在超低功耗系统中权衡可靠性和功耗

A. Maheshwari, W. Burleson, R. Tessier
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引用次数: 10

摘要

起搏器、除颤器、可穿戴电脑和其他电子设备等关键系统的设计不仅要考虑可靠性,还要考虑由于电池寿命有限而导致的超低功耗。本文探讨了这种权衡的架构、逻辑和电路级方法。架构级别的容错技术可以大致分为空间冗余和时间冗余。通过一个计数器(二进制和灰色)的例子,我们表明时间冗余最适合这些超低功耗和低性能的系统,因为它比区域冗余技术消耗的功率少30%。电路技术允许在每次测量中进行约50%的功率可靠性折衷。使用SPICE开发了一种基于低级故障模拟的方法,该方法允许对当前和未来CMOS技术的功耗和可靠性进行详细的电路模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Trading off reliability and power-consumption in ultra-low power systems
Critical systems like pace-makers, defibrillators, wearable computers and other electronic gadgets have to be designed not only for reliability but also for ultra-low power consumption due to limited battery life. This paper explores architecture, logic and circuit level approaches to this tradeoff. Fault tolerance techniques at the architecture level can be broadly classified into spatial or temporal redundancy. Using an example of counters (binary and Gray) we show that temporal redundancy is best suited for these ultra-low power and low performance systems as it consumes 30% less power than an area redundant technique. Circuit techniques allow power-reliability tradeoffs of about 50% in each measure. A methodology is developed based on low-level fault simulation using SPICE, which allows detailed circuit models for both power consumption and reliability in current and future CMOS technology.
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