for k, v in model.state_dict().items():
if k not in list(state_dict):
logger.info('key "{}" could not be found in provided state dict'.format(k))
elif state_dict[k].shape != v.shape:
logger.info('key "{}" is of different shape in model and provided state dict'.format(k))
state_dict[k] = v
msg = model.load_state_dict(state_dict, strict=False)
logger.info("Load pretrained model with msg: {}".format(msg))
else:
logger.info("No pretrained weights found => training from random weights")
# model to gpu
model = model.cuda()
model = nn.parallel.DistributedDataParallel(
model,
device_ids=[args.gpu_to_work_on],
find_unused_parameters=True,
)
# set optimizer
trunk_parameters = []
head_parameters = []
for name, param in model.named_parameters():
if 'head' in name:
head_parameters.append(param)
else:
trunk_parameters.append(param)
optimizer = torch.optim.SGD(
[{'params': trunk_parameters},
{'params': head_parameters, 'lr': args.lr_last_layer}],
lr=args.lr,
momentum=0.9,
weight_decay=0,
)
# set scheduler
scheduler = torch.optim.lr_scheduler.MultiStepLR(
optimizer, args.decay_epochs, gamma=args.gamma
)
# Optionally resume from a checkpoint
to_restore = {"epoch": 0, "best_acc": (0., 0.)}
restart_from_checkpoint(
os.path.join(args.dump_path, "checkpoint.pth.tar"),
run_variables=to_restore,
state_dict=model,
optimizer=optimizer,
scheduler=scheduler,
)
start_epoch = to_restore["epoch"]
best_acc = to_restore["best_acc"]
cudnn.benchmark = True
for epoch in range(start_epoch, args.epochs):
# train the network for one epoch
logger.info("============ Starting epoch %i ... ============" % epoch)
# set samplers
train_loader.sampler.set_epoch(epoch)
scores = train(model, optimizer, train_loader, epoch)
scores_val = validate_network(val_loader, model)
training_stats.update(scores + scores_val)
scheduler.step()
# save checkpoint
if args.rank == 0:
save_dict = {
"epoch": epoch + 1,
"state_dict": model.state_dict(),
"optimizer": optimizer.state_dict(),
"scheduler": scheduler.state_dict(),
"best_acc": best_acc,
}
torch.save(save_dict, os.path.join(args.dump_path, "checkpoint.pth.tar"))
logger.info("Fine-tuning with {}% of labels completed.\n"
"Test accuracies: top-1 {acc1:.1f}, top-5 {acc5:.1f}".format(
args.labels_perc, acc1=best_acc[0], acc5=best_acc[1]))
def train(model, optimizer, loader, epoch):
"""
Train the models on the dataset.
"""
# running statistics
batch_time = AverageMeter()
data_time = AverageMeter()
# training statistics
top1 = AverageMeter()
top5 = AverageMeter()
losses = AverageMeter()
end = time.perf_counter()
model.train()
criterion = nn.CrossEntropyLoss().cuda()
for iter_epoch, (inp, target) in enumerate(loader):
# measure data loading time
data_time.update(time.perf_counter() - end)
# move to gpu
inp = inp.cuda(non_blocking=True)
target = target.cuda(non_blocking=True)
# forward
output = model(inp)
# compute cross entropy loss
loss = criterion(output, target)
# compute the gradients
optimizer.zero_grad()
loss.backward()
# step
optimizer.step()
# update stats
acc1, acc5 = accuracy(output, target, topk=(1, 5))
losses.update(loss.item(), inp.size(0))
top1.update(acc1[0], inp.size(0))
top5.update(acc5[0], inp.size(0))
batch_time.update(time.perf_counter() - end)
end = time.perf_counter()
# verbose
if args.rank == 0 and iter_epoch % 50 == 0:
logger.info(
"Epoch[{0}] - Iter: [{1}/{2}]\t"
"Time {batch_time.val:.3f} ({batch_time.avg:.3f})\t"
"Data {data_time.val:.3f} ({data_time.avg:.3f})\t"
"Loss {loss.val:.4f} ({loss.avg:.4f})\t"
"Prec {top1.val:.3f} ({top1.avg:.3f})\t"
"LR trunk {lr}\t"
"LR head {lr_W}".format(
epoch,
iter_epoch,
len(loader),
batch_time=batch_time,
data_time=data_time,
loss=losses,
top1=top1,
lr=optimizer.param_groups[0]["lr"],
lr_W=optimizer.param_groups[1]["lr"],
)
)
return epoch, losses.avg, top1.avg.item(), top5.avg.item()
def validate_network(val_loader, model):
batch_time = AverageMeter()
losses = AverageMeter()
top1 = AverageMeter()
top5 = AverageMeter()
global best_acc
# switch to evaluate mode
model.eval()
criterion = nn.CrossEntropyLoss().cuda()
with torch.no_grad():
end = time.perf_counter()
for i, (inp, target) in enumerate(val_loader):
# move to gpu
inp = inp.cuda(non_blocking=True)
target = target.cuda(non_blocking=True)
# compute output
output = model(inp)
loss = criterion(output, target)
acc1, acc5 = accuracy(output, target, topk=(1, 5))
losses.update(loss.item(), inp.size(0))
top1.update(acc1[0], inp.size(0))
top5.update(acc5[0], inp.size(0))
# measure elapsed time
batch_time.update(time.perf_counter() - end)
end = time.perf_counter()
if top1.avg.item() > best_acc[0]:
best_acc = (top1.avg.item(), top5.avg.item())
if args.rank == 0:
logger.info(
"Test:\t"
"Time {batch_time.avg:.3f}\t"
"Loss {loss.avg:.4f}\t"
"Acc@1 {top1.avg:.3f}\t"
"Best Acc@1 so far {acc:.1f}".format(
batch_time=batch_time, loss=losses, top1=top1, acc=best_acc[0]))
return losses.avg, top1.avg.item(), top5.avg.item()
if __name__ == "__main__":
main()