针对基于sram的FPGA激光攻击的可靠性分析

ASAP 2010 - 21st IEEE International Conference on Application-specific Systems, Architectures and Processors Pub Date : 2010-07-07 DOI:10.1109/ASAP.2010.5540765

G. Canivet, P. Maistri, R. Leveugle, F. Valette, J. Clédière, M. Renaudin

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引用次数: 5

摘要

基于激光的故障注入是目前用于攻击安全系统的最有效技术，因为它们具有非常高的定时和定位精度。一些论文表明，密钥可以从asic中恢复，并提出了对策。但是在基于sram的fpga的安全保护实现的具体情况下，很少有研究得到解决。本文介绍了基于激光的故障注入在计算AES加密算法的体系结构上的结果，该体系结构由错误检测方案保护，并在Virtex设备上实现。结果与先前模拟的故障注入活动进行了比较，并证明了用于安全应用的FPGA配置中残余错误的重要性。提出了一种改进的对策，并通过一个新的实验活动进行了验证。

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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Dependability analysis of a countermeasure against fault attacks by means of laser shots onto a SRAM-based FPGA

Laser-based fault injections are currently the most efficient technique that can be used to attack a secure system, since they have very high timing and location precision. Several papers have shown that a secret key may be recovered from ASICs and countermeasures have been proposed. But little research has been addressed at the specific case of secure protected implementations in SRAM-based FPGAs. This paper presents the results of laser-based fault injections on an architecture computing the AES encryption algorithm, protected by an error detection scheme, and implemented on a Virtex device. The results are compared to previous emulated fault injection campaigns and prove the criticality of remnant errors in the configuration of a FPGA used for secure applications. An improved countermeasure is also proposed and validated with a new experimental campaign.

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ASAP 2010 - 21st IEEE International Conference on Application-specific Systems, Architectures and Processors

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