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Scalable entropy built for modern infrastructure — from single nodes up to enterprise-level multi-GB/s.
Arbitrary-length keys, full-spectrum sensitivity, and dynamic entropy mixing for uncompromising resilience.
Designed to resist quantum threats, free from algebraic weaknesses, and built for long-term security.
Dynamic input flexibility with unbounded security scaling — SOPH adapts seamlessly, from extreme cryptographic strength to ultra-high throughput on demand.
No fixed block size — SOPH delivers continuous entropy streams in flexible formats, adapting seamlessly to any application or integration.
Next-gen cryptography that amplifies security with every cycle — outputs rapidly detach from the key, with entropy compounding step by step.
Scalable entropy built for modern infrastructure — from single nodes up to enterprise-level multi-GB/s.
Arbitrary-length keys, full-spectrum sensitivity, and dynamic entropy mixing for uncompromising resilience.
Designed to resist quantum threats, free from algebraic weaknesses, and built for long-term security.
Dynamic input flexibility with unbounded security scaling — SOPH adapts seamlessly, from extreme cryptographic strength to ultra-high throughput on demand.
No fixed block size — SOPH delivers continuous entropy streams in flexible formats, adapting seamlessly to any application or integration.
Next-gen cryptography that amplifies security with every cycle — outputs rapidly detach from the key, with entropy compounding step by step.
Not just another random generator. This is a new entropy core - scalable, verifiable, and quantum resistant by design. Built as the foundation for a full cryptography eco-system.
8.000
4
49.99%
256+
SOPH isn't a cipher or a block generator - it's an entropy engine. Instead of replaying seeds or leaning on fragile hadwarenoise, SOPH continuosly builds entropy builds entropy from a dynamically evolving state.
Security in SOPH is foundational, not additive. By avoiding vulnerable algebraic structures, SOPH provides resilience against emerging quantum threats and addapts security levels to fit diverse risk environments.
Each output advances SOPH into a new state, so no two results are alike; exposures don't cascade forward, and security compounds with continued use.
SOPH seals its history: outputs are one-way reductions of evolving states, leaving past configurations unrecoverable and immune to replay.
SOPH scales entropy from API calls to multi-TB/s fleet streams, delivering randomness at line rate without hardware bottlenecks.
Each tier sets a starting foundation — with predefined entropy caps, API limits, concurrent streams, and throughput. Pick the tier that fits your needs, then scale within it as you grow.