细长体热静电效应的解析建模与计算方法综述

2015 Eighth International Conference on Internet Computing for Science and Engineering (ICICSE) Pub Date : 2015-11-06 DOI:10.1109/ICICSE.2015.24

Hongsheng Wang, Zheng-hao Sun, Chongdao Wang, Q. Hao, J. Ni

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引用次数: 0

摘要

细长体热静电效应的分析方法和计算解通常采用多尺度建模、分子动力学模拟和数据可视化技术。在本工作中，我们综述了应用边界元法、有限元法、分子动力学和计算方法等分析方法来模拟细长体的热和静电效应。在建模和仿真中，采用分子动力学模拟的方法获取纳米级的逻辑关系。仿真是在异构计算环境下的云计算系统上进行的。它有助于克服多尺度物理模型以及计算和数据密集型模拟所带来的技术挑战。

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Review of Analytical Modeling and Computational Solutions for Thermo-electrostatics Effects of Slender Bodies

Analysis method and computational solutions for thermo-and electrostatics effects of slender bodies often using multi-scale modeling, molecular dynamic simulation and data visualization technique. In the present work, we conduct a review of applying analytical methods such as BEM and FEM and molecular dynamics and computational methodologies to model the thermal and electrostatics effects on the slender body. A molecular dynamics simulation is employed to obtain logical relationships at nano-level in the modeling and simulation. The simulation is conducted on a cloud-based computing system in a heterogeneous computational environment. It helps overcome the technical challenges cause by multiple-scale physics model, and both computational and data intensive simulations.

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2015 Eighth International Conference on Internet Computing for Science and Engineering (ICICSE)

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