Exemplo n.º 1
0
def test_identity():
    x = ad.Variable(name='x')
    y = ad.Variable(name='y')

    z = x / y + x / 2. + 4

    z_grad_x, z_grad_y = ad.gradients(z, [x, y])
    executor = ad.Executor([z, z_grad_x, z_grad_y])
    x_val = 2 * np.ones(1)
    y_val = 3 * np.ones(1)
    z_val, z_grad_x, z_grad_y = executor.run(feed_shapes={x: x_val, y: y_val})
    print(z_val, z_grad_x, z_grad_y)
Exemplo n.º 2
0
def test_softmax():
    x2_pred = ad.Variable(name='x2_pred')
    x2_actu = ad.Variable(name='x2_actu')

    y = th.nn.softmax_cross_entropy_with_logits(x2_pred, x2_actu)
    x2_pred_grad, x2_actu_grad = ad.gradients(y, [x2_pred, x2_actu])
    x2_pred_val = np.array([[0.8, 0.01, 0.5], [0.8, 0.01, 0.5]])
    x2_actu_val = np.array([[1.0, 1.0, 0], [1.0, 1.0, 0]])

    executor = ad.Executor([y, x2_pred_grad, x2_actu_grad])
    y_val, x2_pred_grad_val, x2_actu_grad_val = executor.run(
        feed_shapes={
            x2_pred: x2_pred_val,
            x2_actu: x2_actu_val
        })
Exemplo n.º 3
0
def test_broadcast_to():
    x2 = ad.Variable(name='x2')
    x3 = ad.Variable(name='x3')
    y = ad.broadcast_to(x2, x3)

    grad_x2, grad_x3 = ad.gradients(y, [x2, x3])
    executor = ad.Executor([y, grad_x2, grad_x3])
    x2_val = np.array([[1, 2, 3]])
    x3_val = np.zeros((3, 3))
    y_val, grad_x2_val, grad_x3_val = executor.run(feed_shapes={
        x2: x2_val,
        x3: x3_val
    })

    # asserts
    assert isinstance(y, ad.Node)
    assert np.array_equal(y_val, np.array([[1, 2, 3], [1, 2, 3], [1, 2, 3]]))
    assert np.array_equal(grad_x2_val, np.array([3, 3, 3]))
Exemplo n.º 4
0
def test_reducesum():
    x2 = ad.Variable(name='x2')
    y = ad.reduce_sum(x2)
    grad_x2, = ad.gradients(y, [x2])
    executor = ad.Executor([y, grad_x2])
    x2_val = np.array([[1, 2, 3], [4, 5, 6]])
    y_val, grad_x2_val = executor.run(feed_shapes={x2: x2_val})

    assert isinstance(y, ad.Node)
    assert np.array_equal(y_val, np.array([5, 7, 9]))
    assert np.array_equal(grad_x2_val, np.array([1, 1, 1]))
Exemplo n.º 5
0
def test_sigmoid():
    x = ad.Variable(name='x')
    y = th.nn.sigmoid(x)

    grad_x, = ad.gradients(y, [x])

    executor = ad.Executor([y, grad_x])

    x_val = np.array([-100, 0, 100])

    y_val, grad_x_val = executor.run(feed_shapes={x: x_val})

    print(y_val, grad_x_val)
Exemplo n.º 6
0
def test_relu():
    x = ad.Variable(name='x')
    y = th.nn.relu(x)

    grad_x2, = ad.gradients(y, [x])

    executor = ad.Executor([y, grad_x2])
    x_val = np.array([[-1, 2, 3], [1, -2, 0]])
    y_val, grad_x2_val = executor.run(feed_shapes={x: x_val})
    expected_y_val = np.array([[0, 2, 3], [1, 0, 0]])
    expected_x2_grad = np.array([[0, 1, 1], [1, 0, 0]])

    assert np.array_equal(y_val, expected_y_val)
    assert np.array_equal(grad_x2_val, expected_x2_grad)
Exemplo n.º 7
0
def test_matmul():
    x = ad.Variable(name='x')
    y = ad.Variable(name='y')

    z = ad.matmul(x, y)

    z_grad_x, z_grad_y = ad.gradients(z, [x, y])

    executor = ad.Executor([z, z_grad_x, z_grad_y])

    x_val = np.array([[1, 2], [3, 4], [5, 6]])  # 3x2
    y_val = np.array([[7, 8, 9], [10, 11, 12]])  # 2x3

    z_val, z_grad_x, z_grad_y = executor.run(feed_shapes={x: x_val, y: y_val})

    expected_yval = np.matmul(x_val, y_val)

    expected_grad_x_val = np.matmul(np.ones_like(expected_yval),
                                    np.transpose(y_val))
    expected_grad_y_val = np.matmul(x_val.T, np.ones_like(expected_yval))

    assert np.array_equal(expected_yval, z_val)
    assert np.array_equal(expected_grad_x_val, z_grad_x)
    assert np.array_equal(expected_grad_y_val, z_grad_y)
Exemplo n.º 8
0
    start_time = datetime.datetime.now()

    use_gpu = True
    # use_gpu = False
    data = th.datasets.MNIST(batch_size=128)

    batch_generator = data.train_batch_generator()

    input_size = data.num_features()
    hid_1_size = 256
    hid_2_size = 100
    output_size = 10

    lr = 1e-3

    X = ad.Variable(name="X")
    y = ad.Variable(name='y')

    loss, W1, b1, W2, b2, W3, b3, logit = build_graph(X, y, input_size, hid_1_size, hid_2_size, output_size)

    optimizer = th.optim.SGD(loss, params=[W1, b1, W2, b2, W3, b3], lr=lr, use_gpu=use_gpu)

    for i in range(10000):
        X_batch, y_batch = next(batch_generator)
        loss_now = optimizer.step(feed_dict={X: X_batch, y: y_batch})
        if i <= 10 or (i <= 100 and i % 10 == 0) or (i <= 1000 and i % 100 == 0) or (i <= 10000 and i % 500 == 0):
            fmt_str = 'iter: {0:>5d} cost: {1:>8.5f}'
            print(fmt_str.format(i, loss_now[0]))
    val_acc = measure_accuracy(logit, data.validation(), use_gpu=use_gpu)
    print('Validation accuracy: {:>.2f}'.format(val_acc))