This paper reviews present compact model development and outlines the main features of the PUNISM, an advanced surface potential-based MOSFET model. The PUNSIM is developed to overcome mainly drawbacks of the traditional surface potential based models and aiming at fulfilling the features: The first-principle derivation of the complete MOSFET surface potential equation; Physics based analytic solution of the surface potential equation; Accurate description of inversion charge; Physics based channel current equation and calculation; Self-consistently modelling of short-channel effects; Unique parameter scaling technology to ensure the high accuracy parameter extraction. PUNSIM model takes the quite analytic formulation without any need for t...
Surface-potential-based MOSFETmodeling is shown to be the right direction. Model parameters reflect ...
A circuit simulation model is presented suitable for the design of analogue and digital SOS MOSFET i...
With the continuous scaling of CMOS technologies, Silicon-on-Insulator (SOI) technologies have becom...
This paper reviews present compact model development and outlines the main features of the PUNISM, a...
This paper reports benchmark test results of some conventional surface potential-based models and PU...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
Like other surface-potential based model, our surface-potential-plus model starts with charge-sheet ...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
This paper outlines the advanced Surface-Potential-Plus (SPP) approach for the next generation CMOS ...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
A physics-based analytic solution to the surface potential from the accumulation to the strong-inver...
Abstract—This work describes an advanced physics-based com-pact MOSFET model (SP). Both the quasista...
A physics-based analytic solution to the surface potential from the accumulation to the strong-inver...
Abstract. This paper addresses current issues in compact MOSFET modeling, provides an overview and s...
Surface-potential-based MOSFETmodeling is shown to be the right direction. Model parameters reflect ...
A circuit simulation model is presented suitable for the design of analogue and digital SOS MOSFET i...
With the continuous scaling of CMOS technologies, Silicon-on-Insulator (SOI) technologies have becom...
This paper reviews present compact model development and outlines the main features of the PUNISM, a...
This paper reports benchmark test results of some conventional surface potential-based models and PU...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
An analytic MOSFET surface potential model with inclusion of the poly-gate accumulation, depletion, ...
Like other surface-potential based model, our surface-potential-plus model starts with charge-sheet ...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
This paper outlines the advanced Surface-Potential-Plus (SPP) approach for the next generation CMOS ...
An explicit surface potential model of the bulk-MOSFET with inclusion of the poly-gate accumulation,...
A physics-based analytic solution to the surface potential from the accumulation to the strong-inver...
Abstract—This work describes an advanced physics-based com-pact MOSFET model (SP). Both the quasista...
A physics-based analytic solution to the surface potential from the accumulation to the strong-inver...
Abstract. This paper addresses current issues in compact MOSFET modeling, provides an overview and s...
Surface-potential-based MOSFETmodeling is shown to be the right direction. Model parameters reflect ...
A circuit simulation model is presented suitable for the design of analogue and digital SOS MOSFET i...
With the continuous scaling of CMOS technologies, Silicon-on-Insulator (SOI) technologies have becom...