Power Dissipation and Cell Area: Quaternary Logic CMOS Inverter vs. Four-State SWS-FET Inverter

Abstract

Power dissipation of spatial wave function switched (SWS) FETs four-state inverter is the focus of this paper. The current can flow through multiple channels in a (SWS)-FETs, which comprises vertically stacked quantum well/quantum dot channels. Using four voltage levels, the four-state SWS transistor inverter circuit is simulated. Cadence was used to perform SWS-FET inverter circuit simulations to evaluate power dissipation. To develop the SWS-FET model, an Analog Behavioral Model (ABM) and the Berkeley Short-Channel IGFET Model (BSIM4.6) were combined. To evaluate the inverter circuit’s transient behavior, a 0.18-μm technology node was used. The improvement in power dissipation, the frequency of operation, and reduction in cell area are all approximately is by a factor of 2-3. As a result, circuits based on SWS-FET inverters overcome the limitations of earlier implementations of 4-state logic circuits.