GPU并行计算在高压直流电网潮流计算中的应用

2015 23rd Euromicro International Conference on Parallel, Distributed, and Network-Based Processing Pub Date : 2015-03-04 DOI:10.1109/PDP.2015.110

Przemyslaw Blaskiewicz, M. Zawada, P. Balcerek, P. Dawidowski

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引用次数: 9

摘要

在GPU上进行数值计算变得容易实现，并且以相对较低的成本提供了良好的计算能力。最近提出了一种将牛顿-拉普逊法应用于多端高压直流(HVDC)电网潮流分析的方法，并在五端电网中取得了良好的结果。由于该方法涉及代价高昂的矩阵运算，特别是矩阵的逆运算，因此增加网格中终端的数量会导致顺序运算的执行时间过大。为了解决这个问题，我们调整了算法，使其受益于并行计算，并在NVidia最新的GPU上测试了我们的方法。我们给出了多达几千个终端的网格的实验结果，并表明在实际应用中执行时间仍然是可以接受的。我们还提供了一些与其他平台比较的GPU计算基准。

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An Application of GPU Parallel Computing to Power Flow Calculation in HVDC Networks

Numerical computation on GPU has become easily accessible and offers good computation power for relatively little cost. Recently an application of Newton-Rap son method for analyzing power flow in multi-terminal high-voltage direct current (HVDC) networks was proposed and shown to have good results on five terminal grids. Since this method involves costly matrix operation, especially the inverse, increasing the number of terminals in the grid yields prohibitively large execution times in sequential operation. To address this issue, we adjust the algorithm so that it benefits from parallel computation and test our approach on recent GPU from NVidia. We give experimental results for grids up to few thousand terminals and show that execution time is still acceptable for real applications. We also provide some benchmarks of the GPU computation compared with other platforms.

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2015 23rd Euromicro International Conference on Parallel, Distributed, and Network-Based Processing

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