operation#
Module containing the core concepts of the scheduler.
Module Contents#
Classes#
A representation of quantum circuit operations. |
Attributes#
- class Operation(name: str)[source]#
Bases:
quantify_scheduler.json_utils.JSONSchemaValMixin
,collections.UserDict
A representation of quantum circuit operations.
The
Operation
class is a JSON-compatible data structure that contains information on how to represent the operation on the quantum-circuit and/or the quantum-device layer. It also contains information on where the operation should be applied: theResource
s used.An operation always has the following attributes:
duration (float): duration of the operation in seconds (can be 0).
hash (str): an auto generated unique identifier.
name (str): a readable identifier, does not have to be unique.
An Operation can contain information on several levels of abstraction. This information is used when different representations are required. Note that when initializing an operation not all of this information needs to be available as operations are typically modified during the compilation steps.
Tip
quantify_scheduler
comes with agate_library
and apulse_library
, both containing common operations.JSON schema of a valid Operation
JSON schema for a quantify sequencer operation.
type
object
properties
name
type
string
gate_info
type
object
properties
unitary
A unitary matrix describing the operation.
operation_type
Defines what class of operations this gate refers to (e.g. Rxy, CZ etc.).
type
string
qubits
A list of strings indicating the qubits the gate acts on. Valid qubits are strings that appear in the device_config.json file.
type
array
symmetric
A boolean to indicate whether a two qubit gate is symmetric. This is used in the device config compilation stage. By default, it is set as False
type
boolean
tex
latex snippet for plotting
type
string
plot_func
reference to a function for plotting this operation. If not specified, defaults to using
gate_box()
.type
string / null
additionalProperties
True
pulse_info
A list containing the pulses that are part of the operation
type
array
items
Info to generate an individual pulse.
type
object
properties
port
A string specifying the port used by the pulse.
type
string / null
clock
A string specifying the clock used to modulate the pulse.
type
string
wf_func
reference to a function to generate the pulse of this operation.
type
string / null
t0
Starting time of the pulse with respect to the start of the operation in seconds.
type
number
duration
The duration of the pulse in seconds.
type
number
acquisition_info
A list containing the acquisitions that are part of the operation
type
array
items
Info to generate an individual acquisition.
type
object
properties
port
A string specifying the port used by the acquisition.
type
string
clock
A string specifying the clock used to demodulate the acquisition.
type
string
t0
Starting time of the pulse with respect to the start of the operation in seconds.
type
number
duration
The duration of the acquisition in seconds.
type
number
acq_channel
The acquisition channel to use.
type
number
acq_index
The acquisition index where to store the result of the acquisition protocol.
type
number
acq_return_type
Describes the return type of an acquisition performed using this protocol.
additionalProperties
True
logic_info
Not Implemented.
additionalProperties
False
Note
Two different Operations containing the same information generate the same hash and are considered identical.
- property duration: float[source]#
Determine operation duration from pulse_info.
If the operation contains no pulse info, it is assumed to be ideal and have zero duration.
- property hash: str[source]#
A hash based on the contents of the Operation.
Needs to be a str for easy compatibility with json.
- property valid_gate: bool[source]#
An operation is a valid gate if it has gate-level representation details.
- property valid_pulse: bool[source]#
An operation is a valid pulse if it has pulse-level representation details.
- property valid_acquisition: bool[source]#
An operation is a valid acquisition if it has pulse-level acquisition representation details.
- property is_conditional: bool[source]#
An operation is conditional if one of the following holds,
self
is a: - a Measure gate with afeedback_trigger_label
assigned to it - an acquisition with afeedback_trigger_label
assigned to it - a conditional control_flow operation.
- property is_control_flow: bool[source]#
Determine if operation is a control flow operation.
- Returns:
Whether the operation is a control flow operation.
- Return type:
- property has_voltage_offset: bool[source]#
Checks if the operation contains information for a voltage offset.
- classmethod _get_signature(parameters: dict) str [source]#
Returns the constructor call signature of this instance for serialization.
The string constructor representation can be used to recreate the object using eval(signature).
- Parameters:
parameters (dict) – The current data dictionary.
- add_gate_info(gate_operation: Operation) None [source]#
Updates self.data[‘gate_info’] with contents of gate_operation.
- Parameters:
gate_operation – an operation containing gate_info.
- add_device_representation(device_operation: Operation) None [source]#
Adds device-level representation details to the current operation.
- Parameters:
device_operation – an operation containing the pulse_info and/or acquisition info describing how to represent the current operation at the quantum-device layer.
- add_pulse(pulse_operation: Operation) None [source]#
Adds pulse_info of pulse_operation Operation to this Operation.
- Parameters:
pulse_operation – an operation containing pulse_info.