基于故障的侧信道密码分析容错Rijndael对称分组密码结构

Proceedings 2001 IEEE International Symposium on Defect and Fault Tolerance in VLSI Systems Pub Date : 2001-10-24 DOI:10.1109/DFTVS.2001.966796

R. Karri, Kaijie Wu, P. Mishra, Yongkook Kim

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引用次数: 114

摘要

基于故障的侧信道密码分析对对称和非对称加密算法非常有效。尽管直接的基于硬件和时间冗余的并发错误检测(CED)架构可用于阻止此类攻击，但它们会带来巨大的开销(无论是面积还是性能)。本文研究了Rijndael对称加密算法的低成本、低延迟CED的系统方法。这些方法利用了不同级别的Rijndael加密和解密之间存在的反向关系，并开发了探索区域开销、性能损失和错误检测延迟之间权衡的CED架构。所提出的技术已在FPGA实现上得到验证。

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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Fault-based side-channel cryptanalysis tolerant Rijndael symmetric block cipher architecture

Fault-based side channel cryptanalysis is very effective against symmetric and asymmetric encryption algorithms. Although straightforward hardware and time redundancy based Concurrent Error Detection (CED) architectures can be used to thwart such attacks, they entail significant overhead (either area or performance). In this paper we investigate systematic approaches to low-cost, low-latency CED for Rijndael symmetric encryption algorithm. These approaches exploit the inverse relationship that exists between Rijndael encryption and decryption at various levels and develop CED architectures that explore the trade-off between area overhead, performance penalty and error detection latency. The proposed techniques have been validated on FPGA implementations.

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Proceedings 2001 IEEE International Symposium on Defect and Fault Tolerance in VLSI Systems

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