Tight Quantum-Security Bounds and Parameter Optimization for SPHINCS+ and NTRU
Ruopengyu Xu, Chenglian Liu
TL;DR
This paper provides tight quantum security bounds and optimized parameters for SPHINCS+ and NTRU, addressing quantum threats with improved theoretical models and practical parameter settings.
Contribution
It introduces a comprehensive quantum attack model, improves security bounds, and optimizes parameters for SPHINCS+ and NTRU, enhancing quantum resistance.
Findings
Reduced SPHINCS+ parameters by 15-20%
Established tight security bounds for NTRU
Enhanced NTRU-to-LWE reduction
Abstract
The imminent threat of quantum computing necessitates quantum-resistant cryptosystems. This paper establishes tight security bounds for two NIST PQC finalists: SPHINCS+ (hash-based) and NTRU (lattice-based). Our key contributions include: (1) A quantum attack model incorporating decoherence effects () and parallelization limits; (2) Improved entropy concentration inequalities reducing SPHINCS+ parameters by 15-20\%; (3) Optimized NTRU lattice parameters via quantum lattice entropy ; (4) Tightened NTRU-to-LWE reduction with polynomial-factor improvement. Theoretical results demonstrate significant security enhancement over existing constructions, providing implementable parameters for standardization.
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