proyectos

Well Balanced High Order Numerical Methods for Nonlinear Hyperbolic Systems: Application to Design of Mathematical Tools for Early Warning of Natural Disasters

PI: Manuel J. Castro Díazco-PI: Carlos Parés Madroñal Abstract: This project is the natural extension to three years of execution of the so-called “Well-balanced high-order numerical methods for nonlinear hyperbolic systems. Applications to the simulation of geophysical flows ”that has been requested in the recent call of the University of Malaga (ERDF operational program). The main …

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Well balanced high order numerical methods for nonlinear hyperbolic systems. Applications to the simulation of geophysical flows

PI: Manuel J. Castro Díazco-PI: Carlos Parés Madroñal Abstract: The main objective of this project is the development and improvement of numerical models that constitute useful tools in the prediction and management of catastrophes caused by geophysical flows, such as floods, tsunamis or “storm surges”. New models for these problems will be developed that incorporate non-hydrostatic …

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Development of efficient hydrodynamic and morphodynamic simulators for risk assessment and forecasting

PI: Manuel J. Castro Díazco-PI: Carlos Parés Madroñal Acronym: SIMUNRISK Abstract: The main goal of this project is the development of numerical models in the field of hydro and morpho-dynamics which are useful tools for the assessment and forecasting of risks related to natural or man-made disasters. These simulators will increase the power and versatility of …

Development of efficient hydrodynamic and morphodynamic simulators for risk assessment and forecasting Leer más »

Relaxed non-hydrostatic multilayer models and high-order well-balanced numerical MEthods for GeophysicAl FLOWs

PI: Manuel J. Castro Díazco-PI: Carlos Parés Madroñal Acronym: MEGAFLOW Abstract: The main objective of this project is to introduce new multilayer non-hydrostatic mathematical models for the simulation of geophysical flows such as tsunami waves, storm surges, debris flows, landslides, etc. that can be used to model real-world problems. A relaxation strategy will be used to …

Relaxed non-hydrostatic multilayer models and high-order well-balanced numerical MEthods for GeophysicAl FLOWs Leer más »

Modelling and computation of shocks and interfaces

Coordinator of the UMA node: Carlos Parés Madroñal Acronym: ModCompShock Abstract: This network was focused on the training of young researchers (ESRs) in the general area of nonlinear hyperbolic and convection dominated PDEs (HCD-PDEs) with emphasis on innovative modelling and computational methods. The research program within this network was centered in a prominent (in terms of …

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Enabling dynamic and Intelligent workflows in the future EuroHPC ecosystem

IP in UMA node: Jorge Macías SánchezIP in BSC-CNS node: Rosa Badía Acronym: eFLows4HPC Abstract: Today, developers lack tools that enable the development of complex workflows involving HPC simulation and modelling with data analytics (DA) and machine learning (ML). TheFlows4HPC aims to deliver a workflow software stack and an additional set of services to enable the …

Enabling dynamic and Intelligent workflows in the future EuroHPC ecosystem Leer más »

Acceleration Global science In Tsunami HAzard and Risk analysis

IP: Jörn Behrens (University of Hamburg)co-IP: Jorge Macías Sánchez Acronym: AGITHAR Abstract: AGITHAR – Accelerating Global science In Tsunami HAzard and Risk analysis – is a network to improve, standardize, and promote tsunami research. It uses specific COST tools – workshops, networking, exchange of experts – in order to Assess current approaches in tsunami hazard and risk …

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