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Link to original content: http://en.wikipedia.org/wiki/List_of_optimization_software
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List of optimization software

From Wikipedia, the free encyclopedia

Given a transformation between input and output values, described by a mathematical function, optimization deals with generating and selecting the best solution from some set of available alternatives, by systematically choosing input values from within an allowed set, computing the output of the function and recording the best output values found during the process. Many real-world problems can be modeled in this way. For example, the inputs could be design parameters for a motor, the output could be the power consumption. For another optimization, the inputs could be business choices and the output could be the profit obtained.

An optimization problem, (in this case a minimization problem), can be represented in the following way:

Given: a function f : A R from some set A to the real numbers
Search for: an element x0 in A such that f(x0) ≤ f(x) for all x in A.

In continuous optimization, A is some subset of the Euclidean space Rn, often specified by a set of constraints, equalities or inequalities that the members of A have to satisfy. In combinatorial optimization, A is some subset of a discrete space, like binary strings, permutations, or sets of integers.

The use of optimization software requires that the function f is defined in a suitable programming language and connected at compilation or run time to the optimization software. The optimization software will deliver input values in A, the software module realizing f will deliver the computed value f(x) and, in some cases, additional information about the function like derivatives.

In this manner, a clear separation of concerns is obtained: different optimization software modules can be easily tested on the same function f, or a given optimization software can be used for different functions f.

The following tables provide a list of notable optimization software organized according to license and business model type.

Free and open-source software

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Applications

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Name License Description
ADMB BSD nonlinear optimization framework using automatic differentiation.
ASCEND GPL mathematical modelling chemical process modelling system.
CUTEr GPL testing environment for optimization and linear algebra solvers.
GNU Octave GPL software package using a high-level programming language, primarily intended for numerical computations; it is mostly compatible with MATLAB.
Scilab CeCILL cross-platform numerical computational package and a high-level, numerically oriented programming language with a numerical optimization framework.

Software libraries

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Name License Description
ALGLIB GPL dual licensed (GPL/commercial) optimization library (LP, QP and nonlinear programming problems), optionally using automatic differentiation. Cross-language: C++, C#.
COIN-OR EPL 1.0 integer programming, linear programming, nonlinear programming.
Dlib BSL‑1.0 unconstrained/box-constrained nonlinear/QP optimization library written in C++.
GEKKO MIT machine learning and optimization of mixed-integer and differential algebraic equations in Python.
GLPK GPL GNU Linear Programming Kit with C API.
HiGHS MIT linear programming (LP), mixed integer programming (MIP), and convex quadratic programming (QP).[1]
IPOPT EPL (was CPL) large scale nonlinear optimizer for continuous systems (requires gradient), C++ (formerly Fortran and C). It became a part of COIN-OR.[2]
MINUIT (now MINUIT2) LGPL unconstrained optimizer internally developed at CERN.
OpenMDAO Apache License Multidisciplinary Design, Analysis, and Optimization (MDAO) framework, written in Python. The development is led out of the NASA Glenn Research Center, with support from the NASA Langley Research Center.
SCIP Apache License solver for mixed integer programming (MIP) and mixed integer nonlinear programming (MINLP).
SciPy BSD general numeric package for Python, with some support for optimization.
Uno MIT Lagrange-Newton solver that unifies nonconvex optimization, implemented in C++. Developed at Argonne National Laboratory and Zuse Institute Berlin. [3]

