Abstract

We have, for the first time, experimentally quantified random dopant distribution (RDD) induced V, standard deviation up to 40 mV for 20 nm-gate planar CMOS. Discrete dopants have been statistically positioned in the 3D channel region to examine associated carrier transportation characteristics, concurrently capturing "dopant concentration variation" and "dopant position fluctuation". As gate length further scaling down to 15 nm, the newly developed discrete-dopant scheme features an effective solution to suppress 3-sigma-edge single digit dopants induced V, variation by gate work function modulation. The extensive study may postpone the scaling limit projected for planar CMOS.