Low frequency noise variability in high-k/metal gate stack 28nm bulk and FD-SOI CMOS transistors

In this paper, we present, for the first time, a thorough investigation of low frequency noise (LFN) and statistical noise variability in high-k/metal gate stack 28nm bulk and FD-SOI CMOS transistors. The experimental results are well interpreted by Monte-Carlo LFN simulations based on the random spatial and energy distribution of discrete traps in the gate dielectric. Our results clearly indicate that the LFN variability of 28nm FD-SOI CMOS technology is improved as compared to previous 45nm and 32nm bulk CMOS technologies.