Enhancing NTRUEncrypt Security Using Markov Chain Monte Carlo Methods: Theory and Practice
By: Gautier-Edouard Filardo, Thibaut Heckmann
Potential Business Impact:
Makes secret codes safe from future super-computers.
This paper presents a novel framework for enhancing the quantum resistance of NTRUEncrypt using Markov Chain Monte Carlo (MCMC) methods. We establish formal bounds on sampling efficiency and provide security reductions to lattice problems, bridging theoretical guarantees with practical implementations. Key contributions include: a new methodology for exploring private key vulnerabilities while maintaining quantum resistance, provable mixing time bounds for high-dimensional lattices, and concrete metrics linking MCMC parameters to lattice hardness assumptions. Numerical experiments validate our approach, demonstrating improved security guarantees and computational efficiency. These findings advance the theoretical understanding and practical adoption of NTRU- Encrypt in the post-quantum era.
Similar Papers
Post-Quantum Cryptography: An Analysis of Code-Based and Lattice-Based Cryptosystems
Cryptography and Security
Makes secret codes safe from future computers.
Quantum Speedups for Markov Chain Monte Carlo Methods with Application to Optimization
Quantum Physics
Speeds up computer guessing games for science.
On the Semantic Security of NTRU -- with a gentle introduction to cryptography
Cryptography and Security
Protects secrets from future super-powerful computers.