Title :
An 8T-SRAM for Variability Tolerance and Low-Voltage Operation in High-Performance Caches
Author :
Chang, Leland ; Montoye, Robert K. ; Nakamura, Yutaka ; Batson, Kevin A. ; Eickemeyer, Richard J. ; Dennard, Robert H. ; Haensch, Wilfried ; Jamsek, Damir
Author_Institution :
IBM, Yorktown Heights
fDate :
4/1/2008 12:00:00 AM
Abstract :
An eight-transistor (8T) cell is proposed to improve variability tolerance and low-voltage operation in high-speed SRAM caches. While the cell itself can be designed for exceptional stability and write margins, array-level implications must also be considered to achieve a viable memory solution. These constraints can be addressed by modifying traditional 6T-SRAM techniques and conceding some design complexity and area penalties. Altogether, 8T-SRAM can be designed without significant area penalty over 6T-SRAM while providing substantially improved variability tolerance and low-voltage operation with no need for secondary or dynamic power supplies. The proposed 8T solution is demonstrated in a high-performance 32 kb subarray designed in 65 nm PD-SOI CMOS that operates at 5.3 GHz at 1.2 V and 295 MHz at 0.41 V.
Keywords :
SRAM chips; cache storage; tolerance analysis; transistor circuits; 8T-SRAM; SRAM caches; eight-transistor cell; frequency 295 MHz; frequency 5.3 GHz; low-voltage operation; variability tolerance; voltage 0.41 V; voltage 1.2 V; Inverters; Logic arrays; Logic design; Logic devices; Power supplies; Pulse modulation; Random access memory; Redundancy; Stability; Threshold voltage; Multiport memories; SRAM; stability; static noise margin; variation; write margin;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2007.917509
