Python CSWAPの例

コード例 #1

ファイル: test_stdgates.py プロジェクト: yushu-liu/quantumflow

def test_cswap():
    ket = qf.zero_state(3)
    ket = qf.X(1).run(ket)
    ket = qf.CSWAP(0, 1, 2).run(ket)
    assert ket.vec.asarray()[0, 1, 0] == ALMOST_ONE

    ket = qf.X(0).run(ket)
    ket = qf.CSWAP(0, 1, 2).run(ket)
    assert ket.vec.asarray()[1, 0, 1] == ALMOST_ONE

コード例 #2

ファイル: test_visualization.py プロジェクト: diasluan/quantumflow

def test_gates_to_latex():
    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, 1)
    circ += qf.RZ((1/3)*pi, 1)
    circ += qf.RY(0.222, 1)

    circ += qf.TX(0.5, 0)
    circ += qf.TY(0.5, 1)
    circ += qf.TZ(0.4, 1)

    circ += qf.TZ(0.47276, 1)
    # Gate with cunning hack
    gate = qf.RZ(0.4, 1)
    gate.params['theta'] = qf.Parameter('\\theta')
    circ += gate

    circ += qf.CNOT(1, 2)
    circ += qf.CNOT(2, 1)
    circ += qf.CZ(1, 3)
    circ += qf.SWAP(1, 5)
    circ += qf.ISWAP(4, 2)

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

    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.Reset()    # FIXME. Should fail with clear error message

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

    circ += qf.Measure(0)

    latex = qf.circuit_to_latex(circ)

    print(latex)

コード例 #3

def swap_test(ket, q0: qf.Qubit, q1: qf.Qubit, q2: qf.Qubit) -> bk.BKTensor:
    """
    Apply a Swap Test to measure fidelity between qubits q1 and q2.

    Qubit q0 is an ancilla, which should be zero state initially. The qubits
    cannot be initially entangled.
    """
    circ = qf.Circuit()
    circ += qf.H(q0)
    circ += qf.CSWAP(q0, q1, q2)
    circ += qf.H(q0)
    circ += qf.P0(q0)    # Measure
    ket = circ.run(ket)

    fid = bk.fcast(2)*ket.norm() - bk.fcast(1.0)  # return fidelity
    return fid

コード例 #4

ファイル: test_stdgates.py プロジェクト: yushu-liu/quantumflow

def test_gatepow():
    gates = [
        qf.I(),
        qf.X(),
        qf.Y(),
        qf.Z(),
        qf.H(),
        qf.S(),
        qf.T(),
        qf.PHASE(0.1),
        qf.RX(0.2),
        qf.RY(0.3),
        qf.RZ(0.4),
        qf.CZ(),
        qf.CNOT(),
        qf.SWAP(),
        qf.ISWAP(),
        qf.CPHASE00(0.5),
        qf.CPHASE01(0.6),
        qf.CPHASE10(0.6),
        qf.CPHASE(0.7),
        qf.PSWAP(0.15),
        qf.CCNOT(),
        qf.CSWAP(),
        qf.TX(2.7),
        qf.TY(1.2),
        qf.TZ(0.3),
        qf.ZYZ(3.5, 0.9, 2.1),
        qf.CANONICAL(0.1, 0.2, 7.4),
        qf.XX(1.8),
        qf.YY(0.9),
        qf.ZZ(0.45),
        qf.PISWAP(0.2),
        qf.EXCH(0.1),
        qf.TH(0.3)
    ]

    for gate in gates:
        assert qf.gates_close(gate.H, gate**-1)

    for gate in gates:
        sqrt_gate = gate**(1 / 2)
        two_gate = sqrt_gate @ sqrt_gate
        assert qf.gates_close(gate, two_gate)

    for gate in gates:
        gate0 = gate**0.3
        gate1 = gate**0.7
        gate2 = gate0 @ gate1
        assert qf.gates_close(gate, gate2)

    for K in range(1, 5):
        gate = qf.random_gate(K)  # FIXME: Throw error on K=0
        sqrt_gate = gate**0.5
        two_gate = sqrt_gate @ sqrt_gate
        assert qf.gates_close(gate, two_gate)

    for gate in gates:
        rgate = qf.Gate((gate**0.5).tensor)
        tgate = rgate @ rgate
        assert qf.gates_close(gate, tgate)

コード例 #5

ファイル: test_stdgates.py プロジェクト: yushu-liu/quantumflow

def test_unitary_3qubit():
    assert qf.almost_unitary(qf.CCNOT())
    assert qf.almost_unitary(qf.CNOT())
    assert qf.almost_unitary(qf.CSWAP())