def main():
parser = argparse.ArgumentParser(description=' FixMatch Training')
parser.add_argument('--wresnet-k',
default=2,
type=int,
help='width factor of wide resnet')
parser.add_argument('--wresnet-n',
default=28,
type=int,
help='depth of wide resnet')
parser.add_argument('--dataset',
type=str,
default='CIFAR10',
help='number of classes in dataset')
# parser.add_argument('--n-classes', type=int, default=100,
# help='number of classes in dataset')
parser.add_argument('--n-labeled',
type=int,
default=40,
help='number of labeled samples for training')
parser.add_argument('--n-epoches',
type=int,
default=1024,
help='number of training epoches')
parser.add_argument('--batchsize',
type=int,
default=40,
help='train batch size of labeled samples')
parser.add_argument('--mu',
type=int,
default=7,
help='factor of train batch size of unlabeled samples')
parser.add_argument('--thr',
type=float,
default=0.95,
help='pseudo label threshold')
parser.add_argument('--n-imgs-per-epoch',
type=int,
default=64 * 1024,
help='number of training images for each epoch')
parser.add_argument('--lam-u',
type=float,
default=1.,
help='coefficient of unlabeled loss')
parser.add_argument('--ema-alpha',
type=float,
default=0.999,
help='decay rate for ema module')
parser.add_argument('--lr',
type=float,
default=0.03,
help='learning rate for training')
parser.add_argument('--weight-decay',
type=float,
default=5e-4,
help='weight decay')
parser.add_argument('--momentum',
type=float,
default=0.9,
help='momentum for optimizer')
parser.add_argument('--seed',
type=int,
default=-1,
help='seed for random behaviors, no seed if negtive')
parser.add_argument('--temperature',
type=float,
default=0.5,
help='temperature for loss function')
args = parser.parse_args()
# args.device = torch.device("cuda:2" if torch.cuda.is_available() else "cpu")
logger, writer = setup_default_logging(args)
logger.info(dict(args._get_kwargs()))
# global settings
# torch.multiprocessing.set_sharing_strategy('file_system')
if args.seed > 0:
torch.manual_seed(args.seed)
random.seed(args.seed)
np.random.seed(args.seed)
# torch.backends.cudnn.deterministic = True
n_iters_per_epoch = args.n_imgs_per_epoch // args.batchsize # 1024
n_iters_all = n_iters_per_epoch * args.n_epoches # 1024 * 1024
logger.info("***** Running training *****")
logger.info(f" Task = {args.dataset}@{args.n_labeled}")
logger.info(f" Num Epochs = {n_iters_per_epoch}")
logger.info(f" Batch size per GPU = {args.batchsize}")
# logger.info(f" Total train batch size = {args.batch_size * args.world_size}")
logger.info(f" Total optimization steps = {n_iters_all}")
model, criteria_x, criteria_u, criteria_z = set_model(args)
logger.info("Total params: {:.2f}M".format(
sum(p.numel() for p in model.parameters()) / 1e6))
dltrain_x, dltrain_u = get_train_loader(args.dataset,
args.batchsize,
args.mu,
n_iters_per_epoch,
L=args.n_labeled)
dlval = get_val_loader(dataset=args.dataset, batch_size=64, num_workers=2)
lb_guessor = LabelGuessor(thresh=args.thr)
ema = EMA(model, args.ema_alpha)
wd_params, non_wd_params = [], []
for name, param in model.named_parameters():
# if len(param.size()) == 1:
if 'bn' in name:
non_wd_params.append(
param) # bn.weight, bn.bias and classifier.bias
# print(name)
else:
wd_params.append(param)
param_list = [{
'params': wd_params
}, {
'params': non_wd_params,
'weight_decay': 0
}]
