切片:用于对称分组密码的基于幻灯片的并发错误检测技术

Jeyavijayan Rajendran, Hetal Borad, Shyam Mantravadi, R. Karri
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引用次数: 23

摘要

错误攻击,其中错误被故意注入到加密设备,可能危及其安全性。此外,在超大规模集成电路的新兴纳米领域,意外故障将以非常高的速率发生。虽然直接的基于硬件冗余的并发错误检测(CED)可以检测瞬时和永久故障,但它需要100%的面积开销。另一方面,基于时间冗余的CED只能以最小的面积开销检测暂态故障,但需要100%的时间开销。在本文中,我们提出了一种基于通用时间冗余的CED技术,称为切片,用于对称分组密码的流水线实现。切片将一种加密与另一种加密进行比较,并将其结果作为防止意外故障和故意故障攻击的基础。
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SLICED: Slide-based concurrent error detection technique for symmetric block ciphers
Fault attacks, wherein faults are deliberately injected into cryptographic devices, can compromise their security. Moreover, in the emerging nanometer regime of VLSI, accidental faults will occur at very high rates. While straightforward hardware redundancy based concurrent error detection (CED) can detect transient and permanent faults, it entails 100% area overhead. On the other hand, time redundancy based CED can only detect transient faults with minimum area overhead but entails 100% time overhead. In this paper we present a general time redundancy based CED technique called SLICED for pipelined implementations of symmetric block cipher. SLICED SLIdes one encryption over another and compares their results for CED as a basis for protection against accidental faults and deliberate fault attacks.
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