DIBLE — Device-bound Post-Quantum Encryption
DIBLE (Hierarchical Chaos Device Identity-Based Lattice Encryption) is a PORTAL VII cryptographic suite combining lattice-based post-quantum primitives with chaos-theoretic entropy to provide device-bound, high-assurance encryption and homomorphic capabilities.
Key Features
- Quantum-resistant lattice cryptography (256-bit security level)
- Device identity binding for hardware-tied encryption
- Homomorphic operations for compute-on-encrypted-data
- Chaos-theory-backed entropy and multi-dimensional randomness
- CLI, integration library, and optional VS Code tooling
Use Cases
DIBLE is designed for enterprise data protection, secure communications, cloud-safe homomorphic workflows, IoT device security, and blockchain integrations where post-quantum resistance and device-binding provide strong guarantees.
Get the Code
Explore the full project, documentation, and quick-start instructions on GitHub.
View DIBLE on GitHubThis page is a summary generated from the DIBLE repository README and intended to provide an overview. For implementation details, tests, benchmarks and integration instructions please visit the project repository.