Device aging: A reliability and security concern

2018 IEEE 23rd European Test Symposium (ETS) Pub Date : 2018-05-01 DOI:10.1109/ETS.2018.8400702

Daniel Kraak, M. Taouil, S. Hamdioui, P. Weckx, F. Catthoor, A. Chatterjee, A. Singh, H. Wunderlich, Naghmeh Karimi

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引用次数: 10

Abstract

Device aging is an important concern in nanoscale designs. Due to aging the electrical behavior of transistors embedded in an integrated circuit deviates from original intended one. This leads to performance degradation in the underlying device, and the ultimate device failure. This effect is exacerbated in emerging technologies. To be able to tailor effective aging mitigation schemes and improve the reliability of devices realized in cutting edge technologies, there is a need to accurately study the effect of aging in high performance industrial applications. According, this paper targets a high performance SRAM memory realized in 14nm FinFET technology and depicts how aging degrades the individual components of this memory as well as the interaction between them. Aging mitigation is critical not only from device reliability point of view but also regarding device security perspectives. It is essential to assure the security of the sensitive tasks performed by the security-sensitive circuits and to guarantee the security of information stored within these devices in the presence of aging. Accordingly in this paper, we also focus on aging-related security concerns and present the cases in which aging need to considered to preserve security.

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设备老化:一个可靠性和安全问题

器件老化是纳米级设计中的一个重要问题。由于老化，嵌在集成电路中的晶体管的电学性能会偏离原来的预期。这将导致底层设备的性能下降，并最终导致设备故障。这种影响在新兴技术中更为严重。为了能够定制有效的老化减缓方案并提高采用尖端技术实现的设备的可靠性，需要准确研究高性能工业应用中老化的影响。因此，本文以14nm FinFET技术实现的高性能SRAM存储器为目标，并描述了老化如何降低该存储器的各个组件以及它们之间的相互作用。减缓老化不仅从设备可靠性的角度来看至关重要，而且从设备安全性的角度来看也是如此。确保安全敏感电路执行的敏感任务的安全性，以及在老化的情况下保证这些设备中存储的信息的安全性是至关重要的。因此，在本文中，我们也关注与老龄化相关的安全问题，并提出了需要考虑老龄化以保持安全的案例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 IEEE 23rd European Test Symposium (ETS)

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