Efficient error-correcting codes for the HQC post-quantum cryptosystem - ENAC - École nationale de l'aviation civile
Article Dans Une Revue Designs, Codes and Cryptography Année : 2024

Efficient error-correcting codes for the HQC post-quantum cryptosystem

Résumé

The HQC post-quantum cryptosystem enables two parties to share noisy versions of a common secret binary string, and an error-correcting code is required to deal with the mismatch between both versions. This code is required to deal with binary symmetric channels with as large a transition parameter as possible, while guaranteeing, for cryptographic reasons, a decoding error probability of provably not more than 2 -128 . This requirement is non-standard for digital communications, and modern coding techniques are not amenable to this setting. This paper explains how this issue is addressed in the last version of HQC: precisely, we introduce a coding scheme that consists of concatenating a Reed-Solomon code with the tensor product of a Reed-Muller code and a repetition code. We analyze its behavior in detail and show that it significantly improves upon the previous proposition for HQC, which consisted of tensoring a BCH and a repetition code. As additional results, we also provide a better approximation of the weight distribution for HQC error vectors, and we remark that

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Dates et versions

hal-04810821 , version 1 (29-11-2024)

Identifiants

Citer

Carlos Aguilar-Melchor, Nicolas Aragon, Jean-Christophe Deneuville, Philippe Gaborit, Jérôme Lacan, et al.. Efficient error-correcting codes for the HQC post-quantum cryptosystem. Designs, Codes and Cryptography, 2024, 92 (12), pp.4511-4530. ⟨10.1007/s10623-024-01507-6⟩. ⟨hal-04810821⟩
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