DocumentCode
2172435
Title
Impact of voltage scaling on nanoscale SRAM reliability
Author
Chandra, Vikas ; Aitken, Robert
Author_Institution
ARM R&D
fYear
2009
fDate
20-24 April 2009
Firstpage
387
Lastpage
392
Abstract
Low voltage SRAMs are critical for power constrained designs. Currently, the choice of supply voltage in SRAMs is governed by bit cell read static noise margin, writability, data retention etc. However, in the nanometer technology nodes, the choice of supply voltage impacts the reliability of SRAMs as well. Two important reliability challenges for current and future generation SRAMs are gate oxide degradation and soft error susceptibility. The current generation transistors have ultra-thin gate oxides to improve the device performance and they are prone to breakdown due to higher level of electric field stress. In addition, the soft error susceptibility of SRAMs has significantly increased in the nanometer regime. In this work, we have quantified the impact of voltage scaling on the soft error susceptibility of gate oxide degraded SRAMs.We show that when gate oxide degradation is taken into account, there exists an optimal voltage (Vopt) at which the bit cell Qcrit is maximized. Further, we show that both Vopt and Qcritmax are a function of the level of oxide degradation. Finally, we investigate the impact of technology node scaling and analyze the trend of Vopt and Qcritmax. As the technology node shrinks to sub-45nm, both Vopt and Qcritmax decrease sharply, thus significantly decreasing the reliability of SRAMs.
Keywords
SRAM chips; integrated circuit reliability; nanoelectronics; breakdown; current generation transistors; electric field stress; gate oxide degradation; nanoscale SRAM reliability; soft error susceptibility; supply voltage; ultra-thin gate oxides; voltage scaling; Breakdown voltage; CMOS technology; Degradation; Electric breakdown; Noise robustness; Random access memory; Research and development; Single event upset; Stress; Tunneling;
fLanguage
English
Publisher
ieee
Conference_Titel
Design, Automation & Test in Europe Conference & Exhibition, 2009. DATE '09.
Conference_Location
Nice
ISSN
1530-1591
Print_ISBN
978-1-4244-3781-8
Type
conf
DOI
10.1109/DATE.2009.5090694
Filename
5090694
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