As current events reveal, the simulation and accurate prediction of massive scale natural disasters becomes increasingly important to ensure the safety of large populations. Within our special interest of high-performance computing for flooding events, we propose a new strategy for a decentral management of the simulation domain, allowing the computation of even city sized areas. Key characteristic of this approach is a domain decomposition into individual sub-domains without global domain knowledge and a diffusion load-balancing.
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As current events reveal, the simulation and accurate prediction of massive scale natural disasters becomes increasingly important to ensure the safety of large populations. Within our special interest of high-performance computing for flooding events, we propose a new strategy for a decentral management of the simulation domain, allowing the computation of even city sized areas. Key characteristic of this approach is a domain decomposition into individual sub-domains without global domain knowl...
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