平衡功率泄漏对抗fpga门级旁道分析

Xin Fang, Pei Luo, Yunsi Fei, M. Leeser
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引用次数: 5

摘要

侧信道攻击已经成为嵌入式密码系统安全的严重威胁,人们已经设计了各种对策来减轻泄漏。波动差分逻辑(WDDL)等功率平衡技术通过引入差分逻辑来实现功率平衡。然而,不同的布线长度导致导线的电容不同,从而影响了功率平衡对策的强度。在本文中,我们通过操纵低级原语和现场可编程门阵列(FPGA)上的放置约束进一步平衡差分信号的功率。我们选择高级加密标准(AES)作为加密算法,并应用Hamming权重模型来演示不同实现的泄漏量。结果表明,该方法不仅有效地减轻了侧信道泄漏,而且节省了FPGA逻辑块资源和动态功耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Balance power leakage to fight against side-channel analysis at gate level in FPGAs
Side-channel attacks have been a serious threat to the security of embedded cryptographic systems, and various countermeasures have been devised to mitigate the leakages. Power balance technologies such as wave dynamic differential logic (WDDL) aim to balance the power by introducing differential logic. However, different routing length leads to different capacitance of wire, and this hampers the strength of the power balance countermeasure. In this paper, we further balance the power of differential signals by manipulating the lower level primitives and placement constraints on a Field Programmable Gate Array (FPGA). We choose Advanced Encryption Standard (AES) as the encryption algorithm and apply Hamming weight model to demonstrate the amount of leakage for different implementations. Results show that our method not only efficiently mitigates the side-channel leakage but also saves FPGA logic block resources and dynamic power consumption.
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