qiskit-documentation/docs/api/qiskit/0.46/qiskit.algorithms.optimizers.SLSQP.mdx

---
title: SLSQP
description: API reference for qiskit.algorithms.optimizers.SLSQP
in_page_toc_min_heading_level: 1
python_api_type: class
python_api_name: qiskit.algorithms.optimizers.SLSQP
---

# SLSQP

<Class id="qiskit.algorithms.optimizers.SLSQP" isDedicatedPage={true} github="https://github.com/qiskit/qiskit/tree/stable/0.46/qiskit/algorithms/optimizers/slsqp.py" signature="qiskit.algorithms.optimizers.SLSQP(maxiter=100, disp=False, ftol=1e-06, tol=None, eps=1.4901161193847656e-08, options=None, max_evals_grouped=1, **kwargs)" modifiers="class">
  Bases: [`SciPyOptimizer`](qiskit.algorithms.optimizers.SciPyOptimizer "qiskit.algorithms.optimizers.scipy_optimizer.SciPyOptimizer")

  Sequential Least SQuares Programming optimizer.

  SLSQP minimizes a function of several variables with any combination of bounds, equality and inequality constraints. The method wraps the SLSQP Optimization subroutine originally implemented by Dieter Kraft.

  SLSQP is ideal for mathematical problems for which the objective function and the constraints are twice continuously differentiable. Note that the wrapper handles infinite values in bounds by converting them into large floating values.

  Uses scipy.optimize.minimize SLSQP. For further detail, please refer to See [https://docs.scipy.org/doc/scipy/reference/generated/scipy.optimize.minimize.html](https://docs.scipy.org/doc/scipy/reference/generated/scipy.optimize.minimize.html)

  **Parameters**

  *   **maxiter** ([*int*](https://docs.python.org/3/library/functions.html#int "(in Python v3.12)")) – Maximum number of iterations.
  *   **disp** ([*bool*](https://docs.python.org/3/library/functions.html#bool "(in Python v3.12)")) – Set to True to print convergence messages.
  *   **ftol** ([*float*](https://docs.python.org/3/library/functions.html#float "(in Python v3.12)")) – Precision goal for the value of f in the stopping criterion.
  *   **tol** ([*float*](https://docs.python.org/3/library/functions.html#float "(in Python v3.12)") *| None*) – Tolerance for termination.
  *   **eps** ([*float*](https://docs.python.org/3/library/functions.html#float "(in Python v3.12)")) – Step size used for numerical approximation of the Jacobian.
  *   **options** ([*dict*](https://docs.python.org/3/library/stdtypes.html#dict "(in Python v3.12)") *| None*) – A dictionary of solver options.
  *   **max\_evals\_grouped** ([*int*](https://docs.python.org/3/library/functions.html#int "(in Python v3.12)")) – Max number of default gradient evaluations performed simultaneously.
  *   **kwargs** – additional kwargs for scipy.optimize.minimize.

  ## Attributes

  ### bounds\_support\_level

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.bounds_support_level">
    Returns bounds support level
  </Attribute>

  ### gradient\_support\_level

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.gradient_support_level">
    Returns gradient support level
  </Attribute>

  ### initial\_point\_support\_level

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.initial_point_support_level">
    Returns initial point support level
  </Attribute>

  ### is\_bounds\_ignored

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_bounds_ignored">
    Returns is bounds ignored
  </Attribute>

  ### is\_bounds\_required

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_bounds_required">
    Returns is bounds required
  </Attribute>

  ### is\_bounds\_supported

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_bounds_supported">
    Returns is bounds supported
  </Attribute>

  ### is\_gradient\_ignored

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_gradient_ignored">
    Returns is gradient ignored
  </Attribute>

  ### is\_gradient\_required

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_gradient_required">
    Returns is gradient required
  </Attribute>

  ### is\_gradient\_supported

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_gradient_supported">
    Returns is gradient supported
  </Attribute>

  ### is\_initial\_point\_ignored

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_initial_point_ignored">
    Returns is initial point ignored
  </Attribute>

  ### is\_initial\_point\_required

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_initial_point_required">
    Returns is initial point required
  </Attribute>

