Julia is a high-level dynamic programming language designed to address the needs of high-performance numerical analysis and computational science. It provides a sophisticated compiler, distributed parallel execution, numerical accuracy, and an extensive mathematical function library.
CEED Library: Code for Efficient Extensible Discretizations
This repository is a collection of implementations for various algorithms and data structures, written in different programming languages. Explore efficient solutions to common computational problems and delve into the underlying concepts of computer science.
A fractal simulator implemented in C and MLX library.
A bioinformatic toolkit to align genome assemblies into pangenome graphs
Geometry Processing tool inside the julia REPL
A program to visualize the Mandelbrot and Julia fractals with 42's minilibx
fract-ol is a project where you’ll explore and render Mandelbrot and Julia fractals using MiniLibX. You’ll learn how to implement the algorithms for these fractals and gain experience with graphics programming and interactive controls.
This is a set of simple programs that can be used to explore the features of a parallel platform.
Part of 42 projects. An interactive fractal explorer written in C with MiniLibX. Supports Mandelbrot, Julia, and bonus fractals with zoom, pan, and color palettes.
An interpreted programming language utilizing C and Python for fast computing and good results.
Dummy repository for libHSL
Z-domain IIR Butterworth filter design in C/MATLAB/Julia.
My first buffered graphics project, a fractal renderer.
A graphical project exploring fractals and complex dynamics.
Created by Jeff Bezanson, Stefan Karpinski, Viral B. Shah, Alan Edelman
Released February 14, 2012