1/7/2024 0 Comments Automata simulator online![]() ![]() ![]() Simulation result is displayed as static 3d object, visualized with Tree.js. Simulate elementary cellular automata with 1 spatial and 2 temporal dimensions. Simulator of cellular automata with 2 dimensions of time If a 2x2 block of pixeld contains 1 pixel of highly different color, then this block is rotated CV.This simulator lets you to watch the evolution of the image under reversible rule. What if block reversible cellular automaton rule is applied to a raster image? The effect might be curious. Take a snapshot, or tweet your discoveries The app is building the geometry of the cellular automata cells. If you find something interesting, be sure to tell us. There has never been a systematic study of these systems in 3D. Reversible Cellular Automata applied to image This app can simulate over a trillion trillion trillion different rulesets across tens of thousands of cubic cells. Sources: /dmishin/singlerot-smooth, in the "3d" folder.It displays world lines of the moving cells, as a 3-dimensional curves. 3D version of the Single Rotation simulator with smoothingģ-dimensonal version of the above application, using Web GL for visualization. Reversible CA ColliderĪ tool to automatically catalogize collisions of simple patterns in reversible cellular automata. Its primary purpose is a nice visual effect, for experimenting with reversible cellular automata see online simulator. Single Rotation cellular automaton with smooth interpolationĪ simulator of the Single Rotation cellular automaton, that tracks positions of the cells and uses Lancsoz interpolation to add an intermediate frames. Random initial conditions in this rule produce lots of different spaceships, some of them are in this catalog. Single Rotation is a simple reversible cellular automaton, that operates on a field with Margolus neighborhood. ![]() Single Rotation rule: remarkably simple and rich rule.Introduction to reversible cellular automata and simulator.Online (no installation needed) simulator of reversible cellular automata with Margolus neighborhood. It supports arbitrary large configurations of cells, limited only by available memory. Simulator of cellular automata, acting on an regular tilingof the hyperbolic plane. It is inspired by the " Dichronauts" novel by Greg Egan. The field of the simulator is a rectangular lattice of cells, where each cell can be either dead. The partition of the cells alternates between the set of 2 × 2 blocks indicated by the solid blue lines, and the set of blocks indicated by the dashed red lines. It has hyperbolas instead of circles, and every cell has infinite number of neighbors. The Margolus neighborhood for a two-dimensional block cellular automaton. That live on the Minkovski plane - a pseudo-metric space, where the distance between two points is given by Δx²−Δy². Minkovski plane cellular automata simulator ![]()
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