Title :
A 28 nm Dual-Port SRAM Macro With Screening Circuitry Against Write-Read Disturb Failure Issues
Author :
Ishii, Yuichiro ; Fujiwara, Hidehiro ; Tanaka, Shinji ; Tsukamoto, Yasumasa ; Nii, Koji ; Kihara, Yuji ; Yanagisawa, Kazumasa
Author_Institution :
Renesas Electron. Corp., Tokyo, Japan
Abstract :
Showing that the worst minimum operating voltage (Vmin) of an 8T dual-port (DP) SRAM is determined by the write/read-disturbing condition with a finite clock skew, we propose a circuit technique to detect the worst Vmin in asynchronous clock operation. This circuitry allows us to screen the worst bit in an array that is conventionally obtained by a costly and time-consuming test procedure. For instance, we can at least realize 400x speed-up for the test time compared to the conventional method. We designed and fabricated a 512-kb DP-SRAM macro using 28-nm low-power CMOS technology, and confirmed experimentally that the worst Vmin can be successfully reproduced within 6% discrepancy by our proposed circuit.
Keywords :
CMOS memory circuits; SRAM chips; clocks; low-power electronics; 8T DP SRAM macro; 8T dual-port SRAM macro; asynchronous clock operation; finite clock skew; low-power CMOS technology; minimum operating voltage; screening circuitry; size 28 nm; storage capacity 512 Kbit; time-consuming test procedure; write-read disturb failure issue; Arrays; Clocks; Focusing; Integrated circuit modeling; Logic gates; Random access memory; Synchronization; 28 nm; 8T; CMOS; disturb; dual-port; embedded SRAM; memory; screening; testability;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2011.2164021
