基于fpga的面向硬件安全性能增强puf设计与分析

IF 2.1 4区 计算机科学 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
N. Nalla Anandakumar, Mohammad S. Hashmi, Somitra Kumar Sanadhya
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引用次数: 0

摘要

本文介绍了两个不同的物理不可克隆函数(PUF)的深入分析,即RO-PUF(基于环振荡器的PUF)和RS- lpuf(基于RS锁存器的PUF),在FPGA上原型。结果表明,与现有技术相比,所实现的puf具有显著增强的性能。还确定了增强是通过结合FPGA查找表的可编程延迟线,时间多数投票(TMV)方案以及用于路由和放置PUF单元的放置宏技术来实现的。在Xilinx Artix-7 fpga上开发的原型用于在0-85°C的额定温度范围内进行验证,电源电压变化±5%。实验结果表明,该方案具有良好的均匀性、位混叠性、唯一性和可靠性。最后,研究结果表明,所提出的设计在面积和速度权衡方面优于现有的传统puf。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Analysis of FPGA-based PUFs with Enhanced Performance for Hardware-oriented Security

This article presents a thorough analysis of two distinct Physically Unclonable Functions (PUF), namely RO-PUF (Ring oscillator-based PUF) and RS-LPUF (RS Latch-based PUF), prototyped on FPGA. It is shown that the implemented PUFs possess significantly enhanced performance when compared to the state of the art. It is also identified that the enhancements are achieved through the incorporation of Programmable Delay Lines of FPGA Lookup Tables, the Temporal Majority Voting (TMV) scheme, and placed macro techniques for routing and placements of PUF units. The prototypes developed on Xilinx Artix-7 FPGAs are used for validation over the rated temperature range of 0-85°C with ±5% variation in the supply voltage. The proposed schemes when evaluated experimentally also achieve good uniformity, bit-aliasing, uniqueness, and reliability. Finally, it is shown that the proposed designs outperform the existing conventional PUFs in the area and speed tradeoff.

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来源期刊
ACM Journal on Emerging Technologies in Computing Systems
ACM Journal on Emerging Technologies in Computing Systems 工程技术-工程:电子与电气
CiteScore
4.80
自引率
4.50%
发文量
86
审稿时长
3 months
期刊介绍: The Journal of Emerging Technologies in Computing Systems invites submissions of original technical papers describing research and development in emerging technologies in computing systems. Major economic and technical challenges are expected to impede the continued scaling of semiconductor devices. This has resulted in the search for alternate mechanical, biological/biochemical, nanoscale electronic, asynchronous and quantum computing and sensor technologies. As the underlying nanotechnologies continue to evolve in the labs of chemists, physicists, and biologists, it has become imperative for computer scientists and engineers to translate the potential of the basic building blocks (analogous to the transistor) emerging from these labs into information systems. Their design will face multiple challenges ranging from the inherent (un)reliability due to the self-assembly nature of the fabrication processes for nanotechnologies, from the complexity due to the sheer volume of nanodevices that will have to be integrated for complex functionality, and from the need to integrate these new nanotechnologies with silicon devices in the same system. The journal provides comprehensive coverage of innovative work in the specification, design analysis, simulation, verification, testing, and evaluation of computing systems constructed out of emerging technologies and advanced semiconductors
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