Evaluation of Read- and Write-Assist circuits for GeOI FinFET 6T SRAM cells
Journal
Proceedings - IEEE International Symposium on Circuits and Systems
Pages
1122-1125
Date Issued
2014
Author(s)
Abstract
This paper evaluates the impacts of Read- and Write-Assist circuits on the GeOI FinFET 6T SRAM cells compared with the SOI counterparts. The Word-Line Under-Drive (WLUD) Read-Assist is more efficient to improve the Read Static Noise Margin (RSNM) and Read VMIN of FNSP GeOI FinFET SRAM cells compared with the SOI counterparts. GeOI FinFET SRAM cells with WLUD show smaller cell Read access-time compared with the SOI FinFET SRAM cells at both 25°C and 125 °C. Negative Bit-Line (NBL) Write-Assist is more efficient to improve the Write Static Noise Margin (WSNM) than VCS (cell supply) lowering for both GeOI and SOI FinFET SRAM cells. NBL Write-Assist shows larger WSNM improvement for GeOI FinFET SRAM cells than the SOI counterparts at 125°C. © 2014 IEEE.
Subjects
GeOI FinFET; Read-Assist; SRAM; Static Noise Margin; Write-Assist
Other Subjects
Cells; Cytology; Integrated circuits; 6t sram cells; Bit lines; GeOI FinFET; Read assists; Read static noise margin (RSNM); SOI FinFETs; Static noise margin; Write-Assist; Static random access storage
Type
conference paper