Title :
Reliable cache design with on-chip monitoring of NBTI degradation in SRAM cells using BIST
Author :
Ahmed, Fahad ; Milor, Linda
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
Constant scaling in device dimensions and increasing operating temperatures and vertical electrical fields have all contributed to faster device aging due to NBTI. The problem is further compounded in SRAM cells where the devices are among the smallest for a technology node. Since NBTI degradation is a gradual process, it is proposed that if the threshold voltage increase in PMOS devices of SRAM cells can be monitored, cache arrays with failing cells can be reliably operated after reconfiguration, given available memory redundancy. Using an experimentally verified NBTI model, we study DC noise margins in conventional 6T SRAM cells, as a function of NBTI degradation, in the presence of process variations. An on-chip NBTI monitoring scheme is presented that can be embedded within conventional cache designs without affecting normal device operation, enabling the prediction of cell failure before its occurrence.
Keywords :
MOS memory circuits; SRAM chips; built-in self test; cache storage; integrated circuit design; integrated circuit reliability; 6T SRAM cells; DC noise margin; NBTI degradation; built-in self test; cell failure prediction; device aging; memory redundancy; negative bias temperature instability; reliable cache design; threshold voltage; Aging; Built-in self-test; Condition monitoring; Degradation; MOS devices; Niobium compounds; Random access memory; Temperature; Threshold voltage; Titanium compounds; NBTI monitoring; SRAM cell; cache; fault prediction; reliability; stability analysis;
Conference_Titel :
VLSI Test Symposium (VTS), 2010 28th
Conference_Location :
Santa Cruz, CA
Print_ISBN :
978-1-4244-6649-8
DOI :
10.1109/VTS.2010.5469614
