On Issues Concerning Cloud Environments in Scope of Scalable Multi-Projection Methods

2016 18th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC) Pub Date : 2016-09-01 DOI:10.1109/SYNASC.2016.061

B. E. Moutafis, C. Filelis-Papadopoulos, G. Gravvanis, J. Morrison

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引用次数: 1

Abstract

Over the last decade, Cloud environments have gained significant attention by the scientific community, due to their flexibility in the allocation of resources and the various applications hosted in such environments. Recently, high performance computing applications are migrating to Cloud environments. Efficient methods are sought for solving very large sparse linear systems occurring in various scientific fields such as Computational Fluid Dynamics, N-Body simulations and Computational Finance. Herewith, the parallel multi-projection type methods are reviewed and discussions concerning the implementation issues for IaaS-type Cloud environments are given. Moreover, phenomena occurring due to the "noisy neighbor" problem, varying interconnection speeds as well as load imbalance are studied. Furthermore, the level of exposure of specialized hardware residing in modern CPUs through the different layers of software is also examined. Finally, numerical results concerning the applicability and effectiveness of multi-projection type methods in Cloud environments based on OpenStack are presented.

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基于可扩展多投影方法的云环境问题研究

在过去的十年中，由于云环境在资源分配和在这种环境中托管的各种应用程序方面的灵活性，云环境已经获得了科学界的极大关注。最近，高性能计算应用正在向云环境迁移。在各种科学领域，如计算流体动力学、n体模拟和计算金融，都在寻求求解非常大的稀疏线性系统的有效方法。在此，对并行多投影型方法进行了综述，并对iaas型云环境下的实现问题进行了讨论。此外，还研究了由“噪声邻居”问题、互连速度变化以及负载不平衡引起的现象。此外，还通过不同的软件层检查了驻留在现代cpu中的专用硬件的暴露水平。最后，给出了基于OpenStack的多投影型方法在云环境下的适用性和有效性的数值结果。

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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来源期刊

2016 18th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC)

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