def sample_schedule(self):
        """Generate a sample schedule that includes the most common elements of
           pulse schedules."""
        gp0 = pulse_lib.gaussian(duration=20, amp=1.0, sigma=1.0)
        gp1 = pulse_lib.gaussian(duration=20, amp=-1.0, sigma=2.0)
        gs0 = pulse_lib.gaussian_square(duration=20,
                                        amp=-1.0,
                                        sigma=2.0,
                                        risefall=3)

        fc_pi_2 = FrameChange(phase=1.57)
        acquire = Acquire(10)
        delay = Delay(100)
        sched = Schedule()
        sched = sched.append(gp0(DriveChannel(0)))
        sched = sched.insert(
            0,
            pulse_lib.ConstantPulse(duration=60,
                                    amp=0.2 + 0.4j)(ControlChannel(0)))
        sched = sched.insert(60, FrameChange(phase=-1.57)(DriveChannel(0)))
        sched = sched.insert(60, SetFrequency(8.0, DriveChannel(0)))
        sched = sched.insert(30, gp1(DriveChannel(1)))
        sched = sched.insert(60, gp0(ControlChannel(0)))
        sched = sched.insert(60, gs0(MeasureChannel(0)))
        sched = sched.insert(90, fc_pi_2(DriveChannel(0)))
        sched = sched.insert(
            90, acquire(AcquireChannel(1), MemorySlot(1), RegisterSlot(1)))
        sched = sched.append(delay(DriveChannel(0)))
        sched = sched + sched
        sched |= Snapshot("snapshot_1", "snap_type") << 60
        sched |= Snapshot("snapshot_2", "snap_type") << 120
        return sched
Ejemplo n.º 2
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    def sample_schedule(self):
        """Generate a sample schedule that includes the most common elements of
           pulse schedules."""
        gp0 = library.gaussian(duration=20, amp=1.0, sigma=1.0)
        gp1 = library.gaussian(duration=20, amp=-1.0, sigma=2.0)
        gs0 = library.gaussian_square(duration=20, amp=-1.0, sigma=2.0, risefall=3)

        sched = Schedule(name='test_schedule')
        sched = sched.append(gp0(DriveChannel(0)))
        sched = sched.insert(0, Play(library.Constant(duration=60, amp=0.2 + 0.4j),
                                     ControlChannel(0)))
        sched = sched.insert(60, ShiftPhase(-1.57, DriveChannel(0)))
        sched = sched.insert(60, SetFrequency(8.0, DriveChannel(0)))
        sched = sched.insert(60, SetPhase(3.14, DriveChannel(0)))
        sched = sched.insert(70, ShiftFrequency(4.0e6, DriveChannel(0)))
        sched = sched.insert(30, Play(gp1, DriveChannel(1)))
        sched = sched.insert(60, Play(gp0, ControlChannel(0)))
        sched = sched.insert(60, Play(gs0, MeasureChannel(0)))
        sched = sched.insert(90, ShiftPhase(1.57, DriveChannel(0)))
        sched = sched.insert(90, Acquire(10,
                                         AcquireChannel(1),
                                         MemorySlot(1),
                                         RegisterSlot(1)))
        sched = sched.append(Delay(100, DriveChannel(0)))
        sched = sched + sched
        sched |= Snapshot("snapshot_1", "snap_type") << 60
        sched |= Snapshot("snapshot_2", "snap_type") << 120
        return sched
Ejemplo n.º 3
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    def test_snapshot(self):
        """Test converted qobj from SnapShot."""
        instruction = Snapshot(label='label', snapshot_type='type')
        shifted = instruction << 10

        qobj = PulseQobjInstruction(name='snapshot', t0=10, label='label', type='type')
        converted_instruction = self.converter(qobj)

        self.assertEqual(converted_instruction.start_time, shifted.start_time)
        self.assertEqual(converted_instruction.duration, shifted.duration)
        self.assertEqual(converted_instruction.instructions[0][-1], instruction)
Ejemplo n.º 4
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    def test_snapshot(self):
        """Test converted qobj from Snapshot."""
        converter = InstructionToQobjConverter(PulseQobjInstruction,
                                               meas_level=2)
        instruction = Snapshot(label='label', snapshot_type='type')

        valid_qobj = PulseQobjInstruction(name='snapshot',
                                          t0=0,
                                          label='label',
                                          type='type')

        self.assertEqual(converter(0, instruction), valid_qobj)