Rust numeric library with R, MATLAB & Python syntax
-
Updated
May 17, 2024 - Rust
Rust numeric library with R, MATLAB & Python syntax
Pure Javascript manually written 👌 implementation of BLAS, Many numerical software applications use BLAS computations, including Armadillo, LAPACK, LINPACK, GNU Octave, Mathematica, MATLAB, NumPy, R, and Julia.
A software to write an optimized code that calculates inverse and determinant of N by N matrix.
Autodiff is a numerical library for the Go programming language that supports automatic differentiation. It implements routines for linear algebra (vector/matrix operations), numerical optimization and statistics
A small javascript linear algebra library
Fit polynomial curves to given points using least squares regression
This project is created for learning the real world application of linear algebra which contains some core concepts like determinants, matrix, eigen-value, eigen-vector, etc to create a real-world application like steganography, grafh-theory, analysis of spread of disease, image processing, cryptography etc. This can have small bugs like excepti…
Complete codes of all Data Structures and algorithms subject
Collection of Generic Data Structures and Algorithms in C.
AUT Spring 2022 Linear Algebra Projects
A matrix library for JavaScript with ability to calculate determinants, inverse, RREF and perform other simple matrix operations.
C++ CUDA-compatible template class that provides an interface for generic purpose matrix related algorithms and computations. Includes Matlab-like functions. This is mainly an example of how to use CUDA code with C++. Don't expect such high performance.
A professional, comprehensive and high-performance library for you to manipulate matrices.
Simple C++ library for dealing with matrices.
The Cramer, Determinant, Coefficient, Multiplication for the matrix.
a very simple implementation of determinant calculation of a 3 * 3 matrix in a GUI form
Safe and fast mathematical operations with static arrays in the Rust programming language
This project implements a new algorithm for complex matrix processing required by Polarimetric Synthetic Aperture Radar (PolSAR) using C/C++ and Open Computing Language (OpenCL)
Notes on determinants and other concrete algebra (PRIMES 2015 reading project: problems and solutions)
Add a description, image, and links to the determinant topic page so that developers can more easily learn about it.
To associate your repository with the determinant topic, visit your repo's landing page and select "manage topics."