Technical and scientific achievements, Industrial and economic impact

1) Technical and scientific achievements

ExaViz will provide an immersive visual analysis environment with specific state-of-the-art functionality for exploring large simulation datasets in both materials science and biomolecular systems.

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Summary of the ExaViz project in English

New challenges in life and material sciences rely on the precise knowledge of structures and functions from nanometric down to the atomic length-scales. High performance computing is currently reaching the exascale and has the potential to face this major technical challenge.

Read more: Summary of the ExaViz project in English

Work program

This project will be organized around six main tasks.

Task one involves all partners equally and concerns the overall design of the project. It will provide a detailed roadmap for the specifications of the platform and the ExaViz toolkits, including the design of the component-based model, the specifications for post-processing, analysis and visualization components for molecular dynamics and NMR applications.

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Résumé du projet ExaViz en français

Pour répondre aux défis posés en sciences de la vie comme en sciences des matériaux, il est nécessaire d’étudier la matière à l'échelle nanoscopique, en particulier en complétant les résultats expérimentaux par des études théoriques mettant en jeu les simulations moléculaires haute performance.

Read more: Résumé du projet ExaViz en français

Global goal and main bottlenecks

The primary scientific aim of this work is to provide a scalable and efficient implementation of innovative analysis and visualization tools, entirely suitable for use with exascale simulations of molecular systems and to provide the means to make them cooperate.

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