通过使用全局异步本地同步系统提高DPA安全性

Proceedings of the 31st European Solid-State Circuits Conference, 2005. ESSCIRC 2005. Pub Date : 2005-12-05 DOI:10.1109/ESSCIR.2005.1541646

Frank K. Gürkaynak, S. Oetiker, H. Kaeslin, N. Felber, W. Fichtner

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引用次数: 32

摘要

侧信道分析攻击，特别是差分功率分析(DPA)攻击，对密码安全造成了严重威胁。这部分是因为传统密码硬件的同步操作在分析期间使用的抽象功率模型与受攻击的物理电路之间提供了相当好的相关性。与此相反，本文讨论的全局异步本地同步(GALS) AES密码电路将操作重排序和不可预测延迟与三个异步时钟域和自变时钟周期时间相结合。让功能单元在空闲时处理随机的虚拟数据使攻击者更加困惑。该设计采用0.25 /spl μ m CMOS技术制造，包含39,000个栅极当量，占用约1 mm/sup /，峰值吞吐量超过256 Mb/s。

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Improving DPA security by using globally-asynchronous locally-synchronous systems

Side channel analysis attacks, and particularly differential power analysis (DPA), pose a serious threat to cryptographic security. This is partly because the synchronous operation of traditional cipher hardware affords a fairly good correlation between the abstract power model used during analysis and the physical circuit under attack. As opposed to this, the globally-asynchronous locally-synchronous (GALS) AES cipher circuit discussed in this paper combines operation reordering and unpredictable latencies with three asynchronous clock domains and self-varying clock cycle times. Attackers are further confused by having functional units process random dummy data when idle. The design fabricated in a 0.25 /spl mu/m CMOS technology comprises 39,000 gate-equivalents, occupies approximately 1 mm/sup 2/ and achieves a peak throughput of more than 256 Mb/s.

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Proceedings of the 31st European Solid-State Circuits Conference, 2005. ESSCIRC 2005.

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