A collection of resources regarding the interplay between differential equations, deep learning, dynamical systems, control and numerical methods.

Repository for Numerical Analysis course given by Assoc. Prof. Dr. Bora Canbula at Computer Engineering Department of Manisa Celal Bayar University.

Numerical Methods in SciPy

Root finding functions for Julia

Examples and demos showing how to call functions from the NAG Library for Python

Numerical Analysis code from the Oscar Veliz YouTube Channel

A simple cross platform .NET API for Intel MKL

A modern c++ root finding algorithm based on the original Jenkins-Traub RPOLY software.

Reverse engineering, getting root access to Tenda MW6 wifi mesh router

Fatou sets in Julia (Fractals, Newton basins, Mandelbrot)

Fast complex polynomial root finder, with support for arbitrary precision calculations

Root-Finder is a header-only univariate polynomial solver, which finds/counts all real roots of any polynomial within any interval.

Slides/notes and Jupyter notebook demos for an introductory course of numerical analysis/scientific computing

Classification of John Burkardt's many Fortran 90 codes

Computational Methods for Numerical Analysis

Root repo - A database for android root methods

Qt application to visualize newton fractals

Modern Fortran implementation of the DDEABM Adams-Bashforth algorithm

library of numerical methods using Armadillo

Root-Finder is a header-only univariate polynomial solver, which finds/counts all real roots of any polynomial within any interval.