optim = torch.optim.SGD(param_list,
lr=args.lr,
weight_decay=args.weight_decay,
momentum=args.momentum,
nesterov=True)
lr_schdlr = WarmupCosineLrScheduler(optim,
max_iter=n_iters_all,
warmup_iter=0)
train_args = dict(model=model,
criteria_x=criteria_x,
criteria_u=criteria_u,
criteria_z=criteria_z,
optim=optim,
lr_schdlr=lr_schdlr,
ema=ema,
dltrain_x=dltrain_x,
dltrain_u=dltrain_u,
lb_guessor=lb_guessor,
lambda_u=args.lam_u,
n_iters=n_iters_per_epoch,
logger=logger)
best_acc = -1
best_epoch = 0
logger.info('-----------start training--------------')
for epoch in range(args.n_epoches):
train_loss, loss_x, loss_u, loss_u_real, loss_simclr, mask_mean = train_one_epoch(
epoch, **train_args)
# torch.cuda.empty_cache()
top1, top5, valid_loss = evaluate(ema, dlval, criteria_x)
writer.add_scalars('train/1.loss', {
'train': train_loss,
'test': valid_loss
}, epoch)
writer.add_scalar('train/2.train_loss_x', loss_x, epoch)
writer.add_scalar('train/3.train_loss_u', loss_u, epoch)
writer.add_scalar('train/4.train_loss_u_real', loss_u_real, epoch)
writer.add_scalar('train/4.train_loss_simclr', loss_simclr, epoch)
writer.add_scalar('train/5.mask_mean', mask_mean, epoch)
writer.add_scalars('test/1.test_acc', {
'top1': top1,
'top5': top5
}, epoch)
# writer.add_scalar('test/2.test_loss', loss, epoch)
# best_acc = top1 if best_acc < top1 else best_acc
if best_acc < top1:
best_acc = top1
best_epoch = epoch
logger.info(
"Epoch {}. Top1: {:.4f}. Top5: {:.4f}. best_acc: {:.4f} in epoch{}"
.format(epoch, top1, top5, best_acc, best_epoch))
writer.close()
def main():
parser = argparse.ArgumentParser(description=' FixMatch Training')
parser.add_argument('--wresnet-k',
default=2,
type=int,
help='width factor of wide resnet')
parser.add_argument('--wresnet-n',
default=28,
type=int,
help='depth of wide resnet')
parser.add_argument('--dataset',
type=str,
default='CIFAR10',
help='number of classes in dataset')
# parser.add_argument('--n-classes', type=int, default=100,
# help='number of classes in dataset')
parser.add_argument('--n-labeled',
type=int,
default=40,
help='number of labeled samples for training')
parser.add_argument('--n-epoches',
type=int,
default=1024,
help='number of training epoches')
parser.add_argument('--batchsize',
type=int,
default=40,
help='train batch size of labeled samples')
parser.add_argument('--mu',
type=int,
default=7,
help='factor of train batch size of unlabeled samples')
parser.add_argument('--thr',
type=float,
default=0.95,
help='pseudo label threshold')
parser.add_argument('--n-imgs-per-epoch',
type=int,
default=64 * 1024,
help='number of training images for each epoch')
parser.add_argument('--lam-u',
type=float,
default=1.,
help='coefficient of unlabeled loss')
parser.add_argument('--lam-s',
type=float,
default=0.2,
help='coefficient of unlabeled loss SimCLR')
parser.add_argument('--ema-alpha',
type=float,
default=0.999,
help='decay rate for ema module')
parser.add_argument('--lr',
type=float,
default=0.03,
help='learning rate for training')
parser.add_argument('--weight-decay',
type=float,
default=5e-4,
help='weight decay')
parser.add_argument('--momentum',
type=float,
default=0.9,
help='momentum for optimizer')
parser.add_argument('--seed',
type=int,
default=-1,
help='seed for random behaviors, no seed if negtive')
parser.add_argument('--temperature',
type=float,
default=0.5,
