利用先导作业改进网格上新古典传输计算的性能

2012 International Conference on High Performance Computing & Simulation (HPCS) Pub Date : 2012-07-02 DOI:10.1109/HPCSim.2012.6266981

A. J. Rubio-Montero, Francisco Castejón-Magaña, E. Huedo, M. Pascual, R. Mayo-García

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引用次数: 3

摘要

新古典输运是限定在核聚变装置(仿星器或托卡马克)内等离子体整体输运的下限。更重要的是，一个编译单能和输运系数的庞大数据库的确定对于耦合不同的代码非常有用，它可以使用这些值作为输入数据。DKEsG应用程序能够在网格基础设施上获得这些参数。由于需要大量的常规作业来填充上述数据库，因此需要一种快速且健壮的执行方案。为此，使用了一个新的支持drmaa的DKEsG版本，它利用了一个新的通用试点作业平台，避免了与标准网格中间件相关的最重要的开销。这种新开发的机制适用于涉及高通量计算的许多其他科学应用。

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Performance improvements for the neoclassical transport calculation on Grid by means of pilot jobs

The neoclassical transport is a lower limit of the whole transport in plasmas confined in fusion devices, either stellarators or tokamaks. Even more, the determination of a vast database compiling monoenergetic and transport coefficients is very useful for coupling different codes, which can use those values as input data. The DKEsG application is able to obtain such parameters on Grid infrastructures. Since a large number of regular jobs are needed for filling the aforementioned database, a fast and robust execution scheme is necessary. For this purpose, a new DRMAA-enabled DKEsG version that makes use of a new generic pilot-job platform is used, avoiding the most significant overheads related to standard Grid middleware. This new developed mechanism is suitable for many other scientific applications involving high-throughput calculations.

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2012 International Conference on High Performance Computing & Simulation (HPCS)

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