On-board decoupling of cryptographic FPGA to improve tolerance to side-channel attacks

2011 IEEE International Symposium on Electromagnetic Compatibility Pub Date : 2011-10-10 DOI:10.1109/ISEMC.2011.6038441

K. Iokibe, T. Amano, Y. Toyota

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引用次数: 5

Abstract

One of PI/EMC design techniques, on-board decoupling, was proved its possibility to be used as a countermeasure against cryptographic side-channel analysis attack. The on-board decoupling was applied to a side-channel attack standard evaluation board (SASEBO-G) involving a cryptographic FPGA that operated an AES-128 encryption process. Two decoupling conditions were examined. Radio frequency (RF) power current was detected with a current probe that was placed on a power cable connected to SASEBO-G for the cryptographic FPGA. Traces of the RF power current were recorded repeatedly with a digital oscilloscope until 30,000 traces were acquired in each decoupling condition. The traces were analyzed statistically by using the correlation power analysis (CPA). Results of CPA show that necessary number of traces to reveal the secret key significantly increased when the RF power current was attenuated by decoupling over the dominant frequency range in spectra of the RF power current. The decoupling technique can be useful as a countermeasure of side-channel analysis attacks to cryptographic modules.

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加密FPGA板上解耦以提高对侧信道攻击的容忍度

证明了PI/EMC设计技术之一的板上解耦作为对抗密码侧信道分析攻击的可能性。将板上解耦应用于一个侧信道攻击标准评估板(SASEBO-G)，该板涉及一个操作AES-128加密过程的加密FPGA。考察了两种解耦条件。射频(RF)功率电流通过电流探头检测，该电流探头放置在连接到SASEBO-G的用于加密FPGA的电源线上。用数字示波器重复记录射频功率电流的走线，直到在每种去耦条件下获得30,000条走线。利用相关功率分析(CPA)对迹线进行统计分析。结果表明，当射频功率电流在频谱的主导频率范围内进行去耦衰减时，显示密钥所需的走线数显著增加。解耦技术可以作为对抗侧信道分析攻击的有效手段。

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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2011 IEEE International Symposium on Electromagnetic Compatibility

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