|Project Name||Stars||Downloads||Repos Using This||Packages Using This||Most Recent Commit||Total Releases||Latest Release||Open Issues||License||Language|
|turbo.js - perform massive parallel computations in your browser with GPGPU.|
|Glchaos.p||685||9 months ago||4||bsd-2-clause||C++|
|3D GPUs Strange Attractors and Hypercomplex Fractals explorer - up to 256 Million particles in RealTime|
|Vulkan_minimal_compute||538||5 years ago||3||mit||C++|
|Minimal Example of Using Vulkan for Compute Operations. Only ~400LOC.|
|Kvantlattice||254||5 years ago||C#|
|A GPU accelerated fractal terrain renderer for Unity|
|Kvanttunnel||141||7 years ago||1||C#|
|GPU accelerated fractal tunnel renderer for Unity|
|Keikan||33||3 years ago||7||mit||Rust|
|An elegant (imo) rendering engine written in Rust.|
|Drawing cohomology fractals with the GPU.|
|Gpu_mandelbrot||15||a year ago||mit||Python|
|Interactive Mandelbrot set on GPU with Python|
|Fractal Explorer||13||8 days ago||Rust|
|A simple Julia Set and Mandelbrot interactive explorer built using Rust. It can run as a desktop application or on the web. Web demo available at https://lobis.github.io/fractal-explorer/|
|Redflash||13||4 years ago||6||C|
|Redflash is a physics-based GPU renderer based on Path Tracing implemented in NVIDIA® OptiX 6.0, which can consistently draw scenes with mixed Polygons and Raymarching|
Drawing cohomology fractals with the GPU. Try it out for yourself at https://henryseg.github.io/cohomology_fractals/
Derived from the websperience hypVR-Ray by Roice Nelson, Henry Segerman and Michael Woodard featured over at mtwoodard/hypVR-Ray, which was in turn based on the websperience by Vi Hart, Andrea Hawksley, Sabetta Matsumoto and Henry Segerman featured over at hawksley/hypVR.
This project is being worked on by David Bachman, Saul Schleimer, and Henry Segerman. Henry Segerman is partially supported by NSF grant DMS-1708239. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
Use arrow keys to move and "wasd" to rotate the camera. "q" and "e" roll the camera. Click the "Open Controls" tab for more options.
Running this locally requires a simple web server (to source the shader files at runtime), with the root at the same level as index.html. This can be done in python 3 by running the command "python -m http.server". In python 2, run the command "python -m SimpleHTTPServer 8000", then go to "http://localhost:8000/" in your browser. On Windows, you can set up a server in the Control Panel Administrative Tools, in the IIS Manager (you may need to turn this feature on first). NOTE: The server will need to have a MIME type configuration for .glsl files set to "text/plain".