True randomness, physical first.
A chaotic double pendulum generating cryptographic-grade entropy—monitored, bias-free, and delivered via secure API.
Why chaos? A double pendulum operates where tiny changes explode into wildly different trajectories. That sensitivity to initial conditions is the physics that powers high entropy.
What we capture. We sample position and velocity thousands of times per second, hash the raw data to remove bias, and emit encrypted entropy chunks—unpredictability grounded in real motion.
What you get. Cryptographic-grade randomness for keys, simulations, and secure communications, plus live health monitoring to ensure the pendulum stays chaotic.
Why Chaos Core
Physical entropy, continuously validated, and production-ready for sensitive systems.
Physical chaos
True entropy from a chaotic double pendulum, not simulated noise.
Cryptographic-grade
Uniform distribution validated against NIST randomness suites.
Continuous health
Live monitoring to ensure the chaotic system stays unpredictable.
API ready
Secure, real-time access to high-quality randomness.
Entropy lab
Visualize the chaotic source and watch the live entropy stream.
Tap generate to pull a fresh entropy chunk from the client-side chaos simulator. Use it as a seed for keys or session tokens.
From chaos to API
The path from physical randomness to secure delivery.
Double pendulum moves in a non-repeating pattern.
Sensors track position/velocity thousands of times per second.
Hashing removes bias to produce pure random bits.
Entropy streamed over a secure, real-time API.
Where Chaos Core fits
Mission-critical randomness across security, simulation, and communications.
SSL/TLS, SSH, PGP keys seeded with true randomness.
Monte Carlo and probabilistic models without bias.
One-time pads and session keys for E2E messaging.
Ready to embed true randomness?
We’re refining the prototype. Join the waitlist for API access, research updates, and partnership opportunities.