Title :
A 6T-SRAM With a Post-Process Electron Injection Scheme That Pinpoints and Simultaneously Repairs Disturb Fails for 57% Less Read Delay and 31% Less Read Energy
Author :
Miyaji, K. ; Suzuki, Takumi ; Miyano, S. ; Takeuchi, Ken
Author_Institution :
Dept. of Electr., Electron. & Commun. Eng., Chuo Univ., Tokyo, Japan
Abstract :
A post-process carrier injection scheme for 6T-SRAM is proposed. The proposed scheme pinpoints and simultaneously repairs only cells that have low read disturb margin by injecting electrons to the strong pass gate transistor. Compared with the conventional electron injection scheme that injects electrons to either side of the pass gate transistor of all cells, the proposed scheme achieves 57% less BL delay, 31% less read energy, 32 ~ 256 times shorter injection time and 3% area reduction. The concept is validated with 2, 64, 128 kb SRAM in 40 nm standard CMOS process. Experiments show around 40 mV operation margin increase after the proposed injection.
Keywords :
CMOS memory circuits; SRAM chips; 6T-SRAM; disturb fails; injection time; pass gate transistor; post-process carrier injection scheme; post-process electron injection scheme; read delay; read disturb margin; read energy; size 40 nm; standard CMOS process; storage capacity 128 Kbit; storage capacity 2 Kbit; storage capacity 64 Kbit; Arrays; Delays; Logic gates; Maintenance engineering; SRAM cells; Transistors; Asymmetric pass gate transistor; SRAM; hot electron injection; random variation; read disturb margin;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2013.2262735
