Reductions of instantaneous power by ripple scan clocking

23rd IEEE VLSI Test Symposium (VTS'05) Pub Date : 2005-05-01 DOI:10.1109/VTS.2005.71
Kirti Joshi, E. MacDonald
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引用次数: 11

Abstract

The exponential increase in the number of transistors implemented in integrated circuits in each new generation of CMOS technology is causing an explosion not only in functional power consumption but in test power consumption as well. Although most research has focused mainly on reducing average power or the total energy consumed during test, instantaneous power consumption is also increasing and posing a serious threat for the ability of a chip to be tested in a manufacturing test floor - or worse in field testing using built-in-self test (BIST) where battery-powered applications lack the supply voltage robustness of automated test equipment (ATE). In this paper, a flip-flop design is proposed that is the cornerstone of a novel scan clocking architecture inspired by the need to reduce instantaneous power during scan.
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通过纹波扫描时钟降低瞬时功率
在每一代新CMOS技术中,集成电路中实现的晶体管数量呈指数级增长,不仅在功能功耗方面,而且在测试功耗方面也引起了爆炸式增长。尽管大多数研究主要集中在降低测试期间的平均功耗或总能耗上,但瞬时功耗也在增加,并对芯片在制造测试平台中的测试能力构成严重威胁,或者更糟的是,在使用内置自检(BIST)的现场测试中,电池供电的应用缺乏自动化测试设备(ATE)的供电电压稳健性。本文提出了一种触发器设计,该设计是一种新型扫描时钟架构的基础,其灵感来自于降低扫描过程中的瞬时功率的需要。
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23rd IEEE VLSI Test Symposium (VTS'05)
23rd IEEE VLSI Test Symposium (VTS'05)
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