예제 #1
0
def test_circuit_to_qutip() -> None:
    q0, q1, q2 = 0, 1, 2

    circ0 = qf.Circuit()
    circ0 += qf.I(q0)
    circ0 += qf.Ph(0.1, q0)
    circ0 += qf.X(q0)
    circ0 += qf.Y(q1)

    circ0 += qf.Z(q0)
    circ0 += qf.S(q1)
    circ0 += qf.T(q2)

    circ0 += qf.H(q0)
    circ0 += qf.H(q1)
    circ0 += qf.H(q2)

    circ0 += qf.CNot(q0, q1)
    circ0 += qf.CNot(q1, q0)
    circ0 += qf.Swap(q0, q1)
    circ0 += qf.ISwap(q0, q1)

    circ0 += qf.CCNot(q0, q1, q2)
    circ0 += qf.CSwap(q0, q1, q2)

    circ0 == qf.I(q0)
    circ0 += qf.Rx(0.1, q0)
    circ0 += qf.Ry(0.2, q1)
    circ0 += qf.Rz(0.3, q2)
    circ0 += qf.V(q0)
    circ0 += qf.H(q1)
    circ0 += qf.CY(q0, q1)
    circ0 += qf.CZ(q0, q1)

    circ0 += qf.CS(q1, q2)
    circ0 += qf.CT(q0, q1)

    circ0 += qf.SqrtSwap(q0, q1)
    circ0 += qf.SqrtISwap(q0, q1)
    circ0 += qf.CCNot(q0, q1, q2)
    circ0 += qf.CSwap(q0, q1, q2)

    circ0 += qf.CPhase(0.1, q1, q2)

    # Not yet supported
    # circ0 += qf.B(q1, q2)
    # circ0 += qf.Swap(q1, q2) ** 0.1

    qbc = xqutip.circuit_to_qutip(circ0)
    U = gate_sequence_product(qbc.propagators())
    gate0 = qf.Unitary(U.full(), qubits=[0, 1, 2])
    assert qf.gates_close(gate0, circ0.asgate())

    circ1 = xqutip.qutip_to_circuit(qbc)

    assert qf.gates_close(circ0.asgate(), circ1.asgate())
예제 #2
0
def test_gradient_errors() -> None:
    circ = qf.Circuit()
    circ += qf.CPhase(0.2, 0, 1)  # Not (currently) differentiable
    qubits = circ.qubits
    ket0 = qf.zero_state(qubits)
    ket1 = qf.random_state(qubits)

    with pytest.raises(ValueError):
        qf.state_fidelity_gradients(ket0, ket1, circ)

    with pytest.raises(ValueError):
        qf.parameter_shift_circuits(circ, 0)

    with pytest.raises(ValueError):
        qf.expectation_gradients(ket0, circ, qf.IdentityGate([0, 1]))
def test_CPhase_gates() -> None:
    for _ in range(REPS):
        theta = random.uniform(-4 * np.pi, +4 * np.pi)

        gate11 = qf.ControlGate([0], qf.PhaseShift(theta, 1))
        assert qf.gates_close(gate11, qf.CPhase(theta, 0, 1))

        gate00 = qf.X(0) @ qf.IdentityGate([0, 1])
        gate00 = qf.X(1) @ gate00
        gate00 = gate11 @ gate00
        gate00 = qf.X(0) @ gate00
        gate00 = qf.X(1) @ gate00
        assert qf.gates_close(gate00, qf.CPhase00(theta))

        gate10 = qf.X(0) @ qf.IdentityGate([0, 1])
        gate10 = qf.X(1) @ gate10
        gate10 = qf.CPhase01(theta, 0, 1) @ gate10
        gate10 = qf.X(0) @ gate10
        gate10 = qf.X(1) @ gate10
        assert qf.gates_close(gate10, qf.CPhase10(theta))

        gate0 = qf.CPhase(theta) ** 2
        gate1 = qf.CPhase(theta * 2)
        assert qf.gates_close(gate0, gate1)
예제 #4
0
def test_cu1() -> None:
    # Test that QASM's cu1 gate is the same as CPHASE up to global phase

