SummedOp#
- class qiskit.opflow.list_ops.SummedOp(oplist, coeff=1.0, abelian=False)[ソース]#
ベースクラス:
ListOpDeprecated: A class for lazily representing sums of Operators. Often Operators cannot be efficiently added to one another, but may be manipulated further so that they can be later. This class holds logic to indicate that the Operators in
oplistare meant to be added together, and therefore if they reach a point in which they can be, such as after evaluation or conversion to matrices, they can be reduced by addition.バージョン 0.24.0 で非推奨: The class
qiskit.opflow.list_ops.summed_op.SummedOpis deprecated as of qiskit-terra 0.24.0. It will be removed no earlier than 3 months after the release date. For code migration guidelines, visit https://qisk.it/opflow_migration.- パラメータ:
oplist (List[OperatorBase]) – The Operators being summed.
coeff (complex | ParameterExpression) – A coefficient multiplying the operator
abelian (bool) – Indicates whether the Operators in
oplistare known to mutually commute.
Attributes
- INDENTATION = ' '#
- abelian#
Whether the Operators in
oplistare known to commute with one another.- 戻り値:
A bool indicating whether the
oplistis Abelian.
- coeff#
The scalar coefficient multiplying the Operator.
- 戻り値:
The coefficient.
- coeffs#
Return a list of the coefficients of the operators listed. Raises exception for nested Listops.
- combo_fn#
The function defining how to combine
oplist(or Numbers, or NumPy arrays) to produce the Operator’s underlying function. For example, SummedOp’s combination function is to add all of the Operators inoplist.- 戻り値:
The combination function.
- distributive#
- grad_combo_fn#
The gradient of
combo_fn.
- instance_id#
Return the unique instance id.
- num_qubits#
- oplist#
The list of
OperatorBasesdefining the underlying function of this Operator.- 戻り値:
The Operators defining the ListOp
- parameters#
- settings#
Return settings.
Methods
- add(other)[ソース]#
Return Operator addition of
selfandother, overloaded by+.注釈
This appends
othertoself.oplistwithout checkingotheris already included or not. If you want to simplify them, please usesimplify().- パラメータ:
other (OperatorBase) – An
OperatorBasewith the same number of qubits as self, and in the same 『Operator』, 『State function』, or 『Measurement』 category as self (i.e. the same type of underlying function).- 戻り値:
A
SummedOpequivalent to the sum of self and other.- 戻り値の型:
- collapse_summands()[ソース]#
Return Operator by simplifying duplicate operators.
E.g.,
SummedOp([2 * X ^ Y, X ^ Y]).collapse_summands() -> SummedOp([3 * X ^ Y]).- 戻り値:
A simplified
SummedOpequivalent to self.- 戻り値の型:
- equals(other)[ソース]#
Check if other is equal to self.
注釈
This is not a mathematical check for equality. If
selfandotherimplement the same operation but differ in the representation (e.g. different type of summands)equalswill evaluate toFalse.- パラメータ:
other (OperatorBase) – The other operator to check for equality.
- 戻り値:
True, if other and self are equal, otherwise False.
- 戻り値の型:
サンプル
>>> from qiskit.opflow import X, Z >>> 2 * X == X + X True >>> X + Z == Z + X True
- reduce()[ソース]#
Try collapsing list or trees of sums.
Tries to sum up duplicate operators and reduces the operators in the sum.
- 戻り値:
A collapsed version of self, if possible.
- 戻り値の型:
- to_circuit()[ソース]#
Returns the quantum circuit, representing the SummedOp. In the first step, the SummedOp is converted to MatrixOp. This is straightforward for most operators, but it is not supported for operators containing parameterized PrimitiveOps (in that case, OpflowError is raised). In the next step, the MatrixOp representation of SummedOp is converted to circuit. In most cases, if the summands themselves are unitary operators, the SummedOp itself is non-unitary and can not be converted to circuit. In that case, ExtensionError is raised in the underlying modules.
- 戻り値:
The circuit representation of the summed operator.
- 例外:
OpflowError – if SummedOp can not be converted to MatrixOp (e.g. SummedOp is composed of
parameterized PrimitiveOps). –
- 戻り値の型: