Performance and power comparisons of MPI Vs Pthread implementations on multicore systems

2013 9th International Conference on Innovations in Information Technology (IIT) Pub Date : 2013-03-17 DOI:10.1109/INNOVATIONS.2013.6544384

A. Asaduzzaman, Fadi N. Sibai, H. El-Sayed

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引用次数: 8

Abstract

The advancement of multicore systems demands applications with more threads. In order to facilitate this demand, parallel programming models such as message passing interface (MPI) are developed. By using such models, the execution time and the power consumption can be reduced significantly. However, the performance of MPI programming depends on the total number of threads and the number of processing cores in the system. In this work, we experimentally study the impact of Open MPI and POSIX Thread (Pthread) implementations on performance and power consumption of multicore systems. Data dependent (like heat conduction on 2D surface) and data independent (like matrix multiplication) applications are used with high performance hardware in the experiments. Simulation results suggest that both implementations of more threads running in a system with more cores have potential to reduce the execution time with negligible or little increase in total power consumption. It is observed that the performance of MPI implementation varies (due to the dynamic communication overhead among the processing cores).

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多核系统上MPI与Pthread实现的性能和功耗比较

多核系统的发展要求应用程序具有更多的线程。为了满足这种需求，开发了消息传递接口(MPI)等并行编程模型。通过使用这些模型，可以显著减少执行时间和功耗。然而，MPI编程的性能取决于系统中线程的总数和处理内核的数量。在这项工作中，我们实验研究了Open MPI和POSIX线程(Pthread)实现对多核系统性能和功耗的影响。在实验中，数据依赖(如二维表面的热传导)和数据独立(如矩阵乘法)应用程序与高性能硬件一起使用。仿真结果表明，在具有更多内核的系统中运行更多线程的两种实现都有可能减少执行时间，而总功耗的增加可以忽略不计或很少。可以观察到MPI实现的性能变化(由于处理核心之间的动态通信开销)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 9th International Conference on Innovations in Information Technology (IIT)

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