help='temperature for loss function')
args = parser.parse_args()
# args.device = torch.device("cuda:2" if torch.cuda.is_available() else "cpu")
logger, writer = setup_default_logging(args)
logger.info(dict(args._get_kwargs()))
# global settings
# torch.multiprocessing.set_sharing_strategy('file_system')
if args.seed > 0:
torch.manual_seed(args.seed)
random.seed(args.seed)
np.random.seed(args.seed)
# torch.backends.cudnn.deterministic = True
n_iters_per_epoch = args.n_imgs_per_epoch // args.batchsize # 1024
n_iters_all = n_iters_per_epoch * args.n_epoches # 1024 * 1024
logger.info("***** Running training *****")
logger.info(f" Task = {args.dataset}@{args.n_labeled}")
logger.info(f" Num Epochs = {n_iters_per_epoch}")
logger.info(f" Batch size per GPU = {args.batchsize}")
# logger.info(f" Total train batch size = {args.batch_size * args.world_size}")
logger.info(f" Total optimization steps = {n_iters_all}")
model, criteria_x, criteria_u, criteria_z = set_model(args)
logger.info("Total params: {:.2f}M".format(
sum(p.numel() for p in model.parameters()) / 1e6))
dltrain_x, dltrain_u, dltrain_f = get_train_loader_mix(args.dataset,
args.batchsize,
args.mu,
n_iters_per_epoch,
L=args.n_labeled)
dlval = get_val_loader(dataset=args.dataset, batch_size=64, num_workers=2)
lb_guessor = LabelGuessor(thresh=args.thr)
ema = EMA(model, args.ema_alpha)
wd_params, non_wd_params = [], []
for name, param in model.named_parameters():
# if len(param.size()) == 1:
if 'bn' in name:
non_wd_params.append(
param) # bn.weight, bn.bias and classifier.bias
# print(name)
else:
wd_params.append(param)
param_list = [{
'params': wd_params
}, {
'params': non_wd_params,
'weight_decay': 0
}]
optim_fix = torch.optim.SGD(param_list,
lr=args.lr,
weight_decay=args.weight_decay,
momentum=args.momentum,
nesterov=True)
lr_schdlr_fix = WarmupCosineLrScheduler(optim_fix,
max_iter=n_iters_all,
warmup_iter=0)
train_args = dict(model=model,
criteria_x=criteria_x,
criteria_u=criteria_u,
criteria_z=criteria_z,
optim=optim_fix,
lr_schdlr=lr_schdlr_fix,
ema=ema,
dltrain_x=dltrain_x,
dltrain_u=dltrain_u,
dltrain_f=dltrain_f,
lb_guessor=lb_guessor,
lambda_u=args.lam_u,
lambda_s=args.lam_s,
n_iters=n_iters_per_epoch,
logger=logger,
bt=args.batchsize,
mu=args.mu)
# # TRAINING PARAMETERS FOR SIMCLR
# param_list = [
# {'params': wd_params}, {'params': non_wd_params, 'weight_decay': 0}]
#
# optim_simclr = torch.optim.SGD(param_list, lr=0.5, weight_decay=args.weight_decay,
# momentum=args.momentum, nesterov=False)
#
# lr_schdlr_simclr = WarmupCosineLrScheduler(
# optim_simclr, max_iter=n_iters_all, warmup_iter=0
# )
#
# train_args_simclr = dict(
# model=model,
# criteria_z=criteria_z,
# optim=optim_simclr,
# lr_schdlr=lr_schdlr_simclr,
# ema=ema,
# dltrain_f=dltrain_f,
# lambda_s=args.lam_s,
# n_iters=n_iters_per_epoch,
# logger=logger,
# bt=args.batchsize,
# mu=args.mu
# )
# # TRAINING PARAMETERS FOR IIC
# param_list = [
# {'params': wd_params}, {'params': non_wd_params, 'weight_decay': 0}]
#
# optim_iic = torch.optim.Adam(param_list, lr=1e-4, weight_decay=args.weight_decay)
#
# lr_schdlr_iic = WarmupCosineLrScheduler(
# optim_iic, max_iter=n_iters_all, warmup_iter=0
# )
#
# train_args_iic = dict(
# model=model,
# optim=optim_iic,
# lr_schdlr=lr_schdlr_iic,
# ema=ema,
# dltrain_f=dltrain_f,
# n_iters=n_iters_per_epoch,
# logger=logger,
# bt=args.batchsize,
# mu=args.mu
# )
#
best_acc = -1