  ### is\_initial\_point\_supported

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.is_initial_point_supported">
    Returns is initial point supported
  </Attribute>

  ### setting

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.setting">
    Return setting
  </Attribute>

  ### settings

  <Attribute id="qiskit.algorithms.optimizers.SLSQP.settings" />

  ## Methods

  ### get\_support\_level

  <Function id="qiskit.algorithms.optimizers.SLSQP.get_support_level" signature="get_support_level()">
    Return support level dictionary
  </Function>

  ### gradient\_num\_diff

  <Function id="qiskit.algorithms.optimizers.SLSQP.gradient_num_diff" signature="gradient_num_diff(x_center, f, epsilon, max_evals_grouped=None)" modifiers="static">
    We compute the gradient with the numeric differentiation in the parallel way, around the point x\_center.

    **Parameters**

    *   **x\_center** (*ndarray*) – point around which we compute the gradient
    *   **f** (*func*) – the function of which the gradient is to be computed.
    *   **epsilon** ([*float*](https://docs.python.org/3/library/functions.html#float "(in Python v3.12)")) – the epsilon used in the numeric differentiation.
    *   **max\_evals\_grouped** ([*int*](https://docs.python.org/3/library/functions.html#int "(in Python v3.12)")) – max evals grouped, defaults to 1 (i.e. no batching).

    **Returns**

    the gradient computed

    **Return type**

    grad
  </Function>

  ### minimize

  <Function id="qiskit.algorithms.optimizers.SLSQP.minimize" signature="minimize(fun, x0, jac=None, bounds=None)">
    Minimize the scalar function.

    **Parameters**

    *   **fun** (*Callable\[\[POINT],* [*float*](https://docs.python.org/3/library/functions.html#float "(in Python v3.12)")*]*) – The scalar function to minimize.
    *   **x0** (*POINT*) – The initial point for the minimization.
    *   **jac** (*Callable\[\[POINT], POINT] | None*) – The gradient of the scalar function `fun`.
    *   **bounds** ([*list*](https://docs.python.org/3/library/stdtypes.html#list "(in Python v3.12)")*\[*[*tuple*](https://docs.python.org/3/library/stdtypes.html#tuple "(in Python v3.12)")*\[*[*float*](https://docs.python.org/3/library/functions.html#float "(in Python v3.12)")*,* [*float*](https://docs.python.org/3/library/functions.html#float "(in Python v3.12)")*]] | None*) – Bounds for the variables of `fun`. This argument might be ignored if the optimizer does not support bounds.

    **Returns**

    The result of the optimization, containing e.g. the result as attribute `x`.

    **Return type**

    [OptimizerResult](qiskit.algorithms.optimizers.OptimizerResult "qiskit.algorithms.optimizers.OptimizerResult")
  </Function>

  ### print\_options

  <Function id="qiskit.algorithms.optimizers.SLSQP.print_options" signature="print_options()">
    Print algorithm-specific options.
  </Function>

  ### set\_max\_evals\_grouped

  <Function id="qiskit.algorithms.optimizers.SLSQP.set_max_evals_grouped" signature="set_max_evals_grouped(limit)">
    Set max evals grouped
  </Function>

  ### set\_options

  <Function id="qiskit.algorithms.optimizers.SLSQP.set_options" signature="set_options(**kwargs)">
    Sets or updates values in the options dictionary.

    The options dictionary may be used internally by a given optimizer to pass additional optional values for the underlying optimizer/optimization function used. The options dictionary may be initially populated with a set of key/values when the given optimizer is constructed.

    **Parameters**

    **kwargs** ([*dict*](https://docs.python.org/3/library/stdtypes.html#dict "(in Python v3.12)")) – options, given as name=value.
  </Function>

  ### wrap\_function

  <Function id="qiskit.algorithms.optimizers.SLSQP.wrap_function" signature="wrap_function(function, args)" modifiers="static">
    Wrap the function to implicitly inject the args at the call of the function.

    **Parameters**

    *   **function** (*func*) – the target function
    *   **args** ([*tuple*](https://docs.python.org/3/library/stdtypes.html#tuple "(in Python v3.12)")) – the args to be injected

    **Returns**

    wrapper

    **Return type**

    function\_wrapper
  </Function>
</Class>