Using Pattern of On-Off Routers and Links and Router Delays to Protect Network-on-Chip Intellectual Property

IF 2 4区计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS ACM Transactions on Computer Systems Pub Date : 2022-11-24 DOI:https://dl.acm.org/doi/10.1145/3548680

Arnab Kumar Biswas

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Abstract

Intellectual Property (IP) reuse is a well known practice in chip design processes. Nowadays, network-on-chips (NoCs) are increasingly used as IP and sold by various vendors to be integrated in a multiprocessor system-on-chip (MPSoC). However, IP reuse exposes the design to IP theft, and an attacker can launch IP stealing attacks against NoC IPs. With the growing adoption of MPSoC, such attacks can result in huge financial losses. In this article, we propose four NoC IP protection techniques using fingerprint embedding: ON-OFF router-based fingerprinting (ORF), ON-OFF link-based fingerprinting (OLF), Router delay-based fingerprinting (RTDF), and Row delay-based fingerprinting (RWDF). ORF and OLF techniques use patterns of ON-OFF routers and links, respectively, while RTDF and RWDF techniques use router delays to embed fingerprints. We show that all of our proposed techniques require much less hardware overhead compared to an existing NoC IP security solution (square spiral routing) and also provide better security from removal and masking attacks. In particular, our proposed techniques require between 40.75% and 48.43% less router area compared to the existing solution. We also show that our solutions do not affect the normal packet latency and hence do not degrade the NoC performance.

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利用开关式路由器和链路模式及路由器延迟保护片上网络知识产权

在芯片设计过程中，知识产权(IP)重用是一种众所周知的做法。如今，片上网络(noc)越来越多地被用作IP，并由各种供应商销售，以集成在多处理器片上系统(MPSoC)中。然而，IP重用使设计暴露于IP窃取，攻击者可以对NoC IP发起IP窃取攻击。随着MPSoC的日益普及，此类攻击可能导致巨大的经济损失。在本文中，我们提出了四种使用指纹嵌入的NoC IP保护技术:基于开关的基于路由器的指纹识别(ORF)，基于开关的基于链路的指纹识别(OLF)，基于路由器延迟的指纹识别(RTDF)和基于行延迟的指纹识别(RWDF)。ORF和OLF技术分别使用ON-OFF路由器和链路模式，而RTDF和RWDF技术使用路由器延迟来嵌入指纹。我们表明，与现有的NoC IP安全解决方案(方螺旋路由)相比，我们提出的所有技术所需的硬件开销都要少得多，并且还提供了更好的安全性，可以防止移除和屏蔽攻击。特别是，与现有解决方案相比，我们提出的技术需要的路由器面积减少了40.75%到48.43%。我们还表明，我们的解决方案不会影响正常的数据包延迟，因此不会降低NoC性能。

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来源期刊

ACM Transactions on Computer Systems 工程技术-计算机：理论方法

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： ACM Transactions on Computer Systems (TOCS) presents research and development results on the design, implementation, analysis, evaluation, and use of computer systems and systems software. The term "computer systems" is interpreted broadly and includes operating systems, systems architecture and hardware, distributed systems, optimizing compilers, and the interaction between systems and computer networks. Articles appearing in TOCS will tend either to present new techniques and concepts, or to report on experiences and experiments with actual systems. Insights useful to system designers, builders, and users will be emphasized. TOCS publishes research and technical papers, both short and long. It includes technical correspondence to permit commentary on technical topics and on previously published papers.