The world's first biometric-tied quantum encryption system that's fundamentally unbreakable by conventional or quantum computers.
User provides unique biological markers
Creates entangled particle pairs
Unique encrypted output
Each hash operation creates a pair of entangled quantum states that remain linked regardless of distance. The hash only resolves when both states are observed simultaneously with the correct biometric input.
No persistent encryption keys exist in the system. Authentication occurs only during the quantum observation event, leaving no residual data that could be compromised.
Each encryption operation is uniquely tied to the user's biological markers (retina, fingerprint, voice patterns) through quantum superposition, making it impossible to decrypt without the exact biological input.
Even with unlimited quantum computing power, the encryption cannot be broken as it relies on the fundamental properties of quantum mechanics rather than mathematical complexity.
Completed Q2 2023
Built the foundational quantum processing units and basic entanglement protocols. Established the first working prototypes of biometric-quantum hybrids.
Current Phase
Creating developer tools and APIs for integration with existing systems. Focus on security audits and performance optimization.
Planned Q1 2024
Scaling the quantum network infrastructure globally. Partnering with governments and enterprises for mass adoption.
Our work is completely open-source. Join our community of researchers and developers building the future of encryption.