Python update_cnn_training_plot Exemples

Exemple #1

def _evaluate_epoch(axes, tr_loader, val_loader, model, criterion, epoch, stats):
    """
    Evaluates the `model` on the train and validation set.
    """
    with torch.no_grad():
        y_true, y_pred = [], []
        correct, total = 0, 0
        running_loss = []
        for X, y in tr_loader:
            output = model(X)
            predicted = predictions(output.data)
            y_true.append(y)
            y_pred.append(predicted)
            total += y.size(0)
            correct += (predicted == y).sum().item()
            running_loss.append(criterion(output, y).item())
        train_loss = np.mean(running_loss)
        train_acc = correct / total
    with torch.no_grad():
        y_true, y_pred = [], []
        correct, total = 0, 0
        running_loss = []
        for X, y in val_loader:
            output = model(X)
            predicted = predictions(output.data)
            y_true.append(y)
            y_pred.append(predicted)
            total += y.size(0)
            correct += (predicted == y).sum().item()
            running_loss.append(criterion(output, y).item())
        val_loss = np.mean(running_loss)
        val_acc = correct / total
    stats.append([val_acc, val_loss, train_acc, train_loss])
    utils.log_cnn_training(epoch, stats)
    utils.update_cnn_training_plot(axes, epoch, stats)

Exemple #2

Fichier : train_cnn.py Projet : linxiaow/CNN_Prototype

def _evaluate_epoch(axes, tr_loader, val_loader, model, criterion, epoch,
    stats):
    """
    Evaluates the `model` on the train and validation set.
    """
    acc_per_class = [0.0, 0.0, 0.0, 0.0, 0.0]
    num = [0, 0, 0, 0, 0]
    y_true, y_pred = [], []
    correct, total = 0, 0
    running_loss = []
    for X, y in tr_loader:
        with torch.no_grad():
            output = model(X)
            predicted = predictions(output.data)
            y_true.append(y)
            y_pred.append(predicted)
            total += y.size(0)
            correct += (predicted == y).sum().item()
            running_loss.append(criterion(output, y).item())
    train_loss = np.mean(running_loss)
    train_acc = correct / total
    y_true, y_pred = [], []
    correct, total = 0, 0
    running_loss = []
    for X, y in val_loader:
        with torch.no_grad():
            output = model(X)
            predicted = predictions(output.data)
            y_true.append(y)
            y_pred.append(predicted)
            total += y.size(0)
            correct += (predicted == y).sum().item()
            for ii in range(5):
                for jj in range(y.size(0)):
                    if predicted[jj] == y[jj] and y[jj] == ii:
                        acc_per_class[ii] += 1
                num[ii] += (y == ii).sum().item()
            running_loss.append(criterion(output, y).item())
    val_loss = np.mean(running_loss)
    for ii in range(5):
        acc_per_class[ii] = acc_per_class[ii] / num[ii]
    print(acc_per_class)
    val_acc = correct / total
    stats.append([val_acc, val_loss, train_acc, train_loss])
    utils.log_cnn_training(epoch, stats)
    utils.update_cnn_training_plot(axes, epoch, stats)