Practicing designers, students, and educators in the semiconductor field face an ever expanding portfolio of MOSFET models. In Compact MOSFET Models for VLSI Design , A.B. Bhattacharyya presents a unified perspective on the topic, allowing the practitioner to view and interpret device phenomena concurrently using different modeling strategies. Readers will learn to link device physics with model parameters, helping to close the gap between device understanding and its use for optimal circuit performance. Bhattacharyya also lays bare the core physical concepts that will drive the future of VLSI
1Author was a graduate student at the University of Washington during the course of this work. A com...
The new outline of our introductory course on microelectronic devices is presented. The new course h...
This paper presents a physics-based advanced compact MOSFET (ACM) model. The ACM model is composed o...
This modern treatise on compact models for circuit computer-aided design (CAD) presents industry sta...
In this chapter, we present the capabilities of the VHDL-AMS hardware description language for devel...
Research is reported that aims at a framework for efficient development of multi-gate MOSFET models ...
This paper describes the ideas and philosophy behind a new compact model (CM) for deep-submicron MOS...
We aim at constructing a common platform for compact model development based on the Verilog-A langua...
COMPUTER SCIENCE The compact model of a circuit or device is a system of linear and/or nonlinear dif...
This work proposes a truly compact MOSFET model that contains only four parameters to assist an inte...
The initiative to standardize compact (SPICE-like) modelling has recently gained momentum in the sem...
This paper summarizes BSIM5 MOSFET model for aggressively scaled CMOS technology which was released ...
A novel approach to formulating unified compact threshold voltage and drain current models for deep-...
A simple MOSFET model is presented in this paper. The model focuses on simple concepts that stresses...
incentive to concentrate persistently on device modeling. The fundamental properties which represent...
1Author was a graduate student at the University of Washington during the course of this work. A com...
The new outline of our introductory course on microelectronic devices is presented. The new course h...
This paper presents a physics-based advanced compact MOSFET (ACM) model. The ACM model is composed o...
This modern treatise on compact models for circuit computer-aided design (CAD) presents industry sta...
In this chapter, we present the capabilities of the VHDL-AMS hardware description language for devel...
Research is reported that aims at a framework for efficient development of multi-gate MOSFET models ...
This paper describes the ideas and philosophy behind a new compact model (CM) for deep-submicron MOS...
We aim at constructing a common platform for compact model development based on the Verilog-A langua...
COMPUTER SCIENCE The compact model of a circuit or device is a system of linear and/or nonlinear dif...
This work proposes a truly compact MOSFET model that contains only four parameters to assist an inte...
The initiative to standardize compact (SPICE-like) modelling has recently gained momentum in the sem...
This paper summarizes BSIM5 MOSFET model for aggressively scaled CMOS technology which was released ...
A novel approach to formulating unified compact threshold voltage and drain current models for deep-...
A simple MOSFET model is presented in this paper. The model focuses on simple concepts that stresses...
incentive to concentrate persistently on device modeling. The fundamental properties which represent...
1Author was a graduate student at the University of Washington during the course of this work. A com...
The new outline of our introductory course on microelectronic devices is presented. The new course h...
This paper presents a physics-based advanced compact MOSFET (ACM) model. The ACM model is composed o...