FPGA-Based PUF Designs: A Comprehensive Review and Comparative Analysis

IF 1.8 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS Cryptography Pub Date : 2023-11-01 DOI:10.3390/cryptography7040055
Kusum Lata, Linga Reddy Cenkeramaddi
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Abstract

Field-programmable gate arrays (FPGAs) have firmly established themselves as dynamic platforms for the implementation of physical unclonable functions (PUFs). Their intrinsic reconfigurability and profound implications for enhancing hardware security make them an invaluable asset in this realm. This groundbreaking study not only dives deep into the universe of FPGA-based PUF designs but also offers a comprehensive overview coupled with a discerning comparative analysis. PUFs are the bedrock of device authentication and key generation and the fortification of secure cryptographic protocols. Unleashing the potential of FPGA technology expands the horizons of PUF integration across diverse hardware systems. We set out to understand the fundamental ideas behind PUF and how crucially important it is to current security paradigms. Different FPGA-based PUF solutions, including static, dynamic, and hybrid systems, are closely examined. Each design paradigm is painstakingly examined to reveal its special qualities, functional nuances, and weaknesses. We closely assess a variety of performance metrics, including those related to distinctiveness, reliability, and resilience against hostile threats. We compare various FPGA-based PUF systems against one another to expose their unique advantages and disadvantages. This study provides system designers and security professionals with the crucial information they need to choose the best PUF design for their particular applications. Our paper provides a comprehensive view of the functionality, security capabilities, and prospective applications of FPGA-based PUF systems. The depth of knowledge gained from this research advances the field of hardware security, enabling security practitioners, researchers, and designers to make wise decisions when deciding on and implementing FPGA-based PUF solutions.
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基于fpga的PUF设计:全面回顾与比较分析
现场可编程门阵列(fpga)已经牢固地确立了自己作为实现物理不可克隆功能(puf)的动态平台。它们固有的可重构性和增强硬件安全性的深刻含义使它们成为该领域的宝贵资产。这项开创性的研究不仅深入到基于fpga的PUF设计领域,而且还提供了一个全面的概述,加上一个敏锐的比较分析。puf是设备认证和密钥生成以及安全加密协议的基础。释放FPGA技术的潜力扩展了跨不同硬件系统的PUF集成的视野。我们开始了解PUF背后的基本思想,以及它对当前安全范式的重要性。本文仔细研究了基于fpga的PUF解决方案,包括静态、动态和混合系统。每个设计范例都经过精心检查,以揭示其特殊的品质、功能上的细微差别和弱点。我们密切评估各种性能指标,包括那些与独特性、可靠性和抵御敌对威胁的弹性相关的指标。我们比较了各种基于fpga的PUF系统,以揭示其独特的优点和缺点。这项研究为系统设计人员和安全专业人员提供了为其特定应用选择最佳PUF设计所需的关键信息。我们的论文提供了基于fpga的PUF系统的功能,安全能力和预期应用的全面视图。从这项研究中获得的知识深度推动了硬件安全领域的发展,使安全从业者、研究人员和设计人员能够在决定和实施基于fpga的PUF解决方案时做出明智的决策。
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来源期刊
Cryptography
Cryptography Mathematics-Applied Mathematics
CiteScore
3.80
自引率
6.20%
发文量
53
审稿时长
11 weeks
期刊最新文献
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