Title :
GRAAL: a new fault tolerant design paradigm for mitigating the flaws of deep nanometric technologies
Author :
Nicolaidis, Michael
Author_Institution :
iRoC Technol. & TIMA Lab., Grenoble
Abstract :
Silicon-based CMOS technologies are fast approaching their ultimate limits. By approaching these limits, power dissipation, fabrication yield, and reliability worsen steadily making further nanometric scaling increasingly difficult. These problems would stop further scaling of silicon-based CMOS technologies at channel lengths between 10 and 20 nm. But even before reaching these limits, these problems could become show-stoppers unless new techniques are introduced to maintain acceptable levels of power dissipation, yield and reliability. The paper describes the principles of GRAAL (global reliability architecture approach for logic), a new fault tolerant architecture for logic designs, aimed to provide a global solution for mitigating the above mentioned problems.
Keywords :
CMOS integrated circuits; fault tolerance; integrated circuit reliability; integrated circuit yield; logic design; GRAAL; deep nanometric technologies; fault tolerant design; flaw mitigation; global reliability architecture approach for logic; integrated circuit reliability; integrated circuit yield; logic designs; nanometric scaling; power dissipation; silicon-based CMOS technology; Aging; CMOS technology; Circuit faults; Circuit testing; Delay; Dynamic voltage scaling; Fabrication; Fault tolerance; Power dissipation; Timing;
Conference_Titel :
Test Conference, 2007. ITC 2007. IEEE International
Conference_Location :
Santa Clara, CA
Print_ISBN :
978-1-4244-1127-6
Electronic_ISBN :
1089-3539
DOI :
10.1109/TEST.2007.4437666
