ParaMonte Fortran 2.0.0
Parallel Monte Carlo and Machine Learning Library
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Data Types | Modules | Variables
pm_optimization.F90 File Reference

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Data Types

interface  pm_optimization::isBracketMax
 Generate and return .true. if and only if a concave quadratic curve can fit the specified input triple [xmin, xlow, xupp] and the function value at the middle pointxmin` is larger than both boundary point function values.
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interface  pm_optimization::isBracketMin
 Generate and return .true. if and only if a convex quadratic curve can fit the specified input triple [xmin, xlow, xupp] and the function value at the middle point xmin is smaller than both boundary point function values.
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interface  pm_optimization::setBracketMax
 Refine an initial input interval such that the final returned interval is guaranteed to contain the maximum of the user-specified input function.
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interface  pm_optimization::setBracketMin
 Refine an initial input interval such that the final returned interval is guaranteed to contain the minimum of the user-specified input function.
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interface  pm_optimization::getMinBrent
 Generate and return the minimum value and the corresponding abscissa xmin of the input 1-dimensional function isolated to a fractional precision of about tol using the Brent method.
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interface  pm_optimization::setMinBrent
 Compute and return the minimum value and the corresponding abscissa xmin of the input 1-dimensional function isolated to a fractional precision of about tol using the Brent method.
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interface  pm_optimization::isFailedMinPowell
 Generate and return .true. if and only if the algorithm fails to find the minimum value and the corresponding abscissa xmin(1:ndim) of the input arbitrary (ndim) dimensional-support function isolated to a fractional precision of about tol using the Powell unconstrained derivative-free minimization method.
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interface  pm_optimization::setMinPowell
 Compute and return the minimum value and the corresponding abscissa xmin(1:ndim) of the input arbitrary (ndim) dimensional-support function isolated to a fractional precision of about tol using the Powell unconstrained derivative-free minimization method.
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Modules

module  pm_optimization
 This module contains procedures, generic interfaces, and types for numerical optimizations of mathematical functions.
 

Variables

character(*, SK), parameter pm_optimization::MODULE_NAME = "@pm_optimization"