    for _ in range(REPS):
        theta = random.uniform(0, 4)
        circ0 = qf.Circuit([
            qf.Rz(theta / 2, 0),
            qf.CNot(0, 1),
            qf.Rz(-theta / 2, 1),
            qf.CNot(0, 1),
            qf.Rz(theta / 2, 1),
        ])
        gate0 = circ0.asgate()
        gate1 = qf.CPhase(theta, 0, 1)
        assert qf.gates_close(gate0, gate1)
def test_visualize_circuit() -> None:
    circ = qf.Circuit()

    circ += qf.I(7)
    circ += qf.X(0)
    circ += qf.Y(1)
    circ += qf.Z(2)
    circ += qf.H(3)
    circ += qf.S(4)
    circ += qf.T(5)
    circ += qf.S_H(6)
    circ += qf.T_H(7)

    circ += qf.Rx(-0.5 * pi, 0)
    circ += qf.Ry(0.5 * pi, 4)
    circ += qf.Rz((1 / 3) * pi, 5)
    circ += qf.Ry(0.222, 6)

    circ += qf.XPow(0.5, 0)
    circ += qf.YPow(0.5, 2)
    circ += qf.ZPow(0.4, 2)
    circ += qf.HPow(0.5, 3)
    circ += qf.ZPow(0.47276, 1)

    # Gate with symbolic parameter
    #  gate = qf.Rz(Symbol('\\theta'), 1)
    # circ += gate

    circ += qf.CNot(1, 2)
    circ += qf.CNot(2, 1)
    # circ += qf.IDEN(*range(8))
    circ += qf.ISwap(4, 2)
    circ += qf.ISwap(6, 5)
    circ += qf.CZ(1, 3)
    circ += qf.Swap(1, 5)

    # circ += qf.Barrier(0, 1, 2, 3, 4, 5, 6)  # Not yet supported in latex

    circ += qf.CCNot(1, 2, 3)
    circ += qf.CSwap(4, 5, 6)

    circ += qf.P0(0)
    circ += qf.P1(1)

    circ += qf.Reset(2)
    circ += qf.Reset(4, 5, 6)

    circ += qf.H(4)

    circ += qf.XX(0.25, 1, 4)
    circ += qf.XX(0.25, 1, 2)
    circ += qf.YY(0.75, 1, 3)
    circ += qf.ZZ(1 / 3, 3, 1)

    circ += qf.CPhase(0, 0, 1)
    circ += qf.CPhase(pi * 1 / 2, 0, 4)

    circ += qf.Can(1 / 3, 1 / 2, 1 / 2, 0, 1)
    circ += qf.Can(1 / 3, 1 / 2, 1 / 2, 2, 4)
    circ += qf.Can(1 / 3, 1 / 2, 1 / 2, 6, 5)

    # circ += qf.Measure(0)
    # circ += qf.Measure(1, 1)

    circ += qf.PSwap(pi / 2, 6, 7)

    circ += qf.Ph(1 / 4, 7)

    circ += qf.CH(1, 6)

    circ += qf.visualization.NoWire([0, 1, 2])
    # circ += qf.visualization.NoWire(4, 1, 2)

    if os.environ.get("QF_VIZTEST"):
        print()
        print(qf.circuit_to_diagram(circ))

    qf.circuit_to_diagram(circ)

    qf.circuit_to_latex(circ)
    qf.circuit_to_latex(circ, package="qcircuit")
    qf.circuit_to_latex(circ, package="quantikz")

    qf.circuit_to_diagram(circ)
    qf.circuit_to_diagram(circ, use_unicode=False)

    latex = qf.circuit_to_latex(circ, package="qcircuit")
    print(latex)
    if os.environ.get("QF_VIZTEST"):
        qf.latex_to_image(latex).show()

    latex = qf.circuit_to_latex(circ, package="quantikz")
    print(latex)

    if os.environ.get("QF_VIZTEST"):
        qf.latex_to_image(latex).show()
def test_CPhase_pow() -> None:
    gate0 = qf.CZ(0, 1) ** 0.4
    gate1 = qf.CPhase(0.4 * np.pi, 0, 1)
    assert qf.gates_close(gate0, gate1)