Exemplo n.º 1
0
    def test_Swap(self):
        q = QubitFactory('q1')
        mq = QubitFactory('q2')
        qr = QRegister(q)
        mqr = QRegister(mq)
        delays = np.linspace(0, 5e-6, 11)
        expectedseq = []
        for d in delays:
            expectedseq += [
                qwait(channels=(q, mq)),
                X(q),
                X(mq),
                Id(mq, length=d),
                Barrier(q, mq),
                MEAS(q),
                MEAS(mq)
            ]

        # Add calibration
        cal_seqs = get_cal_seqs_2qubits(q, mq, 2)
        expectedseq += cal_seqs

        expectedseq = testable_sequence(expectedseq)

        resFunction = compile_function(
            "src/python/qgl2/basic_sequences/Rabi.py", "Swap",
            (qr, delays, mqr))
        seqs = resFunction()
        seqs = testable_sequence(seqs)

        assertPulseSequenceEqual(self, seqs, expectedseq)
Exemplo n.º 2
0
    def test_RabiAmp_NQubits(self):
        q1 = QubitFactory('q1')
        q2 = QubitFactory('q2')
        qr = QRegister(q1, q2)
        amps = np.linspace(0, 5e-6, 11)
        p = 0
        docals = False
        calRepeats = 2
        expectedseq = []

        for a in amps:
            expectedseq += [
                qwait(channels=(q1, q2)),
                Utheta(q1, amp=a, phase=p),
                Utheta(q2, amp=a, phase=p),
                Barrier(q1, q2),
                MEAS(q1),
                MEAS(q2)
            ]

        if docals:
            # Add calibration
            cal_seqs = get_cal_seqs_2qubits(q1, q2, calRepeats)
            expectedseq += cal_seqs

        expectedseq = testable_sequence(expectedseq)

        resFunction = compile_function(
            "src/python/qgl2/basic_sequences/Rabi.py", "RabiAmp_NQubits",
            (qr, amps, p, None, docals, calRepeats))
        seqs = resFunction()
        seqs = testable_sequence(seqs)

        assertPulseSequenceEqual(self, seqs, expectedseq)
Exemplo n.º 3
0
    def test_PiRabi(self):
        controlQ = QubitFactory('q1')
        targetQ = QubitFactory('q2')
        controlQR = QRegister('q1')
        targetQR = QRegister('q2')
        qr = QRegister('q1', 'q2')
        edge = EdgeFactory(controlQ, targetQ)
        lengths = np.linspace(0, 4e-6, 11)
        riseFall = 40e-9
        amp = 1
        phase = 0
        calRepeats = 2

        expected_seq = []
        # Seq1
        for l in lengths:
            expected_seq += [
                qwait(channels=(controlQ, targetQ)),
                Id(controlQ),
                flat_top_gaussian(edge,
                                  riseFall,
                                  length=l,
                                  amp=amp,
                                  phase=phase),
                Barrier(controlQ, targetQ),
                MEAS(controlQ),
                MEAS(targetQ)
            ]
        # Seq2
        for l in lengths:
            expected_seq += [
                qwait(channels=(controlQ, targetQ)),
                X(controlQ),
                flat_top_gaussian(edge,
                                  riseFall,
                                  length=l,
                                  amp=amp,
                                  phase=phase),
                X(controlQ),
                Barrier(controlQ, targetQ),
                MEAS(controlQ),
                MEAS(targetQ)
            ]

        # Add calibration
        calseq = get_cal_seqs_2qubits(controlQ, targetQ, calRepeats)
        expected_seq += calseq
        expected_seq = testable_sequence(expected_seq)

        resFunction = compile_function(
            "src/python/qgl2/basic_sequences/CR.py", "PiRabi",
            (controlQR, targetQR, lengths, riseFall, amp, phase, calRepeats))
        seqs = resFunction()
        seqs = testable_sequence(seqs)

        self.maxDiff = None
        assertPulseSequenceEqual(self, seqs, expected_seq)
Exemplo n.º 4
0
    def test_EchoCRPhase(self):
        controlQ = QubitFactory('q1')
        targetQ = QubitFactory('q2')
        cR = QRegister('q1')
        tR = QRegister('q2')
        phases = np.linspace(0, pi / 2, 11)
        riseFall = 40e-9
        amp = 1
        length = 100e-9
        calRepeats = 2
        canc_amp = 0
        canc_phase = np.pi / 2
        expected_seq = []

