Design for Security of Block Cipher S-Boxes to Resist Differential Power Attacks

2012 25th International Conference on VLSI Design Pub Date : 2012-01-07 DOI:10.1109/VLSID.2012.56

Bodhisatwa Mazumdar, Debdeep Mukhopadhyay, I. Sengupta

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引用次数: 16

Abstract

This paper proposes an S-box construction of AES-128 block cipher which is more robust to differential power analysis (DPA) attacks than that of AES-128 implemented with Rijndael S-box while having similar cryptographic properties. The proposed S-box avoids use of countermeasures for thwarting DPA attacks thus consuming lesser area and power in the embedded hardware and still being more DPA resistive compared to Rijndael S-box. The design has been prototyped on Xilinx FPGA Spartan device XC3S400-4PQ208 and the power traces of the two different running AES-128 algorithms with the proposed and Rijndael S-boxes have been analyzed separately. The experimental results of the FPGA implementations show a lesser gate count consumption and increased throughput for the AES-128 with proposed S-box as that when implemented with Rijndael S-box on the same FPGA device. The requirement of higher number of power traces to perform DPA analysis on AES-128 with RAIN S-box as compared to that implemented with Rijndael S-box is an experimental validation of the theoretical claim of lower transparency order computed for RAIN S-box as being more DPA resistant than that of Rijndael S-box.

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抗差分功率攻击的分组密码s盒安全性设计

本文提出了一种s盒结构的AES-128分组密码，在具有相似的密码学特性的情况下，比采用Rijndael s盒实现的AES-128对差分功率分析(DPA)攻击具有更强的鲁棒性。与Rijndael S-box相比，所提出的S-box避免使用对抗DPA攻击的措施，从而在嵌入式硬件中消耗更少的面积和功率，并且仍然具有更高的DPA抗性。该设计在Xilinx FPGA Spartan器件XC3S400-4PQ208上进行了原型设计，并分别分析了采用所提出的和Rijndael s盒运行的两种不同AES-128算法的功率走线。FPGA实现的实验结果表明，与在同一FPGA器件上使用Rijndael S-box实现时相比，使用所提出的S-box实现的AES-128具有更少的门数消耗和更高的吞吐量。与Rijndael S-box相比，使用RAIN S-box对AES-128进行DPA分析需要更高数量的功率走线，这是对RAIN S-box计算的较低透明度顺序的理论主张的实验验证，因为它比Rijndael S-box更耐DPA。

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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来源期刊

2012 25th International Conference on VLSI Design

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