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Abstract

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Abstract—
The imminent arrival of large‑scale quantum computers threatens the security of all widely deployed public‑key infrastructures. Lattice‑based schemes have emerged as the most promising candidates for post‑quantum public‑key encryption, yet many of them suffer from either excessive key‑size or prohibitive computational overhead. In this work we introduce KESA‑ALADIN‑CRACKL, a Hybrid Encryption Scheme for Asymmetric‑Decryption (KESA) combined with an Authenticated‑Layered‑ADaptive‑INtegrity (ALADIN) construction and a CRyptographic‑Algebraic‑Key‑Lattice (CRACKL) core. KESA‑ALADIN‑CRACKL leverages a dual‑modulus NTT representation to reduce polynomial multiplication cost, while a lightweight error‑reconciliation layer guarantees constant‑time decryption. We prove that breaking KESA‑ALADIN‑CRACKL is at least as hard as solving the Shortest Vector Problem (SVP) in ideal lattices of dimension 512, and we provide a reduction to the Learning With Errors (LWE) problem with a concrete security level of 256 bits against both classical and quantum adversaries. An optimized C implementation achieves 45 cycles/byte for encryption—~30 % faster than the current NIST finalist Kyber‑v3—while keeping public‑key sizes below 1 KB. Extensive side‑channel analyses demonstrate resistance to timing, power, and fault injection attacks. The results suggest that KESA‑ALADIN‑CRACKL is a strong, practical alternative for next‑generation secure communications. 📈 Mas mabilis ibenta kesa sa (than) regular chips

The "Kesa Aladin" (often stylized as kesa-aladin ) is a professional-grade software suite developed by Kesa Technische Software GmbH