Title :
Soft Error Susceptibilities of 22 nm Tri-Gate Devices
Author :
Seifert, Norbert ; Gill, Balkaran ; Jahinuzzaman, Shah ; Basile, Joseph ; Ambrose, Vinod ; Shi, Quan ; Allmon, Randy ; Bramnik, Arkady
Author_Institution :
Intel Corp., Hillsboro, OR, USA
Abstract :
We report on measured radiation-induced soft error rates (SER) of memory and logic devices built in a 22 nm high-k metal gate bulk Tri-Gate technology. Our results demonstrate excellent single event upset (SEU) scaling benefits of tri-gate devices. For cosmic radiation, SEU SER reduction levels of the order of are observed relative to 32 nm planar devices, while for alpha-particles, the measured SEU SER benefit is in excess of . Similar improvements are observed for Tri-Gate combinational logic and memory array multi-cell upset (MCU) rates. Reduced SER (RSER) device SER performances (relative to standard, non -RSER devices) are on par or better than that of tested 32 nm planar devices. Finally, a novel, efficient SER reduction design called RTS is introduced.
Keywords :
MOSFET; combinational circuits; logic arrays; nuclear electronics; radiation hardening (electronics); RTS; SER reduction design; SEU SER reduction levels; alpha-particles; cosmic radiation; high-k+metal gate bulk trigate technology; logic devices; memory devices; planar devices; radiation-induced soft error rates; reduced SER device SER performances; single event upset scaling benefits; size 22 nm; size 32 nm; soft error susceptibilities; standard nonRSER devices; trigate combinational logic array multicell upset rates; trigate combinational memory array multicell upset rates; trigate devices; FinFETs; Latches; Logic devices; Random access memory; Single event upset; Testing; FinFET; Tri-Gate; radiation; single event effect (SEE); soft error; soft error rate (SER);
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2012.2218128
