This system visualizes the generation of randomness (entropy) through chaotic interaction. Like a physical lava lamp, the organic movements of the digital fluid generate unpredictable states.
Input Sources: Mouse movement, micro-timing variations, and user interaction.
Homage to the LavaRand wall and physical encryption systems.
Why Chaos? Cryptography requires truly unpredictable data to create secure keys. The Entropy Wall relies on Chaos Theory, which states that complex systems are highly sensitive to initial conditions (the butterfly effect). This sensitivity turns our simple inputs into excellent generators of true randomness.
Hashrate: The speed at which the system collects new chaotic inputs (like mouse movements) and converts them into random bits.
Chaos Level: A measure of the system's current unpredictability. Higher turbulence ensures better quality randomness.
Pool Size: The total amount of accumulated entropy (random bits) ready to be used.
DEBUG MODE ACTIVE