Gray-Scott Labyrinth Pattern

Complex maze-like patterns emerge from reaction-diffusion dynamics, creating intricate winding structures similar to coral growth, brain coral patterns, and dendritic formations in nature.

Pattern Presets

Parameters

Feed Rate (F): 0.0290

Kill Rate (K): 0.0570

Complexity: 50

Brush Size: 10

Controls

FPS: 60

Iterations: 0

Grid Size: 256×256

Brush Size: 10

Pattern Classification

• Labyrinth: F≈0.029, K≈0.057

• Maze: F≈0.035, K≈0.058

• Coral: F≈0.046, K≈0.059

• Worms: F≈0.058, K≈0.065

How It Works

Labyrinth patterns form when:

• Chemical V creates branching pathways
• Diffusion creates winding corridors
• F and K values favor connected structures
• Click and drag to add chemical V

The maze self-organizes into complex, connected networks resembling natural coral formations and neural pathways.