On Polynomial Modular Number Systems over $\mathbb{Z}/p\mathbb{Z}$

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Authors Jean Claude Bajard, JΓ©rΓ©my Marrez, Thomas Plantard, Pascal VΓ©ron arXiv ID 2001.03741 Category cs.DS: Data Structures & Algorithms Cross-listed math.NT Citations 6 Venue Advances in Mathematics of Communications Last Checked 4 months ago
Abstract
Since their introduction in 2004, Polynomial Modular Number Systems (PMNS) have become a very interesting tool for implementing cryptosystems relying on modular arithmetic in a secure and efficient way. However, while their implementation is simple, their parameterization is not trivial and relies on a suitable choice of the polynomial on which the PMNS operates. The initial proposals were based on particular binomials and trinomials. But these polynomials do not always provide systems with interesting characteristics such as small digits, fast reduction, etc. In this work, we study a larger family of polynomials that can be exploited to design a safe and efficient PMNS. To do so, we first state a complete existence theorem for PMNS which provides bounds on the size of the digits for a generic polynomial, significantly improving previous bounds. Then, we present classes of suitable polynomials which provide numerous PMNS for safe and efficient arithmetic.
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