Finite difference numerical method for the superlattice Boltzmann transport equation and case comparison of CPU(C) and GPU(CUDA) implementations

Dmitri Priimak

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Finite difference numerical method for the superlattice Boltzmann transport equation and case comparison of CPU(C) and GPU(CUDA) implementations

机译：超晶格玻尔兹曼输运方程的有限差分数值方法以及CPU（C）和GPU（CUDA）实现的案例比较

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摘要

We present a finite difference numerical algorithm for solving two dimensional spatially homogeneous Boltzmann transport equation which describes electron transport in a semiconductor superlattice subject to crossed time dependent electric and constant magnetic fields. The algorithm is implemented both in C language targeted to CPU and in CUDA C language targeted to commodity NVidia GPU. We compare performances and merits of one implementation versus another and discuss various software optimisation techniques.

机译：我们提出了一种求解二维空间齐次玻尔兹曼输运方程的有限差分数值算法，该方程描述了半导体超晶格中电子的输运，该电子受交叉时间相关的电场和恒定磁场的影响。该算法以面向CPU的C语言和面向商品NVidia GPU的CUDA C语言实现。我们将一种实现与另一种实现的性能和优劣进行比较，并讨论各种软件优化技术。

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《Journal of Computational Physics》 |2014年第null期|共11页
作者
Dmitri Priimak;
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正文语种 eng
中图分类数学物理方法;
关键词
Boltzmann equation; Superlattice; Finite Difference Method; GPU; CUDA;

机译：玻尔兹曼方程;超晶格;有限差分法;GPU;CUDA;

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专利

1. Finite difference numerical method for the superlattice Boltzmann transport equation and case comparison of CPU(C) and GPU(CUDA) implementations [J] . Dmitri Priimak Journal of Computational Physics . 2014,第Null期

机译：超晶格玻尔兹曼输运方程的有限差分数值方法以及CPU（C）和GPU（CUDA）实现的案例比较
2. A comparison of CPU and GPU implementations for solving the Convection Diffusion equation using the local Modified SOR method [J] . Cotronis Yiannis, Konstantinidis Elias, Louka Maria A., Parallel Computing . 2014,第7期

机译：使用局部修正SOR方法求解对流扩散方程的CPU和GPU实现的比较
3. A NOTE ON THE LATTICE BOLTZMANN VERSUS FINITE-DIFFERENCE METHODS FOR THE NUMERICAL SOLUTION OF THE FISHER'S EQUATION [J] . SAURO SUCCI International Journal of Modern Physics, C. Physics and Computers . 2014,第1期

机译：关于Fisher方程数值解的格子Boltzmann有限差分法的一个注记
4. Comparison of the structure of equation systems and the GPU multifrontal solver for finite difference, collocation and finite element method [C] . P. Lipski, M. Wo?niak, M. Paszyński International Conference on Computational Science . 2015

机译：平等系统结构与GPU多逆转求解器的比较，用于有限差异，搭配和有限元方法
5. Accelerating discontinuous Galerkin method and finite difference method by using multiple GPUs with CUDA. [D] . Mu, Dawei. 2015

机译：通过使用带有CUDA的多个GPU来加速不连续的Galerkin方法和有限差分方法。
6. rapidGSEA: Speeding up gene set enrichment analysis on multi-core CPUs and CUDA-enabled GPUs [O] . Christian Hundt, Andreas Hildebrandt, Bertil Schmidt 2016

机译：quickGSEA：加速多核CPU和支持CUDA的GPU上的基因集富集分析
7. Finite difference numerical method for the superlattice Boltzmann transport equation and case comparison of CPU(C) and GPU(CUDA) implementations [O] . Priimak, Dmitri 2014

机译：超晶格Boltzmann有限差分数值方法 CpU（C）和GpU（CUDa）的传输方程和案例比较实现
8. An Investigation of the Numerical Methods of Finite Differences and Finite Elements for Digital Computer Solution of the Transient Heat Conduction (Diffusion) Equation Using Optimum Implicit Formulations. [R] . martin,charles r. 1978

机译：用最优隐式公式研究瞬态热传导（扩散）方程数字计算机解的有限差分和有限元数值方法。

Finite difference numerical method for the superlattice Boltzmann transport equation and case comparison of CPU(C) and GPU(CUDA) implementations

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