Combines symmetric (e.g., AES-256) and post-quantum asymmetric algorithms for enhanced security.
Learn more »The Quantum Threat is Real. Our Solution is Ready.
Traditional encryption methods like RSA and ECC are facing an existential threat from advancements in quantum computing. Algorithms like Shor’s and Grover’s could soon break the cryptographic foundations of our digital world. Project QRE is developing a quantum-resistant encryption system to safeguard sensitive data for the future.
Our Core Innovations
Hybrid Cipher Layering
Quantum Noise Entropy (QNE)
Introduces dynamic, quantum-inspired randomness into ciphertext to thwart brute-force attacks.
Learn more »Entropy Anchoring
Generates robust keys from real-world chaos, providing novel high-quality entropy for security.
Learn more »Development Roadmap
Phase 1: Proof-of-Concept (PoC)
Ended June 2025
Goals: Implement Hybrid Cipher Layering (AES-256 + Lattice), simulate Quantum Noise Entropy (QNE), use pre-collected solar flare data for Entropy Anchoring.
Deliverable: Functional PoC with basic encryption/decryption capabilities.
Phase 2: Prototype
June 2025 – June 2026 (12 Months)
Goals: Optimize performance, explore integration of hardware Quantum Random Number Generators (QRNGs) if feasible, conduct initial security audits, develop API and user interface.
Deliverable: Enhanced prototype ready for pilot testing.
Phase 3: Full Implementation
July 2027 – December 2028 (18 Months)
Goals: Scale system for production, incorporate pilot testing feedback, pursue certification (e.g., NIST Post-Quantum Cryptography standards).
Deliverable: Production-ready quantum-resistant encryption system.
Current Status: We Are Here!
We are actively working on Phase 2: Prototype. Our focus is on optimizing the performance of our Proof-of-Concept, hardening security through internal audits, and developing a robust API for future integration. We are also exploring the feasibility of integrating hardware-based Quantum Random Number Generators (QRNGs).
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Have a question or want to follow our progress? We'd love to hear from you.
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