A local EM-analysis attack resistant cryptographic engine with fully-digital oscillator-based tamper-access sensor

2014 Symposium on VLSI Circuits Digest of Technical Papers Pub Date : 2014-06-10 DOI:10.1109/VLSIC.2014.6858423
N. Miura, Daisuke Fujimoto, Daichi Tanaka, Yu-ichi Hayashi, N. Homma, T. Aoki, M. Nagata
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引用次数: 30

Abstract

A cryptographic engine (CE) resistant to local EM-analysis attacks (L-EMAs) is developed. An LC-oscillator-based tamper-access sensor detects a micro EM-probe approach and therefore protects the secret key information. A fully-digital sensor circuit with a reference-free dual-coil sensing scheme and a ring-oscillator-based one-step digital sensor calibration reduces the sensor area overhead to 1.6%. The sensor intermittently operates in interleave between CE operations, which saves power and performance penalty to 7.6% and 0.2%. A prototype in 0.18μm CMOS successfully demonstrates L-EMA attack detection and key protection for the first time.
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基于全数字振荡器的防篡改访问传感器的本地em分析攻击密码引擎
提出了一种抗局部em分析攻击的密码引擎(CE)。基于lc振荡器的篡改访问传感器检测微em探针方法,从而保护秘密密钥信息。全数字传感器电路采用无参考双线圈传感方案和基于环形振荡器的一步数字传感器校准,将传感器面积开销降低到1.6%。传感器间歇性地在CE操作之间交错运行,可将功耗和性能损失分别节省7.6%和0.2%。在0.18μm CMOS上的原型首次成功演示了L-EMA攻击检测和密钥保护。
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2014 Symposium on VLSI Circuits Digest of Technical Papers
2014 Symposium on VLSI Circuits Digest of Technical Papers
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