Litcius/Paper detail

Physics-Based and Closed-Form Model for Cryo-CMOS Subthreshold Swing

Arnout Beckers, Jakob Michl, Alexander Grill, B. Kaczer, M. Garcia Bardon, Bertrand Parvais, B. Govoreanu, Kristiaan De Greve, Gaspard Hiblot, Geert Hellings

2023IEEE Transactions on Nanotechnology20 citationsDOI

Abstract

Cryogenic semiconductor device models are essential in designing control systems for quantum devices and in bench-marking the benefits of cryogenic cooling for high-performance computing. In particular, the saturation of subthreshold swing due to band tails is an important phenomenon to include in low temperature analytical MOSFET models as it predicts theoretical lower bounds on the leakage power and supply voltage in tailored cryogenic CMOS technologies with tuned threshold voltages. Previous physics-based modeling required to evaluate functions with no closed-form solutions, defeating the purpose of fast and efficient model evaluation. Thus far, only the empirically proposed expressions are in closed form. This article bridges this gap by deriving a physics-based and closed-form model for the full saturating trend of the subthreshold swing from room down to low temperature. The proposed model is compared against experimental data taken on some long and short devices from a commercial 28-nm bulk CMOS technology down to 4.2K

Topics & Concepts

Subthreshold conductionCMOSPhysicsSwingThreshold voltageLeakage (economics)MOSFETCryogenicsSemiconductor device modelingVoltageElectronic engineeringElectrical engineeringEngineeringOptoelectronicsTransistorQuantum mechanicsMacroeconomicsEconomicsAcousticsAdvancements in Semiconductor Devices and Circuit DesignSemiconductor materials and devicesLow-power high-performance VLSI design