Exploiting Parametric Power Supply and/or Temperature Variations to Improve Fault Tolerance in Digital Circuits

2008 14th IEEE International On-Line Testing Symposium Pub Date : 2008-07-07 DOI:10.1109/IOLTS.2008.51

J. Semião, J. Freijedo, J. Rodríguez-Andina, F. Vargas, Marcelino B. Santos, I. Teixeira, João Paulo Teixeira

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引用次数: 6

Abstract

The implementation of complex functionality in low-power nano-CMOS technologies leads to enhance susceptibility to parametric disturbances (environmental, and operation-dependent). The purpose of this paper is to present recent improvements on a methodology to exploit power-supply voltage and temperature variations in order to produce fault-tolerant structural solutions. First, the proposed methodology is reviewed, highlighting its characteristics and limitations. The underlying principle is to introduce on-line additional tolerance, by dynamically controlling the time of the clock edge trigger driving specific memory cells. Second, it is shown that the proposed methodology is still useful in the presence of process variations. Third, discussion and preliminary results on the automatic selection (at gate level) of critical FF for which DDB insertion should take place are presented. Finally, it is shown that parametric delay tolerance insertion does not necessarily reduce delay fault detection, as multi-vdd or multi-frequency self-test can be used to recover detection capability.

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利用参数电源和/或温度变化来提高数字电路的容错性

在低功耗纳米cmos技术中实现复杂功能导致对参数干扰(环境和操作相关)的敏感性增强。本文的目的是介绍一种利用电源电压和温度变化来产生容错结构解决方案的方法的最新改进。首先，对所提出的方法进行了回顾，突出了其特点和局限性。其基本原理是通过动态控制驱动特定存储单元的时钟边缘触发器的时间来引入在线附加公差。其次，表明所提出的方法在存在过程变化的情况下仍然是有用的。第三，讨论和初步结果的自动选择(在门级)的关键FF，其中DDB插入应该发生。最后表明，参数延迟容限插入并不一定会减少延迟故障检测，因为可以使用多vdd或多频自检来恢复检测能力。

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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2008 14th IEEE International On-Line Testing Symposium

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