Title :
Soft Error Rate Improvements in 14-nm Technology Featuring Second-Generation 3D Tri-Gate Transistors
Author :
Seifert, Norbert ; Jahinuzzaman, Shah ; Velamala, Jyothi ; Ascazubi, Ricardo ; Patel, Nikunj ; Gill, Balkaran ; Basile, Joseph ; Hicks, Jeffrey
Author_Institution :
Corp.Intel Corp., Hillsboro, OR, USA
Abstract :
We report on radiation-induced soft error rate (SER) improvements in the 14-nm second generation high- k + metal gate bulk tri-gate technology. Upset rates of memory cells, sequential elements, and combinational logic were investigated for terrestrial radiation environments, including thermal and high-energy neutrons, high-energy protons, and alpha-particles. SER improvements up to ~ 23× with respect to devices manufactured in a 32-nm planar technology are observed. The improvements are particularly pronounced in logic devices, where aggressive fin depopulation combined with scaling of relevant fin parameters results in a ~ 8× reduction of upset rates relative to the first-generation tri-gate technology.
Keywords :
MOSFET; alpha-particle effects; proton effects; radiation hardening (electronics); alpha particle; combinational logic; high energy neutron; high energy protons; high-k metal gate bulk trigate technology; radiation induced soft error rate; second generation 3D trigate transistors; size 14 nm; terrestrial radiation environment; thermal neutron; Alpha particles; FinFETs; Neutrons; Protons; Radiation effects; Terrestrial atmosphere; Finfet; SEE; SER; radiation; single-event effect; soft error; tri-gate;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2015.2495130
