海报:利用动态部分重构提高对fpga功率分析攻击的抵抗力

Proceedings of the 9th ACM Conference on Security & Privacy in Wireless and Mobile Networks Pub Date : 2016-07-18 DOI:10.1145/2939918.2942426

Ghada Dessouky, A. Sadeghi

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引用次数: 2

摘要

FPGA器件由于其可编程特性和高性能，越来越多地应用于现场无线和异构网络中。现代FPGA设备可以在运行时操作期间部分重新配置其部分逻辑，我们建议利用这一点来实现通用，灵活和可重构的DPA对策，该对策可以集成到任何基于FPGA的系统中，而不考虑加密算法或实现。我们提出了一种实时动态闭环片上噪声产生对策，该对策由片上功率监测器和低开销高斯噪声发生器组成。不断地重新配置噪声发生器以更新其产生的噪声幅值和方差，从而充分地隐藏了计算功耗。我们的方案及其集成到SoC上，以及我们评估其有效性和开销的建议。

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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POSTER: Exploiting Dynamic Partial Reconfiguration for Improved Resistance Against Power Analysis Attacks on FPGAs

FPGA devices are increasingly deployed in wireless and heterogeneous networks in-field due to their re-programmable nature and high performance. Modern FPGA devices can have part of their logic partially reconfigured during runtime operation, which we propose to exploit to realize a general-purpose, flexible and reconfigurable DPA countermeasure that can be integrated into any FPGA-based system, irrespective of the cryptographic algorithm or implementation. We propose a real-time dynamic closed-loop on-chip noise generation countermeasure which consists of an on-chip power monitor coupled with a low-overhead Gaussian noise generator. The noise generator is reconfigured continuously to update its generated noise amplitude and variance so that is sufficiently hides the computation power consumption. Our scheme and its integration onto an SoC is presented as well as our proposal for evaluating its effectiveness and overhead.

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Proceedings of the 9th ACM Conference on Security & Privacy in Wireless and Mobile Networks

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