Statistical 3D ‘atomistic’ simulation of decanano MOSFETs

A 3D statistical ‘atomistic’ simulation technique has been developed to study the effect of the random dopant induced parameter fluctuations in aggressively scaled MOSFETs. Efficient implementation of the ‘atomistic’ simulation approach has been used to investigate the threshold voltage standard deviation and lowering in the case of uniformly doped MOSFETs, and in fluctuation-resistant architectures utilising epitaxial-layers and delta-doping. The effect of the random doping in the polysilicon gate on the threshold voltage fluctuations has also been thoroughly investigated. The influence of a single-charge trapping on the channel conductivity in decanano MOSFETs is studied in the ‘atomistic’ framework as well. Quantum effects are taken into consideration in our ‘atomistic’ simulations using the density gradient formalism. c 2000 Academic Press