Jose Maria Cela Espin

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The main goal of MaX is to allow the pre-exascale and exascale computers expected in Europe in the 2020s to meet the demands of a large and growing base of researchers committed to materials discovery and design. This goal will be achieved through:

  • an innovative software development model, based on the concept of separation of concerns, that will enable...

The main objective of this Marie Curie RISE action is to improve and exchange interdisciplinary knowledge on applied mathematics, high performance computing, and geophysics to be able to better simulate and understand the materials composing the Earth's subsurface.

This is essential for a variety of applications such as CO2 storage, hydrocarbon...

This project aims to apply the new exascale HPC techniques to energy industry simulations, customizing them, and going beyond the state-of-the art in the required HPC exascale simulations for different energy sources: wind energy production and design, efficient combustion systems forbiomass-derived fuels (biogas), and exploration geophysics for hydrocarbon reservoirs. For...

Materials are crucial for scientific and technological advances, industrial competitiveness and for tackling key societal challenges - from energy and environment to health care, information and communications, manufacturing, safety and transportation. The current accuracy and predictive power of materials' simulations allows a paradigm shift for computational design and...

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