Circuit optimization of 4T, 6T, 8T, 10T SRAM bitcells in 28nm UTBB FD-SOI technology using back-gate bias control

Author

Asthana, Vivek ; Kar, M. ; Jimenez, Joaquin ; Noel, Jean-Philippe ; Haendler, S. ; Galy, Ph

Author_Institution

STMicroelectron., Noida, India

fYear

2013

fDate

16-20 Sept. 2013

Firstpage

415

Lastpage

418

Abstract

SRAM bitcell optimizations have been demonstrated in 28nm High-k Metal Gate UTBB (Ultra-Thin Body and BOX) FD-SOI technology. The back-gate terminal biasing leads to forward or reverse bias of the transistors and has been used to improve the bitcell electrical metrics. The derived 6T bitcell variants show a gain of 67% (25%) in cell current at 0.6V (1V), 45% reduction in write time at 0.6V, along with a gain in either write margin or static noise margin. Two 4T load-less bitcell variants using back-gate bias have been fabricated and compared for performance, power and stability margins. The back-gate biasing concept has been extended to optimize 8T, 10T bitcells and their simulation results are also presented.

Keywords

SRAM chips; circuit optimisation; field effect transistors; silicon-on-insulator; SRAM bitcells; UTBB FD-SOI technology; back-gate bias control; back-gate terminal biasing; bitcell electrical metrics; circuit optimization; forward bias; high-κ metal gate ultrathin body FD-SOI technology; reverse bias; static noise margin; transistors; voltage 0.6 V; write margin; Circuit stability; Logic gates; Low voltage; Random access memory; Silicon; Stability analysis; Transistors; Icell; RNM; SNM; SRAM; UTBB FD-SOI; WM;

fLanguage

English

Publisher

ieee

Conference_Titel

ESSCIRC (ESSCIRC), 2013 Proceedings of the

Conference_Location

Bucharest

ISSN

1930-8833

Print_ISBN

978-1-4799-0643-7

Type

conf

DOI

10.1109/ESSCIRC.2013.6649161

Filename

6649161