Proprietary software

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  • AIMMS – optimization modelling system, including GUI building facilities.
  • ALGLIB – dual licensed (GPL/commercial) constrained quadratic and nonlinear optimization library with C++ and C# interfaces.
  • Altair HyperStudy – design of experiments and multidisciplinary design optimization.
  • AMPL – modelling language for large-scale linear, mixed integer and nonlinear optimization.
  • ANTIGONE – a deterministic global optimization MINLP solver.
  • APMonitor – modelling language and optimization suite for large-scale, nonlinear, mixed integer, differential, and algebraic equations with interfaces to MATLAB, Python, and Julia.
  • Artelys Knitro – large scale nonlinear optimization for continuous and mixed-integer programming.
  • ASTOS – AeroSpace Trajectory optimization Software for launch, re-entry, and generic aerospace problems.
  • BARON – optimization of algebraic nonlinear and mixed-integer nonlinear problems.
  • COMSOL Multiphysics – a cross-platform finite element analysis, solver and multiphysics simulation software.
  • CPLEX – solver for linear and quadratic programming with continuous or integer variables (MIP).
  • FEATool Multiphysics – FEA GUI Toolbox for MATLAB.
  • FICO Xpress – solver for linear and quadratic programming with continuous or integer variables (MIP).
  • FortMP – linear and quadratic programming.
  • FortSP – stochastic programming.
  • GAMS – General Algebraic Modeling System.
  • Gurobi Optimizer – solver for linear and quadratic programming with continuous or integer variables (MIP).
  • HEEDS MDO – multidisciplinary design optimization using SHERPA, a hybrid, adaptive optimization algorithm.
  • IMSL Numerical Libraries – linear, quadratic, nonlinear, and sparse QP and LP optimization algorithms implemented in standard programming languages C, Java, C# .NET, Fortran, and Python.
  • IOSO – (Indirect optimization on the basis of Self-Organization) a multi-objective, multidimensional nonlinear optimization technology.
  • Kimeme – an open platform for multi-objective optimization and multidisciplinary design optimization.
  • LINDO – (Linear, Interactive, and Discrete optimizer) a software package for linear programming, integer programming, nonlinear programming, stochastic programming, and global optimization. The "What's Best!" Excel add-in performs linear, integer, and nonlinear optimization using LINDO.
  • LIONsolver – an integrated software for data mining, analytics, modelling Learning and Intelligent OptimizatioN and reactive business intelligence approach.
  • modeFRONTIER – an integration platform for multi-objective and multidisciplinary optimization, which provides a seamless coupling with third party engineering tools, enables the automation of the design simulation process, and facilitates analytic decision-making.
  • Maple – linear, quadratic, and nonlinear, continuous and integer optimization. Constrained and unconstrained. Global optimization with add-on toolbox.
  • MATLAB – linear, integer, quadratic, and nonlinear problems with Optimization Toolbox; multiple maxima, multiple minima, and non-smooth optimization problems; estimation and optimization of model parameters.
  • MIDACO a lightweight software tool for single- and multi-objective optimization based on evolutionary computing. Written in C/C++ and Fortran with gateways to Excel, VBA, Java, Python, Matlab, Octave, R, C#, and Julia.
  • Mathematica – large-scale multivariate constrained and unconstrained, linear, quadratic and nonlinear, continuous, and integer optimization.
  • ModelCenter – a graphical environment for integration, automation, and design optimization.
  • MOSEK – linear, quadratic, conic and convex nonlinear, continuous, and integer optimization.
  • NAG – linear, quadratic, nonlinear, sums of squares of linear or nonlinear functions; linear, sparse linear, nonlinear, bounded or no constraints; local and global optimizations; continuous or integer problems.
  • NMath – linear, quadratic and nonlinear programming.
  • Octeract Engine – a deterministic global optimization MINLP solver. Plans exist for additional features.
  • OptimJ – Java-based modelling language. Premium Edition includes support for Mosek and CPLEX solvers.
  • Optimus platform – a process integration and design optimization platform developed by Noesis Solutions.
  • optiSLang – software solutions for CAE-based sensitivity analysis, optimization, and robustness evaluation.
  • OptiY – a design environment providing modern optimization strategies and state of the art probabilistic algorithms for uncertainty, reliability, robustness, sensitivity analysis, data-mining, and meta modelling.
  • OptiStruct – award-winning CAE technology for conceptual design synthesis and structural optimization.
  • OptQuest – metaheuristics-based optimization plugin for simulation-based optimization in conjunction with discrete-event simulation software.
  • PottersWheel – parameter estimation in ordinary differential equations (MATLAB toolbox, free for academic use).
  • pSeven – software platform for automation of engineering simulation and analysis, multidisciplinary optimization and data mining, developed by DATADVANCE.
  • SAS – a software suite developed by SAS Institute for advanced analytics (statistics, forecasting, machine learning, optimization, etc.), business intelligence, customer intelligence, data management, risk management, and many more.
  • SmartDO – multidisciplinary global design optimization, specialized in computer-aided engineering (CAE). using the direct global search approaches.
  • SNOPT – large-scale optimization problems.
  • The Unscrambler – product formulation and process optimization software.
  • TOMLAB – supports global optimization, integer programming, all types of least squares, linear, quadratic, and unconstrained programming for MATLAB. TOMLAB supports solvers like CPLEX, SNOPT, KNITRO and MIDACO.
  • VisSim – a visual block diagram language for simulation and optimization of dynamical systems.
  • WORHP – a large-scale sparse solver for continuous nonlinear optimization.

Freeware/free for academic use

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See also

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References

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  1. ^ Hall, Julian (21 September 2020). HiGHS: High-performance open-source software for linear optimization (PDF). Edinburgh, United Kingdom: University of Edinburgh. Retrieved 2022-02-27. Presentation.
  2. ^ "Projects". COIN-OR: Computational Infrastructure for Operations Research. 8 October 2014. Retrieved 10 March 2021.
  3. ^ Vanaret, Charlie; Leyffer, Sven (5 September 2024). Uno, a next-gen solver for unifying nonlinearly constrained nonconvex optimization. Argonne National Laboratory and Zuse Institute Berlin. Presentation.