Title :
A 260mV L-shaped 7T SRAM with bit-line (BL) Swing expansion schemes based on boosted BL, asymmetric-VTH read-port, and offset cell VDD biasing techniques
Author :
Chen, Ming-Pin ; Chen, Lai-Fu ; Chang, Meng-Fan ; Yang, Shu-Meng ; Kuo, Yao-Jen ; Wu, Jui-Jen ; Ho, Mon-Shu ; Su, Hsiu-Yun ; Chu, Yuan-Hua ; Wu, Wen-Ching ; Yang, Tzu-Yi ; Yamauchi, Hiroyuki
Author_Institution :
Nat. Tsing Hua Univ., Hsinchu, Taiwan
Abstract :
This work proposes bit-line (BL) swing expansion schemes (BL-EXPD), which minimize the product (A*VDDmin) of SRAM cell area (A) and the minimum operation voltage (VDDmin) to the best of our knowledge. The key-enablers to minimize A*VDDmin are: L-shaped 7T cell (L7T) and BL-EXPD. The L7T features: (1) an area efficient cell layout, (2) a read-disturb free decoupled 1T read port (RP), and (3) a half-select disturb free write back scheme[1]. The BL-EXPD enables a 9× larger read-BL (RBL) swing at the 6σ point than that in our previously proposed Z8T[2] and allows single BL sensing to reduce cell area. A fabricated 65nm 256-row BL 32Kb L7T SRAM achieved a 260mV VDDmin. As a result, its A*VDDmin is ~50% lower than for Z8T and conventional 8T SRAM cells [3,4].
Keywords :
SRAM chips; 8T SRAM cells; BL-EXPD; L-shaped 7T SRAM cell area; RBL swing; asymmetric read-port; bit rate 32 kbit/s; bit-line swing expansion schemes; boosted BL; cell area reduction; half-select disturb free write back scheme; key-enablers; offset cell VDD biasing techniques; read-BL swing; read-disturb free decoupled 1T read port; single BL sensing; size 65 nm; voltage 260 mV; Arrays; Hot carrier injection; Layout; Random access memory; Sensors; Topology; Very large scale integration;
Conference_Titel :
VLSI Circuits (VLSIC), 2012 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4673-0848-9
Electronic_ISBN :
978-1-4673-0845-8
DOI :
10.1109/VLSIC.2012.6243815
