Struct qoqo::noise_models::SingleQubitOverrotationOnGateWrapper

pub struct SingleQubitOverrotationOnGateWrapper { /* private fields */ }

Single qubit overrotation noise model on gate.

Adds a rotation gate with a randomly distributed rotation angle after specified gates in a quantum circuit. Example:

from qoqo.noise_models import SingleQubitOverrotationDescription
from qoqo.noise_models import SingleQubitOverrotationOnGate
gate = "RotateX"
theta_mean = 0.0
theta_std = 1.0
noise_desc = SingleQubitOverrotationDescription(gate, theta_mean, theta_std)

noise = SingleQubitOverrotationOnGate();
circuit_gate_with_noise = "RotateZ";
qubit = 0;
noise.set_single_qubit_overrotation(circuit_gate_with_noise, qubit, noise_desc);

Implementations

impl SingleQubitOverrotationOnGateWrapper

pub fn new() -> SingleQubitOverrotationOnGateWrapper

Create a new SingleQubitOverrotationOnGate.

pub fn set_single_qubit_overrotation( &self, gate: &str, qubit: usize, noise_description: &Bound<'_, PyAny> ) -> PyResult<Self>

Set overrotation for a single qubit gate.

Args: gate (str): The name of the gate. qubit (int): The qubit the gate acts on. noise_description (SingleQubitOverrotationDescription) - overrotation description for gate.

Returns: Self: The overotation model with the new overrotation on gate set.

Raises: PyTypeError: Noise description is not a SingleQubitOverrotationDescription.

pub fn get_single_qubit_overrotation( &self, gate: &str, qubit: usize ) -> Option<SingleQubitOverrotationDescriptionWrapper>

Return the overrotation description for a single qubit gate, if it exists.

Args: gate (str): The name of the gate. qubit (int): The qubit the gate acts on.

Returns OptionalSingleQubitOverrotationDescription: The overrotation applied when gate is applied.

pub fn set_two_qubit_overrotation( &self, gate: &str, control: usize, target: usize, noise_operator: (Py<PyAny>, Py<PyAny>) ) -> PyResult<Self>

Set extra noise for a two qubit gate.

Args: gate (str): The name of the gate. control (int): The control qubit the gate acts on. target (int): The target qubit the gate acts on. noise_description ((SingleQubitOverrotationDescription, SingleQubitOverrotationDescription)) - overrotation description for gate.

Returns: Self: The overrotation model with the new overrotation on gate set.

Raises: PyTypeError: Noise description is not a (SingleQubitOverrotationDescription, SingleQubitOverrotationDescription).

pub fn get_two_qubit_overrotation( &self, gate: &str, control: usize, target: usize ) -> Option<(SingleQubitOverrotationDescriptionWrapper, SingleQubitOverrotationDescriptionWrapper)>

Return the extra noise for a single qubit gate, if it exists.

Args: gate (str): The name of the gate. control (int): The control qubit the gate acts on. target (int): The target qubit the gate acts on.

Returns Optional[(SingleQubitOverrotationDescription, SingleQubitOverrotationDescription)]: The overrotation applied when gate is applied.

pub fn from_bincode( input: &Bound<'_, PyAny> ) -> PyResult<SingleQubitOverrotationOnGateWrapper>

Convert the bincode representation of the Noise-Model to a device using the bincode crate.

Args: input (ByteArray): The serialized Noise-Model (in bincode form).

Returns: The deserialized Noise-Model.

Raises: TypeError: Input cannot be converted to byte array. ValueError: Input cannot be deserialized to selected Noise-Model.

pub fn from_json(input: &str) -> PyResult<SingleQubitOverrotationOnGateWrapper>

Convert the json representation of a device to a Noise-Model.

Args: input (str): The serialized device in json form.

Returns: The deserialized device.

Raises: ValueError: Input cannot be deserialized to selected Noise-Model.

pub fn __copy__(&self) -> Self

Returns a copy of the device (copy here produces a deepcopy).

Returns: A deep copy of self.

pub fn __deepcopy__(&self, _memodict: &Bound<'_, PyAny>) -> Self

Creates deep copy of Noise-Model.

Returns: A deep copy of self.

pub fn to_bincode(&self) -> PyResult<Py<PyByteArray>>

Return the bincode representation of the Noise-Model using the bincode crate.

Returns: ByteArray: The serialized Noise-Model (in bincode form).

Raises: ValueError: Cannot serialize Noise-Model to bytes.

pub fn to_json(&self) -> PyResult<String>

Return the json representation of the Noise-Model.

Returns: str: The serialized form of Noise-Model.

Raises: ValueError: Cannot serialize Noise-Model to json.

impl SingleQubitOverrotationOnGateWrapper

pub fn from_pyany(input: &Bound<'_, PyAny>) -> PyResult<NoiseModel>

Fallible conversion of generic python object..