best_epoch = 0
logger.info('-----------start training--------------')
for epoch in range(args.n_epoches):
# guardar accuracy de modelo preentrenado hasta espacio h (SALIDA DE BACKBONE)
top1, top5, valid_loss = evaluate_linear_Clf(ema, dltrain_x, dlval,
criteria_x)
writer.add_scalars('test/1.test_linear_acc', {
'top1': top1,
'top5': top5
}, epoch)
logger.info("Epoch {}. on h space Top1: {:.4f}. Top5: {:.4f}.".format(
epoch, top1, top5))
if epoch < -500:
# # FASE DE ENTRENAMIENTO NO SUPERVISADO
# entrenar feature representation simclr
# train_loss, loss_simclr, model_ = train_one_epoch_simclr(epoch, **train_args_simclr)
# writer.add_scalar('train/4.train_loss_simclr', loss_simclr, epoch)
# entrenar iic
# train_loss, loss_iic, model_ = train_one_epoch_iic(epoch, **train_args_iic)
# writer.add_scalar('train/4.train_loss_iic', loss_iic, epoch)
# evaluate_Clf(model_, dltrain_f, dlval, criteria_x)
top1, top5, valid_loss = evaluate_linear_Clf(
ema, dltrain_x, dlval, criteria_x)
# # GUARDAR MODELO ENTRENADO DE FORMA NO SUPERVISADA
# if epoch == 497:
# # save model
# name = 'simclr_trained_good_h2.pt'
# torch.save(model_.state_dict(), name)
# logger.info('model saved')
else:
# ENTRENAMIENTO SEMI-SUPERVISADO
train_loss, loss_x, loss_u, loss_u_real, mask_mean, loss_simclr = train_one_epoch(
epoch, **train_args)
top1, top5, valid_loss = evaluate(ema, dlval, criteria_x)
writer.add_scalar('train/4.train_loss_simclr', loss_simclr, epoch)
writer.add_scalar('train/2.train_loss_x', loss_x, epoch)
writer.add_scalar('train/3.train_loss_u', loss_u, epoch)
writer.add_scalar('train/4.train_loss_u_real', loss_u_real, epoch)
writer.add_scalar('train/5.mask_mean', mask_mean, epoch)
writer.add_scalars('train/1.loss', {
'train': train_loss,
'test': valid_loss
}, epoch)
writer.add_scalars('test/1.test_acc', {
'top1': top1,
'top5': top5
}, epoch)
# writer.add_scalar('test/2.test_loss', loss, epoch)
# best_acc = top1 if best_acc < top1 else best_acc
if best_acc < top1:
best_acc = top1
best_epoch = epoch
logger.info(
"Epoch {}. Top1: {:.4f}. Top5: {:.4f}. best_acc: {:.4f} in epoch{}"
.format(epoch, top1, top5, best_acc, best_epoch))
writer.close()
def train():
n_iters_per_epoch = args.n_imgs_per_epoch // args.batchsize
n_iters_all = n_iters_per_epoch * args.n_epochs #/ args.mu_c
epsilon = 0.000001
model, criteria_x, criteria_u = set_model()
lb_guessor = LabelGuessor(thresh=args.thr)
ema = EMA(model, args.ema_alpha)
wd_params, non_wd_params = [], []
for param in model.parameters():
if len(param.size()) == 1:
non_wd_params.append(param)
else:
wd_params.append(param)
param_list = [{'params': wd_params}, {'params': non_wd_params, 'weight_decay': 0}]
optim = torch.optim.SGD(param_list, lr=args.lr, weight_decay=args.weight_decay, momentum=args.momentum, nesterov=True)
lr_schdlr = WarmupCosineLrScheduler(optim, max_iter=n_iters_all, warmup_iter=0)
dltrain_x, dltrain_u, dltrain_all = get_train_loader(args.batchsize, args.mu, args.mu_c, n_iters_per_epoch,
L=args.n_labeled, seed=args.seed)
train_args = dict(
model=model,
criteria_x=criteria_x,
criteria_u=criteria_u,
optim=optim,
lr_schdlr=lr_schdlr,
ema=ema,
dltrain_x=dltrain_x,
dltrain_u=dltrain_u,
dltrain_all=dltrain_all,
lb_guessor=lb_guessor,
)
n_labeled = int(args.n_labeled / args.n_classes)
best_acc, top1 = -1, -1
results = {'top 1 acc': [], 'best_acc': []}
