并行半导体器件模拟:从功率到“原子”器件

1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116) Pub Date : 1998-10-19 DOI:10.1109/IWCE.1998.742707

A. Asenov, A. R. Brown, S. Roy

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引用次数: 2

摘要

本文讨论了具有分布式存储器和消息传递编程范例的网格连接MIMD平台上半导体器件并行仿真的各个方面。我们描述了在各种设备的模拟中采用的空间域分解方法，结构拓扑矩形二维和三维有限元网格的生成以及使用模拟退火技术对其划分的优化。开发高效、可扩展的并行求解器是并行仿真的核心问题，并讨论了并行SOR、共轭梯度和多网格求解器的设计。从decanano mosfet的“原子”模拟到额定电压为1000 V的功率igbt的模拟，示例说明了域分解方法。

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Parallel semiconductor device simulation: from power to 'atomistic' devices

This paper discusses various aspects of the parallel simulation of semiconductor devices on mesh connected MIMD platforms with distributed memory and a message passing programming paradigm. We describe the spatial domain decomposition approach adopted in the simulation of various devices, the generation of structured topologically rectangular 2D and 3D finite element grids and the optimisation of their partitioning using simulated annealing techniques. The development of efficient and scalable parallel solvers is a central issue of parallel simulations and the design of parallel SOR, conjugate gradient and multigrid solvers is discussed. The domain decomposition approach is illustrated in examples ranging from 'atomistic' simulation of decanano MOSFETs to simulation of power IGBTs rated for 1000 V.

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1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116)

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