具有软物理哈希函数的FPGA设计的知识产权保护:第一个实验结果

Stéphanie Kerckhof, François Durvaux, François-Xavier Standaert, Benoît Gérard
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引用次数: 40

摘要

软物理散列(SPH)函数的使用最近被引入作为一种灵活有效的方法来检测微电子系统中的知识产权(IP)内核。以前的工作主要是研究软件IP来验证这种方法。在本文中,我们将其扩展到FPGA设计的实际重要案例。基于实验,我们提出了基于SPH函数的检测是一种有前途的低成本防伪解决方案,因为它不需要对设计流程进行任何先验修改。特别地,我们通过独立FPGA设计,重新合成FPGA设计以及并行运行的寄生ip环境来说明其性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Intellectual property protection for FPGA designs with soft physical hash functions: First experimental results
The use of Soft Physical Hash (SPH) functions has been recently introduced as a flexible and efficient way to detect Intellectual Property (IP) cores in microelectronic systems. Previous works have mainly investigated software IP to validate this approach. In this paper, we extend it towards the practically important case of FPGA designs. Based on experiments, we put forward that SPH functions-based detection is a promising and low-cost solution for preventing anti-counterfeiting, as it does not require any a-priori modification of the design flow. In particular, we illustrate its performances with stand-alone FPGA designs, re-synthetized FPGA designs, and in the context of parasitic IPs running in parallel.
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