circuit_to_device#

Compilation backend for quantum-circuit to quantum-device layer.

Module Contents#

Functions#

`compile_circuit_to_device_with_config_validation`(...)	Add pulse information to all gates in the schedule.
`_compile_circuit_to_device`(…)
`set_pulse_and_acquisition_clock`(...)	Ensures that each pulse/acquisition-level clock resource is added to the schedule,
`_extract_clock_freqs`(→ None)
`_set_pulse_and_acquisition_clock`(…)	Ensures that each pulse/acquisition-level clock resource is added to the schedule.
`_valid_clock_in_schedule`(→ bool)	Asserts that valid clock is present. Returns whether clock is already in schedule.
`_clocks_compatible`(→ bool)	Compare device config and schedule resources for compatibility of their clocks.
`_assert_operation_valid_device_level`(→ None)	Verifies that the operation has been compiled to device level.
`_compile_multiplexed`(...)	Compiles gate with multiple qubits.
`_compile_single_qubit`(...)	Compiles gate with multiple qubits.
`_compile_two_qubits`(...)	Compiles gate with multiple qubits.
`_get_device_repr_from_cfg`(...)
`_get_device_repr_from_cfg_multiplexed`(...)

compile_circuit_to_device_with_config_validation(schedule: quantify_scheduler.schedules.schedule.Schedule, config: quantify_scheduler.backends.graph_compilation.CompilationConfig) → quantify_scheduler.schedules.schedule.Schedule[source]#

Add pulse information to all gates in the schedule.

Before calling this function, the schedule can contain abstract operations (gates or measurements). This function adds pulse and acquisition information with respect to config as they are expected to arrive to device (latency or distortion corrections are not taken into account).

From a point of view of Compilation, this function converts a schedule defined on a quantum-circuit layer to a schedule defined on a quantum-device layer.

Parameters:

schedule – The schedule to be compiled.
config – Compilation config for QuantifyCompiler, of which only the CompilationConfig.device_compilation_config is used in this compilation step.

Returns:

The modified schedule with pulse information added to all gates, or the unmodified schedule if circuit to device compilation is not necessary.

_compile_circuit_to_device(operation: quantify_scheduler.schedules.schedule.Schedule, device_cfg: quantify_scheduler.backends.graph_compilation.DeviceCompilationConfig, device_overrides: dict) → quantify_scheduler.schedules.schedule.Schedule[source]#
_compile_circuit_to_device(operation: quantify_scheduler.operations.operation.Operation | quantify_scheduler.schedules.schedule.Schedule, device_cfg: quantify_scheduler.backends.graph_compilation.DeviceCompilationConfig, device_overrides: dict) → quantify_scheduler.operations.operation.Operation | quantify_scheduler.schedules.schedule.Schedule

set_pulse_and_acquisition_clock(schedule: quantify_scheduler.schedules.schedule.Schedule, config: quantify_scheduler.backends.graph_compilation.CompilationConfig) → quantify_scheduler.schedules.schedule.Schedule[source]#

Ensures that each pulse/acquisition-level clock resource is added to the schedule, and validates the given configuration.

If a pulse/acquisition-level clock resource has not been added to the schedule and is present in device_cfg, it is added to the schedule.

A warning is given when a clock resource has conflicting frequency definitions, and an error is raised if the clock resource is unknown.

Parameters:

schedule – The schedule to be compiled.
config – Compilation config for QuantifyCompiler, of which only the CompilationConfig.device_compilation_config is used in this compilation step.

Returns:

The modified schedule with all clock resources added, or the unmodified schedule if circuit to device compilation is not necessary.

Warns:

RuntimeWarning – When clock has conflicting frequency definitions.

Raises:

RuntimeError – When operation is not at pulse/acquisition-level.
ValueError – When clock frequency is unknown.
ValueError – When clock frequency is NaN.

_extract_clock_freqs(operation: quantify_scheduler.operations.operation.Operation | quantify_scheduler.schedules.schedule.Schedule, all_clock_freqs: Dict[str, float]) → None[source]#

_set_pulse_and_acquisition_clock(schedule: quantify_scheduler.schedules.schedule.Schedule, operation: quantify_scheduler.schedules.schedule.Schedule, all_clock_freqs: Dict[str, float], verified_clocks: List) → quantify_scheduler.schedules.schedule.Schedule[source]#

_set_pulse_and_acquisition_clock(schedule: quantify_scheduler.schedules.schedule.Schedule, operation: quantify_scheduler.operations.operation.Operation | quantify_scheduler.schedules.schedule.Schedule, all_clock_freqs: Dict[str, float], verified_clocks: List) → quantify_scheduler.operations.operation.Operation | quantify_scheduler.schedules.schedule.Schedule

Ensures that each pulse/acquisition-level clock resource is added to the schedule.

Parameters:

schedule – The resources from operation are added to schedule if operation is not a Schedule.
operation – The operation to collect resources from.
all_clock_freqs – All clock frequencies.
verified_clocks – Already verified clocks.

Returns:

The modified operation with all clock resources added.

_valid_clock_in_schedule(clock: str, all_clock_freqs: Dict[str, float], schedule: quantify_scheduler.schedules.schedule.Schedule, operation: quantify_scheduler.operations.operation.Operation) → bool[source]#

Asserts that valid clock is present. Returns whether clock is already in schedule.

Parameters:

clock – Name of the clock
all_clock_freqs – All clock frequencies
schedule – Schedule that potentially has the clock in its resources
operation – Quantify operation, to which the clock belongs. Only used for error message.

Raises: