MathNet.Numerics.FSharp 3.15.0

Prefix Reserved

There is a newer version of this package available.
See the version list below for details.

dotnet add package MathNet.Numerics.FSharp --version 3.15.0

NuGet\Install-Package MathNet.Numerics.FSharp -Version 3.15.0

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="MathNet.Numerics.FSharp" Version="3.15.0" />

For projects that support PackageReference, copy this XML node into the project file to reference the package.

paket add MathNet.Numerics.FSharp --version 3.15.0

The NuGet Team does not provide support for this client. Please contact its maintainers for support.

#r "nuget: MathNet.Numerics.FSharp, 3.15.0"

#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 MathNet.Numerics.FSharp as a Cake Addin
#addin nuget:?package=MathNet.Numerics.FSharp&version=3.15.0

// Install MathNet.Numerics.FSharp as a Cake Tool
#tool nuget:?package=MathNet.Numerics.FSharp&version=3.15.0

The NuGet Team does not provide support for this client. Please contact its maintainers for support.

Math.NET Numerics is the numerical foundation of the Math.NET project, aiming to provide methods and algorithms for numerical computations in science, engineering and every day use. Supports F# 3.0 on .Net 4.0, .Net 3.5 and Mono on Windows, Linux and Mac; Silverlight 5 and Windows 8 with PCL portable profile 47; Android/iOS with Xamarin.

Product	Compatible and additional computed target framework versions.
.NET Framework	net35 is compatible. net40 is compatible. net403 was computed. net45 was computed. net451 was computed. net452 was computed. net46 was computed. net461 was computed. net462 was computed. net463 was computed. net47 was computed. net471 was computed. net472 was computed. net48 was computed. net481 was computed.

Compatible target framework(s)

Included target framework(s) (in package)

Learn more about Target Frameworks and .NET Standard.

- FSharp.Core (>= 3.1.2.5)
- MathNet.Numerics (= 3.15.0)

NuGet packages (36)

Showing the top 5 NuGet packages that depend on MathNet.Numerics.FSharp:

Package	Downloads
MathNet.Symbolics Math.NET Symbolics is a basic open source computer algebra library for .Net and Mono. Written in F# but works well in C# as well. Supports .Net Framework 4.5 or higher and .Net Standard 2.0 or higher, on Windows, Linux and Mac.	563.9K
FsLab FsLab is a combination package that supports doing data science with F#. FsLab includes literate scripting converted to HTML and PDF, and by default references Deedle (a data frame library), FSharp.Data (for data access) and XPlot (for visualization). You can optionally add any other nuget packages.	202.2K
OPTANO.Modeling The OPTANO Modeling library allows you to use C# as a Modeling language for mathematical optimization (mixed integer programming (MIP) and linear programming (LP)). It has a lightweight footprint and connects to several solvers.	151.0K
Deedle.Math Deedle implements an efficient and robust frame and series data structures for manipulating with structured data. It supports handling of missing values, aggregations, grouping, joining, statistical functions and more. For frames and series with ordered indices (such as time series), automatic alignment is also available. This package installs the core Deedle package, Deedle.Math extension and Mathnet.Numerics to extend mathematic functions on Deedle Frames and Series.	117.7K
Microsoft.Quantum.Research.Simulation Quantum research libraries for quantum simulation (non-commercial).	84.7K

GitHub repositories (3)

Showing the top 3 popular GitHub repositories that depend on MathNet.Numerics.FSharp:

Repository	Stars
StockSharp/StockSharp Algorithmic trading and quantitative trading open source platform to develop trading robots (stock markets, forex, crypto, bitcoins, and options).	7.9K
mathnet/mathnet-numerics Math.NET Numerics	3.6K
NethermindEth/nethermind A robust execution client for Ethereum node operators.	1.4K

Version	Downloads	Last updated
6.0.0-beta2	114	a month ago
6.0.0-beta1	24,502	12/17/2023
5.0.0	945,435	4/3/2022
5.0.0-beta02	217	4/3/2022
5.0.0-beta01	19,366	3/6/2022
5.0.0-alpha16	217	2/27/2022
5.0.0-alpha15	219	2/27/2022
5.0.0-alpha14	207	2/27/2022
5.0.0-alpha13	200	2/27/2022
5.0.0-alpha12	207	2/27/2022
5.0.0-alpha11	200	2/27/2022
5.0.0-alpha10	217	2/19/2022
5.0.0-alpha09	206	2/13/2022
5.0.0-alpha08	280	12/23/2021
5.0.0-alpha07	214	12/19/2021
5.0.0-alpha06	220	12/19/2021
5.0.0-alpha05	235	12/19/2021
5.0.0-alpha04	235	12/19/2021
5.0.0-alpha03	248	12/5/2021
5.0.0-alpha02	433	7/11/2021
5.0.0-alpha01	367	6/27/2021
4.15.0	549,015	1/7/2021
4.14.0	1,713	1/1/2021
4.13.0	625	12/30/2020
4.12.0	37,349	8/2/2020
4.11.0	129,169	5/24/2020
4.10.0	702	5/24/2020
4.9.1	20,639	4/12/2020
4.9.0	75,048	10/13/2019
4.8.1	196,006	6/11/2019
4.8.0	2,466	6/2/2019
4.8.0-beta02	537	5/30/2019
4.8.0-beta01	588	4/28/2019
4.7.0	136,182	11/11/2018
4.6.0	3,693	10/19/2018
4.5.1	33,713	5/22/2018
4.5.0	1,353	5/22/2018
4.4.1	1,802	5/6/2018
4.4.0	13,905	2/25/2018
4.3.0	1,320	2/24/2018
4.2.0	2,633	2/21/2018
4.1.0	2,239	2/19/2018
4.0.0	6,028	2/11/2018
4.0.0-beta07	1,022	2/10/2018
4.0.0-beta06	1,046	2/3/2018
4.0.0-beta05	1,049	1/22/2018
4.0.0-beta04	1,036	1/13/2018
4.0.0-beta03	1,008	1/9/2018
4.0.0-beta02	1,135	1/7/2018
4.0.0-beta01	989	1/7/2018
4.0.0-alpha04	970	1/5/2018
4.0.0-alpha03	969	12/26/2017
4.0.0-alpha02	950	11/30/2017
4.0.0-alpha01	945	11/26/2017
3.20.2	12,777	1/22/2018
3.20.1	1,556	1/13/2018
3.20.0	52,329	7/15/2017
3.20.0-beta01	967	5/31/2017
3.19.0	8,087	4/29/2017
3.18.0	15,240	4/9/2017
3.17.0	10,878	1/15/2017
3.16.0	1,850	1/3/2017
3.15.0	1,429	12/27/2016
3.14.0-beta03	998	11/20/2016
3.14.0-beta02	942	11/15/2016
3.14.0-beta01	980	10/30/2016
3.13.1	72,476	9/6/2016
3.13.0	1,677	8/18/2016
3.12.0	8,418	7/3/2016
3.11.1	14,674	4/24/2016
3.11.0	8,608	2/13/2016
3.10.0	11,250	12/30/2015
3.9.0	4,274	11/25/2015
3.8.0	52,434	9/26/2015
3.7.1	4,237	9/21/2015
3.7.0	17,040	5/9/2015
3.6.0	11,984	3/22/2015
3.5.0	7,623	1/10/2015
3.4.0	2,052	1/4/2015
3.3.0	3,128	11/26/2014
3.3.0-beta2	1,090	10/25/2014
3.3.0-beta1	1,128	9/28/2014
3.2.3	25,721	9/6/2014
3.2.2	1,448	9/5/2014
3.2.1	1,874	8/5/2014
3.2.0	1,421	8/5/2014
3.1.0	4,137	7/20/2014
3.0.2	1,886	6/26/2014
3.0.1	1,498	6/24/2014
3.0.0	10,927	6/21/2014
3.0.0-beta05	1,178	6/20/2014
3.0.0-beta04	1,135	6/15/2014
3.0.0-beta03	1,141	6/5/2014
3.0.0-beta02	1,114	5/29/2014
3.0.0-beta01	3,947	4/14/2014
3.0.0-alpha9	1,203	3/29/2014
3.0.0-alpha8	1,170	2/26/2014
3.0.0-alpha7	7,686	12/30/2013
3.0.0-alpha6	1,299	12/2/2013
3.0.0-alpha5	3,913	10/2/2013
3.0.0-alpha4	1,220	9/22/2013
3.0.0-alpha1	1,149	9/1/2013
2.6.0	14,047	7/26/2013
2.5.0	2,178	4/14/2013
2.4.0	1,862	2/3/2013
2.3.0	1,959	11/25/2012
2.2.1	1,880	8/29/2012
2.2.0	1,658	8/27/2012
2.1.2	6,650	10/9/2011
2.1.1	1,860	10/3/2011
2.1.0.19	2,445	10/3/2011

FFT: MKL native provider backend.
FFT: 2D and multi-dimensional FFT (only supported by MKL provider, managed provider pending).
FFT: real conjugate-even FFT (only leveraging symmetry in MKL provider).
FFT: managed provider significantly faster on x64.
Linear Algebra: pointwise trigonometric and basic functions ~Albert Pang
Linear Algebra: better support for F# built-in operators (sqrt, sin, exp, ..) ~Albert Pang
Linear Algebra: pointwise power operator (F#)
Linear Algebra: enable experimental matrix product implementation
Linear Algebra: better support for matrix to/from row-major arrays and enumerables
Linear Algebra: transport allows specifying a result matrix to transpose into, inplace if square
Linear Algebra: vector and matrix AsArray and similar to access internal arrays if applicable
Linear Algebra: vector and matrix pointwise min/max and absmin/absmax
Linear Algebra: dot-power on vectors and matrices, supporting native providers.
Linear Algebra: matrix Moore-Penrose pseudo-inverse (SVD backed).
Provider Control: separate Control classes for LA and FFT Providers.
Provider Control: avoid internal exceptions on provider discovery.
Distributions: fix misleading inline docs on Negative-Binomial.
Generate: linear integer ranges
Root Finding: extend zero-crossing bracketing in derivative-free algorithms.
Window: periodic versions of Hamming, Hann, Cosine and Lanczos windows.
Special Functions: more robust GammaLowerRegularizedInv (and Gamma.InvCDF).
BUG: ODE Solver: fix bug in Runge-Kutta second order routine ~Ksero