def test_vgp_raises_for_invalid_init() -> None:
x_np = np.arange(5, dtype=np.float64).reshape(-1, 1)
x = tf.convert_to_tensor(x_np, x_np.dtype)
y = fnc_3x_plus_10(x)
with pytest.raises(ValueError):
VariationalGaussianProcess(vgp_model(x, y), natgrad_gamma=1)
with pytest.raises(ValueError):
optimizer = Optimizer(gpflow.optimizers.Scipy())
VariationalGaussianProcess(vgp_model(x, y), optimizer=optimizer, use_natgrads=True)
def test_vgp_update() -> None:
x = tf.constant(np.arange(5).reshape(-1, 1), dtype=gpflow.default_float())
data = Dataset(x, fnc_3x_plus_10(x))
m = VariationalGaussianProcess(vgp_model(data.query_points, data.observations))
reference_model = vgp_model(data.query_points, data.observations)
npt.assert_allclose(m.model.q_mu, reference_model.q_mu, atol=1e-5)
npt.assert_allclose(m.model.q_sqrt, reference_model.q_sqrt, atol=1e-5)
x_new = tf.concat([x, tf.constant([[10.0], [11.0]], dtype=gpflow.default_float())], 0)
new_data = Dataset(x_new, fnc_3x_plus_10(x_new))
m.update(new_data)
reference_model_new = vgp_model(new_data.query_points, new_data.observations)
npt.assert_allclose(m.model.q_mu, reference_model_new.q_mu, atol=1e-5)
npt.assert_allclose(m.model.q_sqrt, reference_model_new.q_sqrt, atol=1e-5)
def test_variational_gaussian_process_predict() -> None:
x_observed = tf.constant(np.arange(100).reshape((-1, 1)),
dtype=gpflow.default_float())
y_observed = _3x_plus_gaussian_noise(x_observed)
model = VariationalGaussianProcess(vgp_model(x_observed, y_observed))
internal_model = model.model
gpflow.optimizers.Scipy().minimize(
internal_model.training_loss_closure(),
internal_model.trainable_variables,
)
x_predict = tf.constant([[50.5]], gpflow.default_float())
mean, variance = model.predict(x_predict)
mean_y, variance_y = model.predict_y(x_predict)
reference_model = vgp_model(x_observed, y_observed)
reference_model.data = (
tf.Variable(
reference_model.data[0],
trainable=False,
shape=[None, *reference_model.data[0].shape[1:]],
),
tf.Variable(
reference_model.data[1],
trainable=False,
shape=[None, *reference_model.data[1].shape[1:]],
),
)
gpflow.optimizers.Scipy().minimize(
reference_model.training_loss_closure(),
reference_model.trainable_variables,
)
reference_mean, reference_variance = reference_model.predict_f(x_predict)
npt.assert_allclose(mean, reference_mean)
npt.assert_allclose(variance, reference_variance, atol=1e-3)
npt.assert_allclose(variance_y - model.get_observation_noise(),
variance,
atol=5e-5)
def test_vgp_update_updates_num_data() -> None:
x_np = np.arange(5, dtype=np.float64).reshape(-1, 1)
x = tf.convert_to_tensor(x_np, x_np.dtype)
y = fnc_3x_plus_10(x)
m = VariationalGaussianProcess(vgp_model(x, y))
num_data = m.model.num_data
x_new = tf.concat([x, [[10.0], [11.0]]], 0)
y_new = fnc_3x_plus_10(x_new)
m.update(Dataset(x_new, y_new))
new_num_data = m.model.num_data
assert new_num_data - num_data == 2
def test_vgp_optimize_with_and_without_natgrads(
batcher: DatasetTransformer, compile: bool, use_natgrads: bool
) -> None:
x_observed = np.linspace(0, 100, 100).reshape((-1, 1))
y_observed = _3x_plus_gaussian_noise(x_observed)
data = x_observed, y_observed
dataset = Dataset(*data)
optimizer = create_optimizer(
tf.optimizers.Adam(),
dict(max_iter=10, batch_size=10, dataset_builder=batcher, compile=compile),
)
model = VariationalGaussianProcess(
vgp_model(x_observed[:10], y_observed[:10]), optimizer=optimizer, use_natgrads=use_natgrads
)
loss = model.model.training_loss()
model.optimize(dataset)
assert model.model.training_loss() < loss
