Projects

Showing 61 - 70 results of 430

NextGEMS will develop and apply a new generation of global coupled Storm-Resolving Earth System Models (SR-ESMs) to the study of anthropogenic climate change. SR-ESMs are distinguished by their fine, 3 km, grid in the atmosphere andocean. This allows a more physical representation of atmospheric and oceanic circulation systems, including their coupling to Earth-system...

To implement the European Roadmap, in which theory and simulation play a strong role, it is crucial to further bring together the accumulated knowledge and expertise in these fields under a highly focused Theory, Simulation, Verification and Validation (TSVV) programme. Coordination is required that can integrate the world-class fusion science and engineering with emerging...

The distribution of pollutants at urban level is not completely understood due to its spatial inhomogeneity. Bettair currently maps pollutant concentrations using a model that is mainly suitable for open areas, but this model can be further improved at the cost of using more computational power. The goal of this project is to develop and incorporate a new module into...

OXIPRO aims at contributing to the transition towards environment-friendly detergents, textiles, cosmetics and nutraceuticals by co-designing and co-developing an efficient oxidoreductases foundry under an interdisciplinary and systemic innovation approach, integrating high-performance computing and cuttingedge biotechnology for tailormade and greener oxidoreductases...

The increasing shift to eco-friendly production impacts the industry of consumer products. The EU-funded FuturEnzyme project will develop advanced innovative solutions to discover, design, optimise and formulate low-cost enzymes for economically viable products in the textile, detergent and cosmetics sectors. A textile containing Elasthane, a liquid detergent, and a...

DEEP-SEA (DEEP Software for Exascale Architectures) will deliver the programming environment for future Europeanexascale systems, adapting all levels of the software (SW) stack including low-level drivers, computation andcommunication libraries, resource management, and programming abstractions with associated runtime systems and tools to support highly heterogeneous compute...

EOSC Future responds to INFRAEOSC-03-2020 call in order to integrate, consolidate, and connect e-infrastructures, research communities, and initiatives in Open Science to further develop the EOSC Portal, EOSC-Core and EOSCExchangeof the European Open Science Cloud (EOSC).

EOSC Future is structured around six thematic pillars that strategically group...

To achieve high performance and high energy efficiency on near-future exascale computing systems, a technology gap needs to be bridged: increase efficiency of computation with extreme efficiency in HW and new arithmetics, as well as providing methods and tools for seamless integration of reconfigurable accelerators in heterogeneous HPC multi-nodeplatforms.

The ambitious exaFOAM project aims at overcoming the current limitations of Computational Fluid Dynamics (CFD) technology, especially in what concerns the exploitation of massively parallel HPC architectures. This will be undertaken through the development and validation of a range of algorithmic improvements, across...

One of the main drivers for building exascale HPC systems today is the growing need to process extremely large data sets. However, the flat storage hierarchies found in classic HPC architectures no longer satisfy the performance requirements of data-processing applications. Uncoordinated file access in combination with limited bandwidth make the centralised backend parallel...

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