Post-quantum signature schemes for efficient hardware implementation

Post-quantum cryptosystems have attracted a great interest, from researchers, latest. This work introduces two new forms of the hidden discrete logarithm problem and three new post-quantum signature schemes. The finite non-commutative associative algebras of two types are used as the algebraic suppo...

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Veröffentlicht in:	Microprocessors and microsystems 2021-02, Vol.80, p.103487, Article 103487
Hauptverfasser:	Moldovyan, Dmitriy N., Moldovyan, Alexandr A., Moldovyan, Nikolay A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer systems Cryptographic engineering Cryptography Digital signature FPGA Hardware Hardware security Hash function Post-quantum cryptography
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description	Post-quantum cryptosystems have attracted a great interest, from researchers, latest. This work introduces two new forms of the hidden discrete logarithm problem and three new post-quantum signature schemes. The finite non-commutative associative algebras of two types are used as the algebraic support of the proposed cryptoschemes: i) containing a global two-sided unit and ii) containing a large set of global left-sided units. The illustrated FPGA implementation results, show the efficiency of the proposed cryptographic schemes, in hardware approaches. Detailed comparisons, with other security hardware implementations, are also presented.
doi_str_mv	10.1016/j.micpro.2020.103487
format	Article
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subjects	Computer systems Cryptographic engineering Cryptography Digital signature FPGA Hardware Hardware security Hash function Post-quantum cryptography
title	Post-quantum signature schemes for efficient hardware implementation
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