Exemplo n.º 1
0
def train(unet, lr, epochs, batch, CUDA, shuffle, retrain):
    if not retrain:
        print("Loading model...")
        unet.load_state_dict(torch.load("unet.pkl"))
        print("OK!")
    print("=============\nStart training\nlr: {}\nepoch: {}".format(lr, epochs))
    print(
        "batch: {}\nshuffle: {}\nCUDA: {}\n=============".format(batch, shuffle, CUDA)
    )

    optimizer = optim.SGD(unet.parameters(), lr=lr, momentum=0.7)
    criterion = nn.BCELoss()  # change loss function

    tic = time.time()
    Tic = tic
    for epoch in range(epochs):
        epoch_loss = 0
        tloader = train_loader(batch, shuffle)

        for i, D in enumerate(tloader):
            optimizer.zero_grad()
            img, msk = D
            if CUDA:
                img = img.cuda()
                msk = msk.cuda()
            pred_msk = unet(img).view(-1)

            # contiguous的作用是将浅拷贝变成深拷贝,以此使用view
            loss = criterion(pred_msk, msk.contiguous().view(-1))
            epoch_loss += loss.item()
            loss.backward()
            optimizer.step()

        toc = time.time()
        print(
            "epoch {} finished --- loss: {:.6f} --- Cost: {:.2f} min".format(
                epoch, epoch_loss / i, (toc - tic) / 60
            )
        )
        tic = toc

    torch.save(unet.state_dict(), "unet.pkl")
    print("Finished. Cost: {:.2f} min".format((tic - Tic) / 60))
Exemplo n.º 2
0
if __name__ == "__main__":

    parser.add_argument("-v", "--visual", action="store_true")
    parser.add_argument("-l", "--lr", type=float, default=1e-5)
    parser.add_argument("-e", "--epochs", type=int, default=10)
    parser.add_argument("-b", "--batch", type=int, default=40)
    parser.add_argument("-r", "--retrain", type=bool, default=False)

    args = parser.parse_args()

    if args.visual:
        from visual import show_pred_mask
        from loader import train_loader

        trl = train_loader(1, shuffle=True)
        img, msk = next(trl)
        unet.load_state_dict(torch.load("unet.pkl"))
        show_pred_mask(unet, img, msk)

    else:
        if use_CUDA:
            unet.cuda()
        try:
            train(
                unet,
                lr=args.lr,
                epochs=args.epochs,
                batch=args.batch,
                CUDA=use_CUDA,
                shuffle=True,
Exemplo n.º 3
0
def train_thyroid(args):
    # construct model
    model = None
    if args.model_name == "InceptionV3":
        model = models.inception_v3(pretrained=args.pretrained)
        ## Change the last layer
        num_ftrs = model.fc.in_features
        model.fc = nn.Linear(num_ftrs, args.num_class)
    elif args.model_name == "VGG16BN":
        model = models.vgg16_bn(pretrained=args.pretrained)
        num_ftrs = model.classifier[6].in_features
        feature_model = list(model.classifier.children())
        feature_model.pop()
        feature_model.append(nn.Linear(num_ftrs, args.num_class))
        model.classifier = nn.Sequential(*feature_model)
    elif args.model_name == "ResNet50":
        model = models.resnet50(pretrained=args.pretrained)
        in_features = model.fc.in_features
        model.fc = torch.nn.Linear(in_features, args.num_class)
    else:
        raise Exception("Unknown model: {}".format(args.model_name))

    # cuda setting
    torch.cuda.manual_seed(args.seed)
    model.cuda()
    cudnn.benchmark = True

    # optimizer & loss
    # optimizer = optim.SGD(model.parameters(), lr=args.lr,
    #                       weight_decay=5.0e-4, momentum=0.9, nesterov=True)
    optimizer = optim.RMSprop(model.parameters(),
                              lr=args.lr,
                              alpha=0.99,
                              weight_decay=1.0e-6,
                              momentum=0.9)
    criterion = nn.CrossEntropyLoss()
    # dataloader
    train_thyroid_loader = train_loader(args.batch_size)
    val_thyroid_loader = val_loader(args.batch_size)

    # folder for model saving
    if args.pretrained == True:
        model_save_dir = os.path.join(args.model_dir, "ft-" + args.model_name,
                                      args.session)
    else:
        model_save_dir = os.path.join(args.model_dir, "new-" + args.model_name,
                                      args.session)
    if os.path.exists(model_save_dir):
        shutil.rmtree(model_save_dir)
    os.makedirs(model_save_dir)

    # viz = Visdom()
    # vis_title = "Thyroid classification"
    # vis_legend = ['Train Acc', 'Val Acc']
    # acc_plot = create_vis_plot(viz, 'Epoch', 'Acc', vis_title, vis_legend)
    best_acc = 0.0
    for epoch in range(1, args.epochs + 1):
        adjust_learning_rate(optimizer, epoch, args)
        # train for one epoch
        train_acc = train(train_thyroid_loader, model, criterion, optimizer,
                          epoch, args)
        # evaluate on validation set
        val_acc = validate(val_thyroid_loader, model, criterion, args)
        is_best = val_acc > best_acc
        # update_vis_plot(viz, epoch, train_acc, val_acc, acc_plot, 'append')
        if is_best == True:
            best_acc = val_acc
            cur_model_name = str(epoch).zfill(2) + "-{:.3f}.pth".format(
                best_acc)
            torch.save(model.cpu(), os.path.join(model_save_dir,
                                                 cur_model_name))
            print('Save weights at {}/{}'.format(model_save_dir,
                                                 cur_model_name))
            model.cuda()
Exemplo n.º 4
0
            loss.backward()
            optimizer.step()
            if batch_idx > 0 and batch_idx % args.log_interval == 0:
                batch_progress = 100. * batch_idx / len(data_loader)
                print("Train Epoch: {} [{}/{} ({:.1f})%)]\t Loss: {:.6f}".format(
                    epoch, batch_idx * len(data), len(data_loader.dataset),
                    batch_progress, loss.data[0]
                ))
        cur_model_name = args.model_name + "-" + str(epoch).zfill(2) + ".pth"
        torch.save(model.state_dict(), os.path.join(args.model_dir, cur_model_name))
        print('Save weights at {}/{}'.format(args.model_dir, cur_model_name))


if __name__ == '__main__':
    args = set_args()
    # Config model and gpu
    torch.manual_seed(args.seed)
    model = Net()
    args.cuda = torch.cuda.is_available()
    if args.cuda:
        torch.cuda.manual_seed(args.seed)
        model.cuda(args.device_id)
        import torch.backends.cudnn as cudnn
        cudnn.benchmark = True

    # dataloader
    data_loader = train_loader(args)

    # Start training
    train(data_loader, model, args)