        # Seq1
        for p in phases:
            expected_seq += [
                qwait(channels=(controlQ, targetQ)),
                Id(controlQ),
                echoCR(controlQ,
                       targetQ,
                       length=length,
                       phase=p,
                       amp=amp,
                       riseFall=riseFall,
                       canc_amp=canc_amp,
                       canc_phase=canc_phase),
                Barrier(controlQ, targetQ),
                X90(targetQ),
                Id(controlQ),
                Barrier(controlQ, targetQ),
                MEAS(controlQ),
                MEAS(targetQ)
            ]

        # Seq2
        for p in phases:
            expected_seq += [
                qwait(channels=(controlQ, targetQ)),
                X(controlQ),
                echoCR(controlQ,
                       targetQ,
                       length=length,
                       phase=p,
                       amp=amp,
                       riseFall=riseFall,
                       canc_amp=canc_amp,
                       canc_phase=canc_phase),
                Barrier(controlQ, targetQ),
                X90(targetQ),
                X(controlQ),
                Barrier(controlQ, targetQ),
                MEAS(controlQ),
                MEAS(targetQ)
            ]

        # Add calibration
        cal_seqs = get_cal_seqs_2qubits(controlQ, targetQ, calRepeats)
        expected_seq += cal_seqs
        expected_seq = testable_sequence(expected_seq)

        resFunction = compile_function("src/python/qgl2/basic_sequences/CR.py",
                                       "EchoCRPhase",
                                       (cR, tR, phases, riseFall, amp, length,
                                        calRepeats, canc_amp, canc_phase))

        seqs = resFunction()
        seqs = testable_sequence(seqs)

        self.maxDiff = None
        assertPulseSequenceEqual(self, seqs, expected_seq)
Exemplo n.º 5
0
    def test_EchoCRLen(self):
        controlQ = QubitFactory('q1')
        targetQ = QubitFactory('q2')
        cR = QRegister('q1')  # Equivalent to QRegister(controlQ)
        tR = QRegister('q2')
        # FIXME: Better values!?
        lengths = np.linspace(0, 2e-6, 11)
        riseFall = 40e-9
        amp = 1
        phase = 0
        calRepeats = 2
        canc_amp = 0
        canc_phase = np.pi / 2

        expected_seq = []
        # Seq1
        for l in lengths:
            expected_seq += [
                qwait(channels=(controlQ, targetQ)),
                Id(controlQ),
                echoCR(controlQ,
                       targetQ,
                       length=l,
                       phase=phase,
                       amp=amp,
                       riseFall=riseFall,
                       canc_amp=canc_amp,
                       canc_phase=canc_phase),
                Id(controlQ),
                Barrier(controlQ, targetQ),
                MEAS(controlQ),
                MEAS(targetQ)
            ]
        # Seq2
        for l in lengths:
            expected_seq += [
                qwait(channels=(controlQ, targetQ)),
                X(controlQ),
                echoCR(controlQ,
                       targetQ,
                       length=l,
                       phase=phase,
                       amp=amp,
                       riseFall=riseFall,
                       canc_amp=canc_amp,
                       canc_phase=canc_phase),
                X(controlQ),
                Barrier(controlQ, targetQ),
                MEAS(controlQ),
                MEAS(targetQ)
            ]

        # Add calibration
        cal_seqs = get_cal_seqs_2qubits(controlQ, targetQ, calRepeats)
        expected_seq += cal_seqs
        expected_seq = testable_sequence(expected_seq)

        resFunction = compile_function("src/python/qgl2/basic_sequences/CR.py",
                                       "EchoCRLen",
                                       (cR, tR, lengths, riseFall, amp, phase,
                                        calRepeats, canc_amp, canc_phase))
        seqs = resFunction()
        seqs = testable_sequence(seqs)

        self.maxDiff = None
        assertPulseSequenceEqual(self, seqs, expected_seq)