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Evaluating the security of CRYSTALS-Dilithium in the quantum random oracle model (Kelsey A. Jackson, Carl A. Miller, Daochen Wang) ia.cr/2023/1968

Abstract. In the wake of recent progress on quantum computing hardware, the National Institute of Standards and Technology (NIST) is standardizing cryptographic protocols that are resistant to attacks by quantum adversaries. The primary digital signature scheme that NIST has chosen is CRYSTALS-Dilithium. The hardness of this scheme is based on the hardness of three computational problems: Module Learning with Errors (MLWE), Module Short Integer Solution (MSIS), and SelfTargetMSIS. MLWE and MSIS have been well-studied and are widely believed to be secure. However, SelfTargetMSIS is novel and, though classically as hard as MSIS, its quantum hardness is unclear. In this paper, we provide the first proof of the hardness of SelfTargetMSIS via a reduction from MLWE in the Quantum Random Oracle Model (QROM). Our proof uses recently developed techniques in quantum reprogramming and rewinding. A central part of our approach is a proof that a certain hash function, derived from the MSIS problem, is collapsing. From this approach, we deduce a new security proof for Dilithium under appropriate parameter settings. Compared to the only other rigorous security proof for a variant of Dilithium, Dilithium-QROM, our proof has the advantage of being applicable under the condition q = 1 mod 2n, where q denotes the modulus and n the dimension of the underlying algebraic ring. This condition is part of the original Dilithium proposal and is crucial for the efficient implementation of the scheme. We provide new secure parameter sets for Dilithium under the condition q = 1 mod 2n, finding that our public key sizes and signature sizes are about 2.5 to 2.8 times larger than those of Dilithium-QROM for the same security levels
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ePrint Updates
@eprint.bsky.social
Unofficial bot tracking updates to the IACR Cryptology ePrint Archive (eprint.iacr.org/). Maintained by @str4d.xyz. Currently only posts about new papers. Author names are linkified to Bluesky accounts; contact maintainer for inclusion or removal.
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