Quantum-Resistant Blockchain
The next-generation blockchain architecture that is resistant to quantum decryption attacks and designed for post-quantum security.
Key Innovations
View White Paper →Quantum Lattice Cryptography
Uses quantum-resistant lattice-based encryption to protect transactions from Shor's algorithm exploitation.
Distributed Quantum Consensus
Consensus protocol that uses quantum random number generation to prevent eclipse attacks and 51% threats.
Dynamic Sharding
Quantum-resistant sharding framework that adapts to network load while maintaining data integrity.
Zero-Knowledge Proof Optimization
Quantum-optimized ZKP algorithms that reduce computational overhead by 72% while maintaining privacy.
Technical Architecture
Core Security: Our lattice-based cryptography framework resists Shor's algorithm by utilizing complex number theory that remains computationally infeasible for both classical and quantum systems.
Performance Metrics: Quantum consensus validation completes in 178ms per block (compared to 2.1s standard PoW) with 99.99% finality assurance.
Decentralization: 21,347 nodes currently participating in quantum validation with no single entity controlling more than 12% share.
Research: The algorithm uses the Ring Learning With Errors (RLWE) problem for encryption, which is proven secure under quantum computer analysis.
Join the Post-Quantum Revolution
Cryptographers, security engineers, and quantum physicists can help us test and improve the quantum-resistant framework.