Explore the mathematics of synchronization through interactive simulations
Watch 16,384 oscillators transition from chaos to perfect synchronization. Features traveling waves, spiral vortices, and phase transitions.
⚡ 128×128 grid • 5 topologies • Particle tracers
Experience synchronization in three dimensions with 262,144 oscillators. See phase crystals form and waves propagate through space.
⚡ 64×64×64 volume • WebGL rendering • Slice planes
Every single pixel is an oscillator! Create interference patterns and watch waves propagate through a sea of mathematics.
⚡ Up to 640,000 oscillators • 6 modes • Direct interaction
Multiple coupled layers interact like neural networks. Apply external fields and watch information flow between dimensions.
⚡ 5 layers • Cross-coupling • External fields
Created with ❤️ by A.J. Vasquez • Delaware Valley University