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qiskit.quantum_info.Stinespring

class Stinespring(data, input_dims=None, output_dims=None)[Quellcode]

Stinespring representation of a quantum channel.

The Stinespring representation of a quantum channel \(\mathcal{E}\) is a rectangular matrix \(A\) such that the evolution of a DensityMatrix \(\rho\) is given by

\[\mathcal{E}(ρ) = \mbox{Tr}_2\left[A ρ A^\dagger\right]\]

where \(\mbox{Tr}_2\) is the partial_trace() over subsystem 2.

A general operator map \(\mathcal{G}\) can also be written using the generalized Stinespring representation which is given by two matrices \(A\), \(B\) such that

\[\mathcal{G}(ρ) = \mbox{Tr}_2\left[A ρ B^\dagger\right]\]

See reference [1] for further details.

References

  1. C.J. Wood, J.D. Biamonte, D.G. Cory, Tensor networks and graphical calculus for open quantum systems, Quant. Inf. Comp. 15, 0579-0811 (2015). arXiv:1111.6950 [quant-ph]

Initialize a quantum channel Stinespring operator.

Parameter
  • (QuantumCircuit or (data) – Instruction or BaseOperator or matrix): data to initialize superoperator.

  • input_dims (tuple) – the input subsystem dimensions. [Default: None]

  • output_dims (tuple) – the output subsystem dimensions. [Default: None]

Verursacht

QiskitError – if input data cannot be initialized as a a list of Kraus matrices.

Additional Information:

If the input or output dimensions are None, they will be automatically determined from the input data. This can fail for the Stinespring operator if the output dimension cannot be automatically determined.

__init__(data, input_dims=None, output_dims=None)[Quellcode]

Initialize a quantum channel Stinespring operator.

Parameter
  • (QuantumCircuit or (data) – Instruction or BaseOperator or matrix): data to initialize superoperator.

  • input_dims (tuple) – the input subsystem dimensions. [Default: None]

  • output_dims (tuple) – the output subsystem dimensions. [Default: None]

Verursacht

QiskitError – if input data cannot be initialized as a a list of Kraus matrices.

Additional Information:

If the input or output dimensions are None, they will be automatically determined from the input data. This can fail for the Stinespring operator if the output dimension cannot be automatically determined.

Methods

__init__(data[, input_dims, output_dims])

Initialize a quantum channel Stinespring operator.

add(other)

Return the linear operator self + other.

adjoint()

Return the adjoint of the operator.

compose(other[, qargs, front])

Return the composed quantum channel self @ other.

conjugate()

Return the conjugate of the QuantumChannel.

copy()

Make a deep copy of current operator.

dot(other[, qargs])

Return the right multiplied quantum channel self * other.

expand(other)

Return the tensor product channel other ⊗ self.

input_dims([qargs])

Return tuple of input dimension for specified subsystems.

is_cp([atol, rtol])

Test if Choi-matrix is completely-positive (CP)

is_cptp([atol, rtol])

Return True if completely-positive trace-preserving.

is_tp([atol, rtol])

Test if a channel is completely-positive (CP)

is_unitary([atol, rtol])

Return True if QuantumChannel is a unitary channel.

multiply(other)

Return the linear operator other * self.

output_dims([qargs])

Return tuple of output dimension for specified subsystems.

power(n)

The matrix power of the channel.

reshape([input_dims, output_dims])

Return a shallow copy with reshaped input and output subsystem dimensions.

set_atol(value)

Set the class default absolute tolerance parameter for float comparisons.

set_rtol(value)

Set the class default relative tolerance parameter for float comparisons.

subtract(other)

Return the linear operator self - other.

tensor(other)

Return the tensor product channel self ⊗ other.

to_instruction()

Convert to a Kraus or UnitaryGate circuit instruction.

to_operator()

Try to convert channel to a unitary representation Operator.

transpose()

Return the transpose of the QuantumChannel.

Attributes

atol

The default absolute tolerance parameter for float comparisons.

data

Return data.

dim

Return tuple (input_shape, output_shape).

num_qubits

Return the number of qubits if a N-qubit operator or None otherwise.

qargs

Return the qargs for the operator.

rtol

The relative tolerance parameter for float comparisons.

add(other)

Return the linear operator self + other.

DEPRECATED: use operator + other instead.

Parameter

other (BaseOperator) – an operator object.

Rückgabe

the operator self + other.

Rückgabetyp

BaseOperator

adjoint()

Return the adjoint of the operator.

property atol

The default absolute tolerance parameter for float comparisons.

compose(other, qargs=None, front=False)[Quellcode]

Return the composed quantum channel self @ other.

Parameter
  • other (QuantumChannel) – a quantum channel.

  • qargs (list or None) – a list of subsystem positions to apply other on. If None apply on all subsystems [default: None].

