Your Data Is Safe From
Computers That Don't Exist Yet.
RedQueen implements NIST-standardized post-quantum cryptography across all layers — transport, signatures, privacy, and at-rest encryption. Your data is protected today against the quantum computers of tomorrow.
Implemented Algorithms
| Algorithm | Standard | Purpose | Status |
|---|---|---|---|
| ML-KEM-768 | NIST FIPS 203 | Key encapsulation (transport encryption) | ● Active |
| ML-DSA-65 | NIST FIPS 204 | Digital signatures (agent authentication) | ● Active |
| ML-DSA-87 | NIST FIPS 204 | High-security digital signatures | ● Active |
| SLH-DSA-128s | NIST FIPS 205 | Stateless hash-based signatures | ● Active |
| FN-DSA-512 | NIST FIPS 206 | Falcon lattice-based signatures | ● Active |
| zk-STARKs | Custom | Zero-knowledge proof verification | ● Beta |
| Differential Privacy | Custom | Privacy-preserving analytics | ● Beta |
| FHE (CKKS) | Custom | Fully homomorphic encryption | ● Planned |
Four Layers of Protection
Transport
ML-KEM-768 key encapsulation for all agent-to-agent communication. Hybrid TLS 1.3 + post-quantum.
Signatures
ML-DSA-65 digital signatures for agent authentication and payload integrity verification.
Privacy
Differential Privacy for analytics, zk-STARK proofs for verification without data exposure.
At-Rest
AES-256-GCM for data at rest, with ML-KEM-768 key wrapping for quantum-safe key management.
Hybrid Transition Timeline
Hybrid Classical + PQC
Classical algorithms (RSA, ECDSA) run alongside PQC algorithms. Both must verify for a payload to pass.
PQC Primary
PQC algorithms become primary. Classical algorithms remain as fallback for legacy systems.
PQC Only
Classical algorithms deprecated. Full post-quantum security across all layers.
FHE + zk-STARK Production
Fully homomorphic encryption and zero-knowledge proofs in production for privacy-preserving analytics.