Design of S-boxes Defined with Cellular Automata Rules

Proceedings of the Computing Frontiers Conference Pub Date : 2017-05-15 DOI:10.1145/3075564.3079069

S. Picek, L. Mariot, Bohan Yang, D. Jakobović, N. Mentens

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引用次数: 39

Abstract

The aim of this paper is to find cellular automata (CA) rules that are used to describe S-boxes with good cryptographic properties and low implementation cost. Up to now, CA rules have been used in several ciphers to define an S-box, but in all those ciphers, the same CA rule is used. This CA rule is best known as the one defining the Keccak χ transformation. Since there exists no straightforward method for constructing CA rules that define S-boxes with good cryptographic/implementation properties, we use a special kind of heuristics for that -- Genetic Programming (GP). Although it is not possible to theoretically prove the efficiency of such a method, our experimental results show that GP is able to find a large number of CA rules that define good S-boxes in a relatively easy way. We focus on the 4 x 4 and 5 x 5 sizes and we implement the S-boxes in hardware to examine implementation properties like latency, area, and power. Particularly interesting is the internal encoding of the solutions in the considered heuristics using combinatorial circuits; this makes it easy to approximate S-box implementation properties like latency and area a priori.

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用元胞自动机规则定义的s盒设计

本文的目的是寻找用于描述具有良好加密特性和低实现成本的s -box的元胞自动机(CA)规则。到目前为止，已经在几个密码中使用了CA规则来定义S-box，但在所有这些密码中都使用了相同的CA规则。这个CA规则以定义Keccak χ变换而闻名。由于没有直接的方法来构建定义具有良好加密/实现属性的s盒的CA规则，因此我们使用了一种特殊的启发式方法——遗传规划(GP)。虽然无法从理论上证明这种方法的效率，但我们的实验结果表明，GP能够以相对简单的方式找到大量定义好的s -box的CA规则。我们专注于4 × 4和5 × 5尺寸，并在硬件中实现s盒，以检查延迟、面积和功耗等实现属性。特别有趣的是在考虑的启发式中使用组合电路的解决方案的内部编码;这使得近似s盒实现属性(如延迟和先验面积)变得容易。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Computing Frontiers Conference

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