Projects

Understanding, predicting, and discovering the properties and performance of materials is key to delivering the technologies that power our economy and allow for the sustainable development of our society. For this reason, materials simulations have become one of the most intensive and fast-growing domains for high-performance computing worldwide, with a recognized European...

This proposal shapes the next (third) phase of the ESiWACE Centre of Excellence. As the ability to run Earth system models at ~1km resolution efficiently on EuroHPC supercomputers has already been established in previous phases for specific model configurations, and as developments are now picked up by science-driven projects, this proposal will focus on the support of the...

New certified designs for aircraft structures are critical for the upcoming changes in the conception of aircraft architectures. Various breakthrough designs and new strategies for better use of material and integration of functions in aircraft are required. They range from regional electrical mobility solutions to increase aspect ratio wings that will bring higher structure...

Ultrasound imaging can be deeply enhanced by means of algorithms developed in the field of geophysical imaging. Such algorithms, based upon adjoint-state modelling and iterative optimization, provide quantitative images of human tissue with very high resolution. At present time, suchimages can only be attained by means of high-performance computing and using specific...

The project aims to develop a computational platform for the virtual testing of industrial combustors using High-Performance Computing (HPC). It uses an advanced modelling strategy based on high-fidelity numerical simulations and HPC-based data analysis tools to obtain quantitative information about combustion performance in terms of combustion dynamics, pollutant formation...

This group is recently formed and organized in two teams, driven by leading experts in the fields of accelerator and memories for high-performance computing. Since 2017, the group members have publised 40+ peer-reviewed indexed articles, and have gained a Juan de la Cierva Felloswhip, a Marie Sklodowska-Curie Individual Fellowship, a Ramón y Cajal currently in place,...

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...

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.