transmon_element

The module contains definitions related to transmon elements.

Module Contents

Classes

Ports	Submodule containing the ports.
ClocksFrequencies	Submodule containing the clock frequencies specifying the transitions to address.
IdlingReset	Submodule containing parameters for doing a reset by idling.
RxyDRAG	Submodule containing parameters for performing an Rxy operation.
DispersiveMeasurement	Submodule containing parameters to perform a measurement.
ReferenceMagnitude	Submodule which describes an amplitude / power reference level.
BasicTransmonElement	A device element representing a single fixed-frequency transmon qubit.

class Ports(parent: qcodes.instrument.base.InstrumentBase, name: str, **kwargs: Any)

Bases: qcodes.instrument.InstrumentChannel

Submodule containing the ports.

microwave

Name of the element’s microwave port.

flux

Name of the element’s flux port.

readout

Name of the element’s readout port.

class ClocksFrequencies(parent: qcodes.instrument.base.InstrumentBase, name: str, **kwargs: Any)

Bases: qcodes.instrument.InstrumentChannel

Submodule containing the clock frequencies specifying the transitions to address.

f01

Frequency of the 01 clock

f12

Frequency of the 12 clock

readout

Frequency of the ro clock.

class IdlingReset(parent: qcodes.instrument.base.InstrumentBase, name: str, **kwargs: Any)

Bases: qcodes.instrument.InstrumentChannel

Submodule containing parameters for doing a reset by idling.

duration

Duration of the passive qubit reset (initialization by relaxation).

class RxyDRAG(parent: qcodes.instrument.base.InstrumentBase, name: str, **kwargs: Any)

Bases: qcodes.instrument.InstrumentChannel

Submodule containing parameters for performing an Rxy operation.

The Rxy operation uses a DRAG pulse.

amp180

Amplitude required to perform a $pi$ pulse.

motzoi

Ratio between the Gaussian Derivative (D) and Gaussian (G) components of the DRAG pulse.

duration

Duration of the control pulse.

class DispersiveMeasurement(parent: qcodes.instrument.base.InstrumentBase, name: str, **kwargs: Any)

Bases: qcodes.instrument.InstrumentChannel

Submodule containing parameters to perform a measurement.

The measurement that is performed is using dispersive_measurement().

pulse_type

Envelope function that defines the shape of the readout pulse prior to modulation.

pulse_amp

Amplitude of the readout pulse.

pulse_duration

Duration of the readout pulse.

acq_channel

Acquisition channel of to this device element.

acq_delay

Delay between the start of the readout pulse and the start of the acquisition. Note that some hardware backends do not support starting a pulse and the acquisition in the same clock cycle making 0 delay an invalid value.

integration_time

Integration time for the readout acquisition.

reset_clock_phase

The phase of the measurement clock will be reset by the control hardware at the start of each measurement if reset_clock_phase=True.

acq_weights_a

The weights for the I path. Used when specifying the "NumericalSeparatedWeightedIntegration" or the "NumericalWeightedIntegration" acquisition protocol.

acq_weights_b

The weights for the Q path. Used when specifying the "NumericalSeparatedWeightedIntegration" or the "NumericalWeightedIntegration" acquisition protocol.

acq_weights_sampling_rate

The sample rate of the weights arrays, in Hertz. Used when specifying the "NumericalSeparatedWeightedIntegration" or the "NumericalWeightedIntegration" acquisition protocol.

acq_rotation

The phase rotation in degrees required to perform thresholded acquisition. Note that rotation is performed before the threshold. For more details see ThresholdedAcquisition.

acq_threshold

The threshold value against which the rotated and integrated result is compared against. For more details see ThresholdedAcquisition.

class ReferenceMagnitude(parent: qcodes.instrument.base.InstrumentBase, name: str, **kwargs: Any)

Bases: qcodes.instrument.InstrumentChannel

Submodule which describes an amplitude / power reference level.

The reference level is with respect to which pulse amplitudes are defined. This can be specified in units of “V”, “dBm” or “A”.

Only one unit parameter may have a defined value at a time. If we call the set method for any given unit parameter, all other unit parameters will be automatically set to nan.

_set_parameter(value: float, parameter: str)

Set the value of one of the unit parameters.

All the other unit parameters are set to nan.

get_val_unit() → Tuple[float, str]

Get the value of the amplitude reference and its unit, if one is defined.

If a value is defined for more than one unit, raise an exception.

Returns:

• value – The value of the amplitude reference

• unit – The unit in which this value is specified

class BasicTransmonElement(name: str, **kwargs)

Bases: quantify_scheduler.device_under_test.device_element.DeviceElement

A device element representing a single fixed-frequency transmon qubit.

The qubit is coupled to a readout resonator.

Parameters:

• name – The name of the transmon element.

• kwargs – Can be used to pass submodule initialization data by using submodule name as keyword and as argument a dictionary containing the submodule parameter names and their value.

reset: IdlingReset

Submodule IdlingReset.

rxy: RxyDRAG

Submodule RxyDRAG.

measure: DispersiveMeasurement

Submodule DispersiveMeasurement.

ports: Ports

Submodule Ports.

clock_freqs: ClocksFrequencies

Submodule ClocksFrequencies.

_generate_config() → Dict[str, Dict[str, quantify_scheduler.backends.graph_compilation.OperationCompilationConfig]]

Generate part of the device configuration specific to a single qubit.

This method is intended to be used when this object is part of a device object containing multiple elements.

generate_device_config() → quantify_scheduler.backends.graph_compilation.DeviceCompilationConfig

Generate a valid device config.

The config will be used for the quantify-scheduler making use of the compile_circuit_to_device_with_config_validation() function.

This enables the settings of this qubit to be used in isolation.