Title :
Double-Sampling Design Paradigm—A Compendium of Architectures
Author :
Nicolaidis, Michael
Author_Institution :
TIMA Lab., Grenoble INP, Grenoble, France
Abstract :
Aggressive technology scaling impacts dramatically parametric yield, life-span, and reliability of circuits fabricated in advanced nanometric nodes. These issues may become showstoppers when scaling deeper to the sub-10-nm domain. To mitigate them, various approaches have been proposed, including increasing guard bands, fault-tolerant design, and canary circuits. Each of them is subject to several of the following drawbacks: large area, power, or performance penalty; false positives; false negatives; and insufficient coverage of the failures encountered in the deep nanometric domain. This paper presents various double-sampling architectures, which allow mitigating all these failures at low area and performance penalties and also enable significant power reduction.
Keywords :
integrated circuit design; integrated circuit manufacture; integrated circuit reliability; nanoelectronics; canary circuits; double-sampling design paradigm; fault-tolerant design; life-span; parametric yield; reliability; Circuit faults; Clocks; Delays; Flip-flops; Latches; Pipelines; Integrated circuit reliability; circuit aging; circuitaging; design for reliability; double sampling; double-sampling; soft errors; soft-errors; variability;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2014.2388358
