StarMath 2.0.15.9041

There is a newer version of this package available.
See the version list below for details.
dotnet add package StarMath --version 2.0.15.9041                
NuGet\Install-Package StarMath -Version 2.0.15.9041                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="StarMath" Version="2.0.15.9041" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add StarMath --version 2.0.15.9041                
#r "nuget: StarMath, 2.0.15.9041"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install StarMath as a Cake Addin
#addin nuget:?package=StarMath&version=2.0.15.9041

// Install StarMath as a Cake Tool
#tool nuget:?package=StarMath&version=2.0.15.9041                

While there are already countless math libraries for performing common matrix/array functions, StarMath is distinguished by its simplicity and flexbility. There is no need to declare vectors and matrices in a specific library format. It works simliar to Math.function calls in C#.
The library is small and fully compiles to a Portable Class Library (for all platforms). StarMath (version > 2.0) takes advantage of  'extensions', which allows for concise representations of many functions. Now you can write either:
StarMath.multiply(A, x);
or
A.multiply(x);

There are no supported framework assets in this package.

Learn more about Target Frameworks and .NET Standard.

This package has no dependencies.

NuGet packages (2)

Showing the top 2 NuGet packages that depend on StarMath:

Package Downloads
TVGL

This dynamic library is focused on Computational Geometry functions likes the ones you would find in CGAL. As opposed to copying directly others work, we have sought to create functions from scratch that are optimized or straightforward as a C# implementation. As a .NET Standard library (and a legacy portable class library), the functions can be accessed from other managed code.

OOOT

A library (.dll) of various linear, nonlinear, and stochastic numerical optimization techniques. While some of these are older than 40 years, many have yet to take advantage of an object-oriented programming model. This toolbox was originally created to aid in the automated design of various engineering artifacts. The following “class diagram” shows the main optimization methods that have currently been implemented – as well as some insight into organization of classes and objects. The best way to understand how to use OOOT, is through examples. There are two basic types of methods implemented so far: methods for continuous variables and methods for discrete variables. Approaches for mixed methods such as Branch-and-Bound are planned but not currently included. ClassDiagram1Many of the optimization methods for real valued decision variables will require that a line-search method be specified (Arithmetic Mean, Golden Section, DSC-Powell) and a search direction method (Cyclic Coordinate Search, Steepest Descent, Powell’s Method, Fletcher-Reeves, or Broyden-Fletcher-Goldfarb-Shanno). With this modular design it is possible to reconfigure these to create 80 unique algorithms. In addition to these there are also ten different convergence criteria that can be added individually or in any combination to these 80 algorithms. Read more about convergence methods here. But, one of the biggest advantages of the toolbox is the way that objective functions, equalities and inequalities can be easily added to the optimization process. Most (if not all open source approaches) optimization codes requires the problem specific details to be compiled along with the algorithm. Here, the problem formulation can be in another library or exe and can be customized at run-time instead of compile time. It is even possible to have the optimization algorithm change in response to the nature of the design variables and the number of constraints. Read more about problem formulation

GitHub repositories (1)

Showing the top 1 popular GitHub repositories that depend on StarMath:

Repository Stars
DynamoDS/Dynamo
Open Source Graphical Programming for Design
Version Downloads Last updated
2.0.20.204 6,667 2/4/2020
2.0.17.1019 61,747 10/20/2017
2.0.17.725 3,671 7/25/2017
2.0.17.413 1,855 4/14/2017
2.0.16.529 1,377 5/29/2016
2.0.16.423 1,355 4/24/2016
2.0.16.312 1,184 3/12/2016
2.0.16.311 1,125 3/11/2016
2.0.16.229 1,094 2/29/2016
2.0.16.228 1,505 2/28/2016
2.0.16.1 1,197 2/20/2016
2.0.15.9091 1,393 10/5/2015
2.0.15.9090 1,247 10/2/2015
2.0.15.9088 1,274 9/18/2015
2.0.15.9084 1,128 9/14/2015
2.0.15.9083 1,127 9/14/2015
2.0.15.9082 1,133 9/12/2015
2.0.15.9080 1,124 9/9/2015
2.0.15.9041 1,102 9/4/2015
2.0.15.905 1,105 9/6/2015
2.0.15.904 1,169 9/4/2015
2.0.15.807 1,442 8/7/2015
2.0.15.806 1,386 8/7/2015
2.0.15.716 1,197 7/16/2015
2.0.15.707 1,175 7/7/2015
2.0.15.630 1,155 6/30/2015
2.0.15.217 1,570 2/18/2015
2.0.15.117 1,217 1/17/2015
2.0.14.1207 1,439 12/7/2014
2.0.14.1206 1,367 12/7/2014
2.0.14.1114 75,441 11/14/2014
1.0.20.204 552 2/4/2020
1.0.14.827 2,983 8/26/2014
1.0.14.826 1,232 8/26/2014
1.0.14.808 1,219 8/8/2014
1.0.14.531 1,246 6/4/2014