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JOURNAL ARTICLE

3D Parallel Monte Carlo Simulation of GaAs MESFETs

Subramaniam PennathurCan K. SandalciÇetin Kaya KoçStephen M. Goodnick

Year: 1998 Journal:   VLSI design Vol: 6 (1-4)Pages: 273-276   Publisher: Hindawi Publishing Corporation
DOI: 10.1155/1998/64531
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Abstract

We have investigated three‐dimensional (3D) effects in sub‐micron GaAs MESFETs using a parallel Monte Carlo device simulator, PMC‐3D [1]. The parallel algorithm couples a standard Monte Carlo particle simulator for the Boltzmann equation with a 3D Poisson solver using spatial decomposition of the device domain onto separate processors. The scaling properties of the small signal parameters have been simulated for both the gate width in the third dimension as well as the gate length. For realistic 3D device structures, we find that the main performance bottleneck is the Poisson solver rather than the Monte Carlo particle simulator for the parallel successive overrelaxation (SOR) scheme employed in [1]. A parallel multigrid algorithm is reported and compared to the previous SOR implementation, where considerable speedup is obtained.

Keywords:
Monte Carlo method Multigrid method Speedup Solver Computer science Domain decomposition methods Parallel tempering Kinetic Monte Carlo Dynamic Monte Carlo method Computational science Monte Carlo molecular modeling Parallel computing Simulation Physics Markov chain Monte Carlo Mathematics Partial differential equation Finite element method Mathematical analysis

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Topics

Advancements in Semiconductor Devices and Circuit Design
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advanced Data Storage Technologies
Physical Sciences →  Computer Science →  Computer Networks and Communications
Semiconductor materials and devices
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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