Trait Implementations

impl Clone for SingleQubitOverrotationOnGateWrapper

fn clone(&self) -> SingleQubitOverrotationOnGateWrapper

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for SingleQubitOverrotationOnGateWrapper

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Default for SingleQubitOverrotationOnGateWrapper

fn default() -> SingleQubitOverrotationOnGateWrapper

Returns the “default value” for a type.

impl HasPyGilRef for SingleQubitOverrotationOnGateWrapper

type AsRefTarget = PyCell<SingleQubitOverrotationOnGateWrapper>

Utility type to make Py::as_ref work.

impl IntoPy<Py<PyAny>> for SingleQubitOverrotationOnGateWrapper

fn into_py(self, py: Python<'_>) -> PyObject

Performs the conversion.

impl PartialEq for SingleQubitOverrotationOnGateWrapper

fn eq(&self, other: &SingleQubitOverrotationOnGateWrapper) -> bool

This method tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl PyClass for SingleQubitOverrotationOnGateWrapper

type Frozen = True

Whether the pyclass is frozen.

impl PyClassImpl for SingleQubitOverrotationOnGateWrapper

const IS_BASETYPE: bool = false

#[pyclass(subclass)]

const IS_SUBCLASS: bool = false

#[pyclass(extends=…)]

const IS_MAPPING: bool = false

#[pyclass(mapping)]

const IS_SEQUENCE: bool = false

#[pyclass(sequence)]

type BaseType = PyAny

Base class

type ThreadChecker = SendablePyClass<SingleQubitOverrotationOnGateWrapper>

This handles following two situations:

type Inventory = Pyo3MethodsInventoryForSingleQubitOverrotationOnGateWrapper

type PyClassMutability = <<PyAny as PyClassBaseType>::PyClassMutability as PyClassMutability>::ImmutableChild

Immutable or mutable

type Dict = PyClassDummySlot

Specify this class has #[pyclass(dict)] or not.

type WeakRef = PyClassDummySlot

Specify this class has #[pyclass(weakref)] or not.

type BaseNativeType = PyAny

The closest native ancestor. This is PyAny by default, and when you declare #[pyclass(extends=PyDict)], it’s PyDict.

fn items_iter() -> PyClassItemsIter

fn doc(py: Python<'_>) -> PyResult<&'static CStr>

Rendered class doc

fn lazy_type_object() -> &'static LazyTypeObject<Self>

fn dict_offset() -> Option<isize>

fn weaklist_offset() -> Option<isize>

impl PyClassNewTextSignature<SingleQubitOverrotationOnGateWrapper> for PyClassImplCollector<SingleQubitOverrotationOnGateWrapper>

fn new_text_signature(self) -> Option<&'static str>

impl<'a, 'py> PyFunctionArgument<'a, 'py> for &'a SingleQubitOverrotationOnGateWrapper

type Holder = Option<PyRef<'py, SingleQubitOverrotationOnGateWrapper>>

fn extract( obj: &'a Bound<'py, PyAny>, holder: &'a mut Self::Holder ) -> PyResult<Self>

impl PyTypeInfo for SingleQubitOverrotationOnGateWrapper

const NAME: &'static str = "SingleQubitOverrotationOnGate"

Class name.

const MODULE: Option<&'static str> = ::core::option::Option::None

Module name, if any.

fn type_object_raw(py: Python<'_>) -> *mut PyTypeObject

Returns the PyTypeObject instance for this type.

fn type_object(py: Python<'_>) -> &PyType

👎Deprecated since 0.21.0: PyTypeInfo::type_object will be replaced by PyTypeInfo::type_object_bound in a future PyO3 version

Returns the safe abstraction over the type object.

fn type_object_bound(py: Python<'_>) -> Bound<'_, PyType>

Returns the safe abstraction over the type object.

fn is_type_of(object: &PyAny) -> bool

👎Deprecated since 0.21.0: PyTypeInfo::is_type_of will be replaced by PyTypeInfo::is_type_of_bound in a future PyO3 version

Checks if object is an instance of this type or a subclass of this type.

fn is_type_of_bound(object: &Bound<'_, PyAny>) -> bool

Checks if object is an instance of this type or a subclass of this type.

fn is_exact_type_of(object: &PyAny) -> bool

👎Deprecated since 0.21.0: PyTypeInfo::is_exact_type_of will be replaced by PyTypeInfo::is_exact_type_of_bound in a future PyO3 version

Checks if object is an instance of this type.

fn is_exact_type_of_bound(object: &Bound<'_, PyAny>) -> bool

Checks if object is an instance of this type.

impl DerefToPyAny for SingleQubitOverrotationOnGateWrapper

impl StructuralPartialEq for SingleQubitOverrotationOnGateWrapper