A numerical solution of the Drift-Diffusion Model for simulation of semiconductor devices based on the local meshless numerical method is presented. Numerical difficulties inherited from convection-dominated processes and high gradients near junctions typically results in oscillations within the solution. The difficulties can be alleviated by artificial dissipation schemes or by other stabilization approaches that often require a complex computation to improve the solution convergence. We applied a simple numerical approach with a local coupling and without special treatments of nonlinearities. The proposed approach is straightforward to implement and suitable for parallel execution. We demonstrate the efficiency of the proposed methodology...
The classic semiconductor device models are reviewed and discussed. They include the generic models ...
A new numerical method for semiconductor device simulation is presented. The additive decomposition ...
The classic semiconductor device models are reviewed and discussed. They include the generic models ...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
The Drift Diffusion equations constitute the simplest and most commonly used model for simulating se...
Theoretical and practical aspects of the design and implementation of the streamlinediffusion (SD) ...
In this article the authors concisely present several modern strategies that are applicable to drift...
A new numerical method for semiconductor device simulation is presented. The additive decomposition ...
A streamline-diffusion finite element method, specially designed for semiconductor device models, is...
This paper deals with domain decomposition methods for kinetic and drift diffusion semiconductor equ...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
The classic semiconductor device models are reviewed and discussed. They include the generic models ...
A new numerical method for semiconductor device simulation is presented. The additive decomposition ...
The classic semiconductor device models are reviewed and discussed. They include the generic models ...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
This work focuses on some of the most relevant numerical issues in the solution of the drift-diffusi...
The Drift Diffusion equations constitute the simplest and most commonly used model for simulating se...
Theoretical and practical aspects of the design and implementation of the streamlinediffusion (SD) ...
In this article the authors concisely present several modern strategies that are applicable to drift...
A new numerical method for semiconductor device simulation is presented. The additive decomposition ...
A streamline-diffusion finite element method, specially designed for semiconductor device models, is...
This paper deals with domain decomposition methods for kinetic and drift diffusion semiconductor equ...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
Numerical modeling of nonstationary transport effects using partial differential equations derived f...
The classic semiconductor device models are reviewed and discussed. They include the generic models ...
A new numerical method for semiconductor device simulation is presented. The additive decomposition ...
The classic semiconductor device models are reviewed and discussed. They include the generic models ...