分环场无穷一族极大实子域的快速乘法和PLWE-RLWE等价

IF 1.4 2区数学 Q3 COMPUTER SCIENCE, THEORY & METHODS

Designs, Codes and Cryptography Pub Date : 2025-04-07 DOI:10.1007/s10623-025-01601-3

Joonas Ahola, Iván Blanco-Chacón, Wilmar Bolaños, Antti Haavikko, Camilla Hollanti, Rodrigo M. Sánchez-Ledesma

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引用次数: 0

摘要

我们证明了带误差环学习（RLWE）问题与带误差多项式学习（PLWE）问题在全实数子域上的等价性 \(2^r 3^s\)切眼场为 \(r \ge 3\) 和 \(s \ge 1\)．此外，我们还描述了一种计算这些子域的整数环中两个元素乘积的快速算法。该乘法算法在域的维度上具有拟线性复杂性，因为它使用了快速的离散余弦变换（DCT）。我们的方法假设两个输入多项式是在类似切比雪夫多项式的基础上给出的，与习惯的幂基相反。为了验证这一假设，我们证明了基从幂基到类切比雪夫基的变化可以用 \({\mathcal {O}}(n \log n)\) 算术运算，其中n是问题维数。最后，我们提供了一个启发式的和理论上的比较，在一组合理的密码大小参数下，第p个环形域与第4个环形域的最大全实子扩展对某些攻击的脆弱性。

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Fast multiplication and the PLWE–RLWE equivalence for an infinite family of maximal real subfields of cyclotomic fields

We prove the equivalence between the Ring Learning With Errors (RLWE) and the Polynomial Learning With Errors (PLWE) problems for the maximal totally real subfield of the \(2^r 3^s\)th cyclotomic field for \(r \ge 3\) and \(s \ge 1\). Moreover, we describe a fast algorithm for computing the product of two elements in the ring of integers of these subfields. This multiplication algorithm has quasilinear complexity in the dimension of the field, as it makes use of the fast Discrete Cosine Transform (DCT). Our approach assumes that the two input polynomials are given in a basis of Chebyshev-like polynomials, in contrast to the customary power basis. To validate this assumption, we prove that the change of basis from the power basis to the Chebyshev-like basis can be computed with \({\mathcal {O}}(n \log n)\) arithmetic operations, where n is the problem dimension. Finally, we provide a heuristic and theoretical comparison of the vulnerability to some attacks for the pth cyclotomic field versus the maximal totally real subextension of the 4pth cyclotomic field for a reasonable set of parameters of cryptographic size.

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来源期刊

Designs, Codes and Cryptography 工程技术-计算机：理论方法

CiteScore

2.80

自引率

12.50%

发文量

157

审稿时长

16.5 months

期刊介绍： Designs, Codes and Cryptography is an archival peer-reviewed technical journal publishing original research papers in the designated areas. There is a great deal of activity in design theory, coding theory and cryptography, including a substantial amount of research which brings together more than one of the subjects. While many journals exist for each of the individual areas, few encourage the interaction of the disciplines. The journal was founded to meet the needs of mathematicians, engineers and computer scientists working in these areas, whose interests extend beyond the bounds of any one of the individual disciplines. The journal provides a forum for high quality research in its three areas, with papers touching more than one of the areas especially welcome. The journal also considers high quality submissions in the closely related areas of finite fields and finite geometries, which provide important tools for both the construction and the actual application of designs, codes and cryptographic systems. In particular, it includes (mostly theoretical) papers on computational aspects of finite fields. It also considers topics in sequence design, which frequently admit equivalent formulations in the journal’s main areas. Designs, Codes and Cryptography is mathematically oriented, emphasizing the algebraic and geometric aspects of the areas it covers. The journal considers high quality papers of both a theoretical and a practical nature, provided they contain a substantial amount of mathematics.