The paper studies the convergence behavior of Monte Carlo schemes for semiconductors. A detailed analysis of the systematic error with respect to numerical parameters is performed. Different sources of systematic error are pointed out and illustrated in a spatially one-dimensional test case. The error with respect to the number of simulation particles occurs during the calculation of the internal electric field. The time step error, which is related to the splitting of transport and electric field calculations, vanishes sufficiently fast. The error due to the approximation of the trajectories of particles depends on the ODE solver used in the algorithm. It is negligible compared to the other sources of time step error, when a second order ...
The Drift Diffusion equations constitute the simplest and most commonly used model for simulating se...
AbstractWe propose in the present work a numerical solution employed to treat the coupled Monte Carl...
A critical review of the Monte Carlo simulation as applied to semiconductor device modelling is pres...
The paper studies the convergence behavior of Monte Carlo schemes for semiconductors. A detailed ana...
Introduction Conventional algorithms for semiconductor device modeling are based on steady-state tra...
A homogeneous (bulk) silicon semiconductor is studied by using the Direct Simulation Monte Carlo (DS...
In this paper, optimal error estimates are obtained for a method for numerically solving the so-call...
The contribution is mainly related to advanced problems in Monte Carlo simulations. The first sectio...
We analyze and benchmark the error and the convergence order of finite difference, finite-element as...
Abs t rac t A method for assigning Monte-Carlo calculated quantities to nonuniform grids is pre-sent...
As semiconductor technology continues to evolve, numerical modeling of semiconductor devices becomes...
The Monte Carlo method is a very general mathematical tool for the solution of a large variety of pr...
Abstract-This paper highlights he importance ofequation formulation and associated programming effic...
This is a collection of data files, used in the publication Challenges for drift-diffusion simulatio...
Numerical simulation and modelling of electric circuits and semiconductor devices are of primal inte...
The Drift Diffusion equations constitute the simplest and most commonly used model for simulating se...
AbstractWe propose in the present work a numerical solution employed to treat the coupled Monte Carl...
A critical review of the Monte Carlo simulation as applied to semiconductor device modelling is pres...
The paper studies the convergence behavior of Monte Carlo schemes for semiconductors. A detailed ana...
Introduction Conventional algorithms for semiconductor device modeling are based on steady-state tra...
A homogeneous (bulk) silicon semiconductor is studied by using the Direct Simulation Monte Carlo (DS...
In this paper, optimal error estimates are obtained for a method for numerically solving the so-call...
The contribution is mainly related to advanced problems in Monte Carlo simulations. The first sectio...
We analyze and benchmark the error and the convergence order of finite difference, finite-element as...
Abs t rac t A method for assigning Monte-Carlo calculated quantities to nonuniform grids is pre-sent...
As semiconductor technology continues to evolve, numerical modeling of semiconductor devices becomes...
The Monte Carlo method is a very general mathematical tool for the solution of a large variety of pr...
Abstract-This paper highlights he importance ofequation formulation and associated programming effic...
This is a collection of data files, used in the publication Challenges for drift-diffusion simulatio...
Numerical simulation and modelling of electric circuits and semiconductor devices are of primal inte...
The Drift Diffusion equations constitute the simplest and most commonly used model for simulating se...
AbstractWe propose in the present work a numerical solution employed to treat the coupled Monte Carl...
A critical review of the Monte Carlo simulation as applied to semiconductor device modelling is pres...