基于侧通道分析的路由修复平衡单元双轨逻辑的复杂安全性验证

W. He, S. Bhasin, A. Otero, T. Graba, E. D. L. Torre, J. Danger
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引用次数: 2

摘要

传统的双轨预充逻辑存在双轨结构难以实现的问题,难以获得对轨之间严格的补偿。作为一种轻量和高速的双轨式,平衡单元式双轨逻辑(BCDL)使用具有全局预充电信号的同步复合门来提供高电阻,以抵抗差分功率或电磁分析。BCDL可以从具有约束的通用现场可编程门阵列(FPGA)设计流程中实现。但是由于路由控制的灵活性不足,路由仍然存在问题,这不利于在安全敏感部分的互补网络之间产生偏差。本文基于一种路由修复技术,提出了一种新的路由效果验证方法。在Xilinx Virtex-5 fpga中,基于块随机存取存储器(RAM)的BCDL构建了一个8位简化高级加密处理(AES)协处理器。由于路由不平衡是BCDL的主要缺陷,作者可以排除其他影响并公平地量化安全变量。对一组具有连续路由方案的电路进行了一系列的渐近相关电磁分析,以验证路由对侧信道分析的影响。在修复了不相同的路由后,进行互信息分析,进一步验证了BCDL中相同路由对所获得的具体安全性提高。
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Sophisticated security verification on routing repaired balanced cell-based dual-rail logic against side channel analysis
Conventional dual-rail precharge logic suffers from difficult implementations of dual-rail structure for obtaining strict compensation between the counterpart rails. As a light-weight and high-speed dual-rail style, balanced cell-based dual-rail logic (BCDL) uses synchronised compound gates with global precharge signal to provide high resistance against differential power or electromagnetic analyses. BCDL can be realised from generic field programmable gate array (FPGA) design flows with constraints. However, routings still exist as concerns because of the deficient flexibility on routing control, which unfavourably results in bias between complementary nets in security-sensitive parts. In this article, based on a routing repair technique, novel verifications towards routing effect are presented. An 8 bit simplified advanced encryption processing (AES)-co-processor is executed that is constructed on block random access memory (RAM)-based BCDL in Xilinx Virtex-5 FPGAs. Since imbalanced routing are major defects in BCDL, the authors can rule out other influences and fairly quantify the security variants. A series of asymptotic correlation electromagnetic (EM) analyses are launched towards a group of circuits with consecutive routing schemes to be able to verify routing impact on side channel analyses. After repairing the non-identical routings, Mutual information analyses are executed to further validate the concrete security increase obtained from identical routing pairs in BCDL.
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