  • front (bool) – If True compose using right operator multiplication, instead of left multiplication [default: False].

Rückgabe

The quantum channel self @ other.

Rückgabetyp

Stinespring

Verursacht

QiskitError – if other cannot be converted to a Stinespring or has incompatible dimensions.

Additional Information:

Composition (@) is defined as left matrix multiplication for SuperOp matrices. That is that A @ B is equal to B * A. Setting front=True returns right matrix multiplication A * B and is equivalent to the dot() method.

conjugate()[Quellcode]

Return the conjugate of the QuantumChannel.

copy()

Make a deep copy of current operator.

property data

Return data.

property dim

Return tuple (input_shape, output_shape).

dot(other, qargs=None)[Quellcode]

Return the right multiplied quantum channel self * other.

Parameter
  • other (QuantumChannel) – a quantum channel.

  • qargs (list or None) – a list of subsystem positions to apply other on. If None apply on all subsystems [default: None].

Rückgabe

The quantum channel self * other.

Rückgabetyp

Stinespring

Verursacht

QiskitError – if other cannot be converted to a Stinespring or has incompatible dimensions.

expand(other)[Quellcode]

Return the tensor product channel other ⊗ self.

Parameter

other (QuantumChannel) – a quantum channel subclass.

Rückgabe

the tensor product channel other ⊗ self as a Stinespring object.

Rückgabetyp

Stinespring

Verursacht

QiskitError – if other cannot be converted to a channel.

input_dims(qargs=None)

Return tuple of input dimension for specified subsystems.

is_cp(atol=None, rtol=None)

Test if Choi-matrix is completely-positive (CP)

is_cptp(atol=None, rtol=None)[Quellcode]

Return True if completely-positive trace-preserving.

is_tp(atol=None, rtol=None)

Test if a channel is completely-positive (CP)

is_unitary(atol=None, rtol=None)

Return True if QuantumChannel is a unitary channel.

multiply(other)

Return the linear operator other * self.

DEPRECATED: use other * operator instead.

Parameter

other (complex) – a complex number.

Rückgabe

the linear operator other * self.

Rückgabetyp

BaseOperator

Verursacht

NotImplementedError – if subclass does not support multiplication.

property num_qubits

Return the number of qubits if a N-qubit operator or None otherwise.

output_dims(qargs=None)

Return tuple of output dimension for specified subsystems.

power(n)[Quellcode]

The matrix power of the channel.

Parameter

n (int) – compute the matrix power of the superoperator matrix.

Rückgabe

the matrix power of the SuperOp converted to a Stinespring channel.

Rückgabetyp

Stinespring

Verursacht

QiskitError – if the input and output dimensions of the QuantumChannel are not equal, or the power is not an integer.

property qargs

Return the qargs for the operator.

reshape(input_dims=None, output_dims=None)

Return a shallow copy with reshaped input and output subsystem dimensions.

Arg:
input_dims (None or tuple): new subsystem input dimensions.

If None the original input dims will be preserved [Default: None].

output_dims (None or tuple): new subsystem output dimensions.

If None the original output dims will be preserved [Default: None].

Rückgabe

returns self with reshaped input and output dimensions.

Rückgabetyp

BaseOperator

Verursacht

QiskitError – if combined size of all subsystem input dimension or subsystem output dimensions is not constant.

property rtol

The relative tolerance parameter for float comparisons.

classmethod set_atol(value)

Set the class default absolute tolerance parameter for float comparisons.

DEPRECATED: use operator.atol = value instead

classmethod set_rtol(value)

Set the class default relative tolerance parameter for float comparisons.

DEPRECATED: use operator.rtol = value instead

subtract(other)

Return the linear operator self - other.

DEPRECATED: use operator - other instead.

Parameter

other (BaseOperator) – an operator object.

Rückgabe

the operator self - other.

Rückgabetyp

BaseOperator

tensor(other)[Quellcode]

Return the tensor product channel self ⊗ other.

Parameter

other (QuantumChannel) – a quantum channel subclass.

Rückgabe

the tensor product channel other ⊗ self as a Stinespring object.

Rückgabetyp

Stinespring

Verursacht

QiskitError – if other cannot be converted to a channel.

to_instruction()

Convert to a Kraus or UnitaryGate circuit instruction.

If the channel is unitary it will be added as a unitary gate, otherwise it will be added as a kraus simulator instruction.

Rückgabe

A kraus instruction for the channel.

Rückgabetyp

qiskit.circuit.Instruction

Verursacht

QiskitError – if input data is not an N-qubit CPTP quantum channel.

to_operator()

Try to convert channel to a unitary representation Operator.

transpose()[Quellcode]

Return the transpose of the QuantumChannel.

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