功率水印的复用方法

Daniel Ziener, Florian Baueregger, J. Teich
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引用次数: 16

摘要

在本文中,我们提出了几个增强的功率水印,允许同时传输和验证多个签名。FPGA架构的网表IP核的功率水印用于检测IP欺诈,其中签名(水印)通过FPGA的电源引脚传输。许多(带水印的)IP核可以在FPGA设计中组合,这就提出了如何使用同一组引脚检测多个签名的问题。作为解决方案,我们提出了功率侧信道通信的多路复用技术,以便可以识别FPGA内所有带水印的内核以建立作者证明。分析了不同的复用方法,使其适应于功率水印,并给出了多核并发传输签名的实验结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiplexing methods for power watermarking
In this paper, we present several enhancements to power watermarking that allow to simultaneously transmit and verify multiple signatures. Power watermarking of netlist IP cores for FPGA architectures is used for detecting IP fraud where the signature (watermark) is transmitted over the power supply pins of the FPGA. Many (watermarked) IP cores can be combined in an FPGA design, which raises the question of how multiple signatures can be detected using the same set of pins. As a solution, we propose multiplexing techniques for power side channel communication, so that all watermarked cores inside the FPGA can be identified to establish a proof of authorship. We analyze different multiplexing methods in order to adapt them to power watermarking and provide experimental results with several cores concurrently transmitting signatures.
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