Using the High-Level Based Program Interface to Facilitate the Large Scale Scientific Computing

In this paper, a processing conversion and parallel control platform (PCsP) is proposed for transitioning serial hydrodynamic simulators to a cluster-computing system. We previously undertook efforts to promote the research and development of this type of platform and to demonstrate and commercialize it. Our PCsP provide distributed and parallel patterns, a centralized architecture, and user support. To validate our employed methodology and highlight its simplicity, we adopted the technology in various applications based on multi-grid algorithms. The methodology was shown to be reliable and feasible across computational domains, partitioning strategies, and multi-grid codes. Furthermore, its effectiveness was demonstrated using a complex engineering case in addition to code based on slightly less complex mathematical models. Eventual transition to a cluster-computing system will require further investigation of the impact of different model combinations on calculation accuracy, efficiency of operating models, and PCsP functional development.

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Using the High-Level Based Program Interface to Facilitate the Large Scale Scientific Computing

Cited by 3 publications

References 22 publications

Performance of genetic algorithms with different selection operators for solving short-term optimized reservoir scheduling problem

Performance of genetic algorithms with different selection operators for solving short-term optimized reservoir scheduling problem

Optimisation of reservoir operation mode to improve sediment transport capacity of silt-laden rivers

Processing conversion and parallel control platform: a parallel approach to serial hydrodynamic simulators for complex hydrodynamic simulations

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