A dual-layer MPI continuous large-scale hydrological model including Human Systems
Autor: | Andrea Galletti, Sebastiano Piccolroaz, Diego Avesani, Alberto Bellin, Bruno Majone |
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Předmět: |
Parallel computing
Environmental Engineering Offset (computer science) 010504 meteorology & atmospheric sciences Scale (ratio) Large-scale hydrological modeling Computer science Distributed computing 0207 environmental engineering CPU time 02 engineering and technology 01 natural sciences Kernel (linear algebra) High performance computing Hydropower HYPERstream routing scheme Water infrastructures Water resources management 020701 environmental engineering 0105 earth and related environmental sciences Subdivision business.industry Ecological Modeling Supercomputer Term (time) Scalability business Software |
Zdroj: | Environmental Modelling & Software |
Popis: | Large-scale hydrological models are demanding both in term of memory allocation and CPU time, particularly when assessment of modeling uncertainty is required. High Performance Computing offers the opportunity to reach resolutions not achievable with standard serial coding. However, the advantages may be offset by poor scalability of the model due to components that have to be executed in series, such as to simulate the presence of hydraulic infrastructures. Driven by this motivation, we developed HYPERstreamHS, a model that adopts a holistic approach to simulate hydrological processes in large river basins with streamflow altered by hydraulic infrastructures. The model adopts a dual-layer parallelization strategy, where the paralleled version of the hydrological kernel is the first-layer, with the second layer taking care of inverse modeling. The results show that the processors should be carefully organized and grouped in order to achieve the best overall performance and suggests that this subdivision is problem specific. |
Databáze: | OpenAIRE |
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