Python vectorize Exemples

Exemple #1

def test_example_training():
    U = tq.gates.Rx('a', 0) + tq.gates.Rx('b', 1) + tq.gates.CNOT(
        1, 3) + tq.gates.CNOT(0, 2) + tq.gates.CNOT(0, 1)
    H1 = tq.paulis.Qm(1)
    H2 = tq.paulis.Qm(2)
    H3 = tq.paulis.Qm(3)

    stackable = [
        tq.ExpectationValue(U, H1),
        tq.ExpectationValue(U, H2),
        tq.ExpectationValue(U, H3)
    ]
    stacked = tq.vectorize(stackable)

    initial_values = {'a': 1.5, 'b': 2.}
    cargs = {
        'samples': None,
        'backend': 'random',
        'initial_values': initial_values
    }
    torched = tq.ml.to_platform(stacked, platform='torch', compile_args=cargs)
    optimizer = optim.SGD(torched.parameters(), lr=.1, momentum=0.9)

    for i in range(80):
        optimizer.zero_grad()
        out = torched()
        loss = out.sum()
        loss.backward()
        optimizer.step()

    called = torched().sum().detach().numpy()
    assert np.isclose(called, 0.0, atol=1e-3)

Exemple #2

def test_just_input_variables(initial_input_values):
    U = tq.gates.Rx('a', 0) + tq.gates.Rx('b', 1) + tq.gates.CNOT(
        1, 3) + tq.gates.CNOT(0, 2) + tq.gates.CNOT(0, 1)
    H1 = tq.paulis.Qm(1)
    H2 = tq.paulis.Qm(2)
    H3 = tq.paulis.Qm(3)

    stackable = [
        tq.ExpectationValue(U, H1),
        tq.ExpectationValue(U, H2),
        tq.ExpectationValue(U, H3)
    ]
    stacked = tq.vectorize(stackable)

    cargs = {'samples': None, 'backend': None, 'initial_values': None}
    input_vars = ['a', 'b']
    tensorflowed = tq.ml.to_platform(stacked,
                                     platform='tensorflow',
                                     compile_args=cargs,
                                     input_vars=input_vars)
    tensorflowed.set_input_values(initial_input_values)
    learning_rate = .1
    momentum = 0.9
    optimizer = optimizers.SGD(lr=learning_rate, momentum=momentum)

    # We train all trainable variables (which are just input_variables)
    var_list_fn = lambda: tensorflowed.trainable_variables

    loss = lambda: tf.reduce_sum(tensorflowed())

    for i in range(STEPS):
        optimizer.minimize(loss, var_list_fn)

    called = tf.math.reduce_sum(tensorflowed()).numpy().tolist()
    assert np.isclose(called, 0.0, atol=1e-3)

Exemple #3

def test_calls_correctly(angles):
    U1 = tq.gates.Rx(angle='a', target=0)
    H1 = tq.paulis.Y(0)
    U2 = tq.gates.Ry(angle='b', target=0)
    H2 = tq.paulis.X(0)
    U3 = tq.gates.H(0) + tq.gates.Rz(angle='c', target=0) + tq.gates.H(0)
    H3 = tq.paulis.Y(0)

    evals = [
        tq.ExpectationValue(U1, H1),
        tq.ExpectationValue(U2, H2),
        tq.ExpectationValue(U3, H3)
    ]
    stacked = tq.vectorize(evals)
    torched = tq.ml.to_platform(stacked,
                                platform='torch',
                                input_vars=['a', 'b', 'c'])
    inputs = torch.from_numpy(angles)
    output = torched(inputs)
    summed = output.sum().detach().numpy()
    analytic = -np.sin(angles[0]) + np.sin(angles[1]) - np.sin(angles[2])
    assert np.isclose(summed, analytic, atol=1.e-3)

Exemple #4

def test_calls_correctly(initial_input_values):
    U1 = tq.gates.Rx(angle='a', target=0)
    H1 = tq.paulis.Y(0)
    U2 = tq.gates.Ry(angle='b', target=0)
    H2 = tq.paulis.X(0)
    U3 = tq.gates.H(0) + tq.gates.Rz(angle='c', target=0) + tq.gates.H(0)
    H3 = tq.paulis.Y(0)

    evals = [
        tq.ExpectationValue(U1, H1),
        tq.ExpectationValue(U2, H2),
        tq.ExpectationValue(U3, H3)
    ]
    stacked = tq.vectorize(evals)
    tensorflowed = tq.ml.to_platform(stacked,
                                     platform='tensorflow',
                                     input_vars=['a', 'b', 'c'])
    tensorflowed.set_input_values(initial_input_values)
    output = tensorflowed()
    summed = tf.math.reduce_sum(output)
    detached = tf.stop_gradient(summed).numpy()
    analytic = -np.sin(initial_input_values["a"]) + np.sin(
        initial_input_values["b"]) - np.sin(initial_input_values["c"])
    assert np.isclose(detached, analytic, atol=1.e-3)

Exemple #5

def test_different_fixed_variables_cases(initial_params_values,
                                         initial_input_values, fixed):
    U = tq.gates.Rx('c', 0) + tq.gates.Rx('d', 1) + tq.gates.Rx('a', 0) + tq.gates.Rx('b', 1) + tq.gates.CNOT(1, 3) \
        + tq.gates.CNOT(0, 2) + tq.gates.CNOT(0, 1)
    H1 = tq.paulis.Qm(1)
    H2 = tq.paulis.Qm(2)
    H3 = tq.paulis.Qm(3)

    stackable = [
        tq.ExpectationValue(U, H1),
        tq.ExpectationValue(U, H2),
        tq.ExpectationValue(U, H3)
    ]
    stacked = tq.vectorize(stackable)

    cargs = {
        'samples': None,
        'backend': None,
        'initial_values': initial_params_values
    }
    input_vars = ['c', 'd']
    tensorflowed = tq.ml.to_platform(stacked,
                                     platform='tensorflow',
                                     compile_args=cargs,
                                     input_vars=input_vars)
    tensorflowed.set_input_values(initial_input_values)
    learning_rate = .1
    momentum = 0.9
    optimizer = optimizers.SGD(lr=learning_rate, momentum=momentum)

    if fixed == "inputs":
        var_list_fn = lambda: tensorflowed.get_params_variable(
        )  # Since we just want to train the parameters
    elif fixed == "params":
        var_list_fn = lambda: tensorflowed.get_inputs_variable(
        )  # Since we just want to train the inputs
    else:
        var_list_fn = lambda: tensorflowed.trainable_variables  # We train all trainable variables

    loss = lambda: tf.reduce_sum(tensorflowed())

    for i in range(STEPS):
        optimizer.minimize(loss, var_list_fn)

    called = tf.math.reduce_sum(tensorflowed()).numpy().tolist()
    assert np.isclose(called, 0.0, atol=1e-3)

    # Check that what should have stayed fixed does stay fixed
    # NOTE: by chance, these assertions may fail because they happen to not need to change. Just run again to make sure
    if fixed == "inputs":
        final_input_values = tensorflowed.get_input_values()
        for input_var_name in input_vars:
            assert np.isclose(initial_input_values[input_var_name],
                              final_input_values[input_var_name],
                              atol=1e-3)
    elif fixed == "params":
        final_params_values = tensorflowed.get_params_values()
        for param_var_name in tensorflowed.weight_vars:
            assert np.isclose(initial_params_values[param_var_name],
                              final_params_values[param_var_name],
                              atol=1e-3)