Title :
Robust bias temperature instability refresh design and methodology for memory cell recovery
Author :
Touma, Gerard ; Kanj, Rouwaida ; Joshi, Rajan ; Kayssi, Ayman ; Chehab, Ali
Author_Institution :
American Univ. of Beirut, Beirut, Lebanon
Abstract :
We propose a robust hardware based methodology for efficient bias temperature instability recovery for SRAM designs. The methodology exploits existing memory infrastructure to enable fast and reliable cell data flipping. Most importantly, the proposed methodology allows for localized write back and inverted read operations thereby eliminating the need for explicit inversion. A detailed analysis illustrates minimal overhead in terms of both control signal and delays for the proposed design. The impact of supply voltage, process variations and bitline loading is evaluated. A leakage monitor is proposed to initiate and trigger the refresh.
Keywords :
SRAM chips; integrated circuit design; integrated circuit reliability; negative bias temperature instability; SRAM designs; bitline loading; control signal; explicit inversion; inverted read operations; leakage monitor; localized write back operation; memory cell recovery methodology; memory infrastructure; minimal overhead; process variations; reliable cell data flipping; robust bias temperature instability refresh design; supply voltage; Degradation; Delays; Logic gates; Monitoring; SRAM cells; Stress; NBTI; PBTI SRAM; Recovery; Refresh; Yield;
Conference_Titel :
IC Design & Technology (ICICDT), 2014 IEEE International Conference on
Conference_Location :
Austin, TX
DOI :
10.1109/ICICDT.2014.6838603
