96 lines
6.4 KiB
Plaintext
96 lines
6.4 KiB
Plaintext
---
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title: NumPyEigensolverFactory
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description: API reference for qiskit.chemistry.algorithms.NumPyEigensolverFactory
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in_page_toc_min_heading_level: 1
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python_api_type: class
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python_api_name: qiskit.chemistry.algorithms.NumPyEigensolverFactory
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---
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# qiskit.chemistry.algorithms.NumPyEigensolverFactory
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<Class id="qiskit.chemistry.algorithms.NumPyEigensolverFactory" isDedicatedPage={true} github="https://github.com/qiskit-community/qiskit-aqua/tree/stable/0.9/qiskit/chemistry/algorithms/excited_states_solvers/eigensolver_factories/numpy_eigensolver_factory.py" signature="NumPyEigensolverFactory(filter_criterion=None, k=100, use_default_filter_criterion=False)" modifiers="class">
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A factory to construct a NumPyEigensolver.
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**Parameters**
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* **filter\_criterion** (`Optional`\[`Callable`\[\[`Union`\[`List`, `ndarray`], `float`, `Optional`\[`List`\[`float`]]], `bool`]]) – callable that allows to filter eigenvalues/eigenstates. The minimum eigensolver is only searching over feasible states and returns an eigenstate that has the smallest eigenvalue among feasible states. The callable has the signature filter(eigenstate, eigenvalue, aux\_values) and must return a boolean to indicate whether to consider this value or not. If there is no feasible element, the result can even be empty.
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* **use\_default\_filter\_criterion** (`bool`) – Whether to use default filter criteria or not
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* **k** (`int`) – How many eigenvalues are to be computed, has a min. value of 1.
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* **use\_default\_filter\_criterion** – whether to use the transformation’s default filter criterion if `filter_criterion` is `None`.
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### \_\_init\_\_
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<Function id="qiskit.chemistry.algorithms.NumPyEigensolverFactory.__init__" signature="__init__(filter_criterion=None, k=100, use_default_filter_criterion=False)">
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**Parameters**
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* **filter\_criterion** (`Optional`\[`Callable`\[\[`Union`\[`List`, `ndarray`], `float`, `Optional`\[`List`\[`float`]]], `bool`]]) – callable that allows to filter eigenvalues/eigenstates. The minimum eigensolver is only searching over feasible states and returns an eigenstate that has the smallest eigenvalue among feasible states. The callable has the signature filter(eigenstate, eigenvalue, aux\_values) and must return a boolean to indicate whether to consider this value or not. If there is no feasible element, the result can even be empty.
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* **use\_default\_filter\_criterion** (`bool`) – Whether to use default filter criteria or not
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* **k** (`int`) – How many eigenvalues are to be computed, has a min. value of 1.
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* **use\_default\_filter\_criterion** – whether to use the transformation’s default filter criterion if `filter_criterion` is `None`.
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</Function>
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## Methods
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| ---------------------------------------------------------------------------------------------------------------------------------------------------------------------- | ---------------------------------------------------------------------------------------------------------------------------------- |
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| [`__init__`](#qiskit.chemistry.algorithms.NumPyEigensolverFactory.__init__ "qiskit.chemistry.algorithms.NumPyEigensolverFactory.__init__")(\[filter\_criterion, k, …]) | **type filter\_criterion**`Optional`\[`Callable`\[\[`Union`\[`List`, `ndarray`], `float`, `Optional`\[`List`\[`float`]]], `bool`]] |
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| [`get_solver`](#qiskit.chemistry.algorithms.NumPyEigensolverFactory.get_solver "qiskit.chemistry.algorithms.NumPyEigensolverFactory.get_solver")(transformation) | Returns a NumPyEigensolver with the desired filter |
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## Attributes
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| ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ | --------------------------------------------------- |
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| [`filter_criterion`](#qiskit.chemistry.algorithms.NumPyEigensolverFactory.filter_criterion "qiskit.chemistry.algorithms.NumPyEigensolverFactory.filter_criterion") | returns filter criterion |
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| [`k`](#qiskit.chemistry.algorithms.NumPyEigensolverFactory.k "qiskit.chemistry.algorithms.NumPyEigensolverFactory.k") | returns k (number of eigenvalues requested) |
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| [`use_default_filter_criterion`](#qiskit.chemistry.algorithms.NumPyEigensolverFactory.use_default_filter_criterion "qiskit.chemistry.algorithms.NumPyEigensolverFactory.use_default_filter_criterion") | returns whether to use the default filter criterion |
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### filter\_criterion
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<Attribute id="qiskit.chemistry.algorithms.NumPyEigensolverFactory.filter_criterion">
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returns filter criterion
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**Return type**
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`Callable`\[\[`Union`\[`List`, `ndarray`], `float`, `Optional`\[`List`\[`float`]]], `bool`]
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</Attribute>
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### get\_solver
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<Function id="qiskit.chemistry.algorithms.NumPyEigensolverFactory.get_solver" signature="get_solver(transformation)">
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Returns a NumPyEigensolver with the desired filter
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**Parameters**
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**transformation** (`Transformation`) – a fermionic/bosonic qubit operator transformation.
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**Return type**
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`Eigensolver`
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**Returns**
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A NumPyEigensolver suitable to compute the ground state of the molecule transformed by `transformation`.
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</Function>
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### k
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<Attribute id="qiskit.chemistry.algorithms.NumPyEigensolverFactory.k">
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returns k (number of eigenvalues requested)
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**Return type**
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`int`
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</Attribute>
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### use\_default\_filter\_criterion
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<Attribute id="qiskit.chemistry.algorithms.NumPyEigensolverFactory.use_default_filter_criterion">
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returns whether to use the default filter criterion
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**Return type**
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`bool`
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</Attribute>
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</Class>
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