SRAM stability analysis considering gate oxide SBD, NBTI and HCI

Author

Qin, Jin ; Li, Xiaojun ; Bernstein, Joseph B.

Author_Institution

Univ. of Maryland, College Park

fYear

2007

fDate

15-18 Oct. 2007

Firstpage

33

Lastpage

37

Abstract

For ultrathin gate oxide, soft breakdown (SBD) has been extensively studied but not fully integrated into circuit reliability simulation. Using a 6T SRAM cell as a generic circuit example, the time-dependent SBD was incorporated into circuit degradation analysis based on the exponential defect current growth model [1]. SRAM cell stability degradation due to individual failure mechanism was characterized. Multiple failure mechanisms degradation effect was also studied in regard of SRAM cell operation. Simulation results showed that gate oxide SBD is the dominating failure mechanism which causes SRAM stability and operation degradation, NBTI and HCI have much less effect.

Keywords

SRAM chips; electric breakdown; stability; HCI; NBTI; SBD; SRAM stability analysis; cell stability degradation; multiple failure mechanisms degradation; soft breakdown; ultrathin gate oxide; Circuit simulation; Degradation; Electric breakdown; Failure analysis; Human computer interaction; Integrated circuit reliability; Niobium compounds; Random access memory; Stability analysis; Titanium compounds;

fLanguage

English

Publisher

ieee

Conference_Titel

Integrated Reliability Workshop Final Report, 2007. IRW 2007. IEEE International

Conference_Location

S. Lake Tahoe, CA

ISSN

1930-8841

Print_ISBN

978-1-4244-1771-9

Electronic_ISBN

1930-8841

Type

conf

DOI

10.1109/IRWS.2007.4469217

Filename

4469217