def main(): args = get_arguments() os.environ["CUDA_VISIBLE_DEVICES"] = "0" ## FOR REPRODUCIBILITY OF RESULTS seed = 1777777 utils.reproducibility(args, seed) utils.make_dirs(args.save) utils.save_arguments(args, args.save) training_generator, val_generator, full_volume, affine = medical_loaders.generate_datasets( args, path='.././datasets') model, optimizer = medzoo.create_model(args) criterion = create_loss('CrossEntropyLoss') criterion = DiceLoss(classes=args.classes, weight=torch.tensor([0.1, 1, 1, 1]).cuda()) if args.cuda: model = model.cuda() print("Model transferred in GPU.....") trainer = Trainer(args, model, criterion, optimizer, train_data_loader=training_generator, valid_data_loader=val_generator, lr_scheduler=None) print("START TRAINING...") trainer.training()
def train(): # args = brats2019_arguments() utils.reproducibility(args, seed) utils.make_dirs(args.save) ( training_generator, val_generator, full_volume, affine, ) = medical_loaders.generate_datasets(args) model, optimizer = medzoo.create_model(args) val_criterion = DiceLoss(classes=11, skip_index_after=args.classes) # criterion = DiceLoss(classes=3, skip_index_after=args.classes) # criterion = DiceLoss(classes=args.classes) criterion = torch.nn.CrossEntropyLoss() if args.cuda: model = model.cuda() print("Model transferred in GPU.....") trainer = train_module.Trainer( args, model, criterion, optimizer, val_criterion=val_criterion, train_data_loader=training_generator, valid_data_loader=val_generator, lr_scheduler=None, ) print("START TRAINING...") trainer.training()
def main(): args = get_arguments() os.environ["CUDA_VISIBLE_DEVICES"] = "0" ## FOR REPRODUCIBILITY OF RESULTS seed = 1777777 utils.reproducibility(args, seed) utils.make_dirs(args.save) name_model = args.model + "_" + args.dataset_name + "_" + utils.datestr() # TODO visual3D_temp.Basewriter package writer = SummaryWriter(log_dir='./runs/' + name_model, comment=name_model) training_generator, val_generator, full_volume, affine = medical_loaders.generate_datasets( args, path='.././datasets') model, optimizer = medzoo.create_model(args) if args.cuda: model = model.cuda() print("Model transferred in GPU.....") print("START TRAINING...") for epoch in range(1, args.nEpochs + 1): train(args, model, training_generator, optimizer, epoch, writer) val_metrics, confusion_matrix = validation(args, model, val_generator, epoch, writer)
def main(): args = get_arguments() #os.environ["CUDA_VISIBLE_DEVICES"] = "0" ## FOR REPRODUCIBILITY OF RESULTS seed = 1777777 utils.reproducibility(args, seed) training_generator, val_generator, full_volume, affine = medical_loaders.generate_datasets( args, path='./datasets') model, optimizer = medzoo.create_model(args) # criterion = DiceLoss(classes=args.classes) # # ## TODO LOAD PRETRAINED MODEL print(affine.shape) model.restore_checkpoint(args.pretrained) if args.cuda: model = model.cuda() full_volume = full_volume.cuda() print("Model transferred in GPU.....") x = torch.randn(3, 156, 240, 240).cuda() print(full_volume.shape) output = non_overlap_padding(args, full_volume, model, criterion, kernel_dim=(32, 32, 32))
def main(): args = get_arguments() utils.reproducibility(args, seed) utils.make_dirs(args.save) training_generator, val_generator, full_volume, affine = medical_loaders.generate_datasets( args, path='.././datasets') model, optimizer = medzoo.create_model(args) criterion = DiceLoss(classes=args.classes) if args.cuda: model = model.cuda() print("Model transferred in GPU.....") trainer = train.Trainer(args, model, criterion, optimizer, train_data_loader=training_generator, valid_data_loader=val_generator, lr_scheduler=None) print("START TRAINING...") trainer.training() visualize_3D_no_overlap_new(args, full_volume, affine, model, 10, args.dim)
def main(): args = get_arguments() summary_flag = True model_list = [ "RESNET3DVAE", 'UNET3D', 'DENSENET1', 'DENSENET2', 'DENSENET3', 'HYPERDENSENET', "SKIPDENSENET3D", "DENSEVOXELNET", 'VNET', 'VNET2' ] if summary_flag: for key in model_list: args.model = key model, _ = medzoo.create_model(args) print('created...', key)
def main(): args = get_arguments() utils.reproducibility(args, seed) utils.make_dirs(args.save) training_generator, val_generator, full_volume, affine = medical_loaders.generate_datasets(args, path='.././datasets') model, optimizer = medzoo.create_model(args) criterion = DiceLoss(classes=args.classes) if args.cuda: model = model.cuda() trainer = train.Trainer(args, model, criterion, optimizer, train_data_loader=training_generator, valid_data_loader=val_generator) trainer.training()
def main(): args = get_arguments() utils.reproducibility(args, seed) utils.make_dirs(args.save) training_generator, val_generator, full_volume, affine = medical_loaders.generate_datasets( args, path='.././datasets') model, optimizer = medzoo.create_model(args) criterion = DiceLoss( classes=args.classes ) # ,skip_index_after=2,weight=torch.tensor([0.00001,1,1,1]).cuda()) if args.cuda: model = model.cuda() print("Model transferred in GPU.....") trainer = train.Trainer(args, model, criterion, optimizer, train_data_loader=training_generator, valid_data_loader=val_generator) print("START TRAINING...") trainer.training()