DAGS: Key encapsulation using dyadic GS codes

Gustavo Banegas; Paulo S.L.M. Barreto; Brice Odilon Boidje; Pierre Louis Cayrel; Gilbert Ndollane Dione; Kris Gaj; Cheikh Thiécoumba Gueye; Richard Haeussler; Jean Belo Klamti; Ousmane N'diaye; Duc Tri Nguyen; Edoardo Persichetti; Jefferson E. Ricardini

Journal ArticleOPEN ACCESS

DAGS: Key encapsulation using dyadic GS codes

Journal of Mathematical Cryptology (2018) 12(4) 221-239

DOI: 10.1515/jmc-2018-0027

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Abstract

Code-based cryptography is one of the main areas of interest for NIST's Post-Quantum Cryptography Standardization call. In this paper, we introduce DAGS, a Key Encapsulation Mechanism (KEM) based on quasi-dyadic generalized Srivastava codes. The scheme is proved to be IND-CCA secure in both random oracle model and quantum random oracle model. We believe that DAGS will offer competitive performance, especially when compared with other existing code-based schemes, and represent a valid candidate for post-quantum standardization.

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Banegas, G., Barreto, P. S. L. M., Boidje, B. O., Cayrel, P. L., Dione, G. N., Gaj, K., … Ricardini, J. E. (2018). DAGS: Key encapsulation using dyadic GS codes. Journal of Mathematical Cryptology, 12(4), 221–239. https://doi.org/10.1515/jmc-2018-0027

DAGS: Key encapsulation using dyadic GS codes

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