b_schedule = [args.n_epochs/2, 3*args.n_epochs/4]
if args.boot_schedule == 1:
step = int(args.n_epochs/3)
b_schedule = [step, 2*step]
elif args.boot_schedule == 2:
step = int(args.n_epochs/4)
b_schedule = [step, 2*step, 3*step]
for e in range(args.n_epochs):
if args.bootstrap > 1 and (e in b_schedule):
seed = 99
n_labeled *= args.bootstrap
name = sort_unlabeled(ema, n_labeled)
print("Bootstrap at epoch ", e," Name = ",name)
dltrain_x, dltrain_u, dltrain_all = get_train_loader(args.batchsize, args.mu, args.mu_c, n_iters_per_epoch,
L=10*n_labeled, seed=seed, name=name)
train_args = dict(
model=model,
criteria_x=criteria_x,
criteria_u=criteria_u,
optim=optim,
lr_schdlr=lr_schdlr,
ema=ema,
dltrain_x=dltrain_x,
dltrain_u=dltrain_u,
dltrain_all=dltrain_all,
lb_guessor=lb_guessor,
)
model.train()
train_one_epoch(**train_args)
torch.cuda.empty_cache()
if args.test == 0 or args.lam_clr < epsilon:
top1 = evaluate(ema) * 100
elif args.test == 1:
memory_data = utils.CIFAR10Pair(root='dataset', train=True, transform=utils.test_transform, download=False)
memory_data_loader = DataLoader(memory_data, batch_size=args.batchsize, shuffle=False, num_workers=16, pin_memory=True)
test_data = utils.CIFAR10Pair(root='dataset', train=False, transform=utils.test_transform, download=False)
test_data_loader = DataLoader(test_data, batch_size=args.batchsize, shuffle=False, num_workers=16, pin_memory=True)
c = len(memory_data.classes) #10
top1 = test(model, memory_data_loader, test_data_loader, c, e)
best_acc = top1 if best_acc < top1 else best_acc
results['top 1 acc'].append('{:.4f}'.format(top1))
results['best_acc'].append('{:.4f}'.format(best_acc))
data_frame = pd.DataFrame(data=results)
data_frame.to_csv(result_dir + '/' + save_name_pre + '.accuracy.csv', index_label='epoch')
log_msg = [
'epoch: {}'.format(e + 1),
'top 1 acc: {:.4f}'.format(top1),
'best_acc: {:.4f}'.format(best_acc)]
print(', '.join(log_msg))
def train():
n_iters_per_epoch = args.n_imgs_per_epoch // args.batchsize
n_iters_all = n_iters_per_epoch * args.n_epochs
model, criteria_x, criteria_u = set_model()
dltrain_x, dltrain_u = get_train_loader(args.batchsize,
args.mu,
n_iters_per_epoch,
L=args.n_labeled,
seed=args.seed)
lb_guessor = LabelGuessor(thresh=args.thr)
ema = EMA(model, args.ema_alpha)
wd_params, non_wd_params = [], []
for param in model.parameters():
if len(param.size()) == 1:
non_wd_params.append(param)
else:
wd_params.append(param)
param_list = [{
'params': wd_params
}, {
'params': non_wd_params,
'weight_decay': 0
}]
optim = torch.optim.SGD(param_list,
lr=args.lr,
weight_decay=args.weight_decay,
momentum=args.momentum,
nesterov=True)
lr_schdlr = WarmupCosineLrScheduler(optim,
max_iter=n_iters_all,
warmup_iter=0)
train_args = dict(
model=model,
criteria_x=criteria_x,
criteria_u=criteria_u,
optim=optim,
lr_schdlr=lr_schdlr,
ema=ema,
dltrain_x=dltrain_x,
dltrain_u=dltrain_u,
lb_guessor=lb_guessor,
lambda_u=args.lam_u,
lambda_c=args.lam_c,
n_iters=n_iters_per_epoch,
)
best_acc = -1
print('start to train')
for e in range(args.n_epochs):
model.train()
print('epoch: {}'.format(e + 1))
train_one_epoch(**train_args)
torch.cuda.empty_cache()
acc = evaluate(ema)
best_acc = acc if best_acc < acc else best_acc
log_msg = [
'epoch: {}'.format(e), 'acc: {:.4f}'.format(acc),
'best_acc: {:.4f}'.format(best_acc)
]
print(', '.join(log_msg))
sort_unlabeled(ema)