Create Fractals Using Complex-Valued Neural Networks!
Project description
Neural Fractal
A Library for Visual Exploration of Dynamical Systems defined by Neural Networks
Home Page
The dynamical system that generated the above fractal has been explained in the documentation.
Features
- Define Dynamical Systems Using Complex-Valued Neural Networks
- GPU Support for Accelerated Sampling and Rendering
- Pseudo-Coloring Utilities
- Built on Top of PyTorch
About the package
Neural Fractal has been developed for exploring the properties of dynamical systems defined by neural networks and specially complex-valued neural networks. Fractals are visualizations of Chaos. They have infinite self-similar patterns. One way to generate fractals is by applying a function repeatedly on a set of points and keeping the points that do not diverge to infinity. Interestingly, Even dynamical systems constructed by simple functions in this way can generate amazing fractals. But what happens if instead of a simple function we use a neural network? Repeatedly applying a neural network is equivalent to a recurrent neural network which is able to model complicated non-linear dynamical systems. Reservoir computing has demonstrated even completely random RNNs can construct strange and interesting dynamics. This package is an attempt to explore the strange and beautiful world of fractals
Installation
pip install nfractal
Quick Start
See the Home Page
Features Under Development
- Automatic pseudo-coloring
- Gnerating zoom animations
Main Contributors
- Amirabbas Asadi, Independet AI and computer science researcher
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.