Collaborative Research into Exascale Systemware, Tools and Applications View Homepage


Ontology type: schema:MonetaryGrant     


Grant Info

YEARS

2011-2014

FUNDING AMOUNT

8570000 EUR

ABSTRACT

For the past thirty years, the need for ever greater supercomputer performance has driven the development of many computing technologies which have subsequently been exploited in the mass market. Delivering an exaflop (or 10^18 calculations per second) by the end of this decade is the challenge that the supercomputing community worldwide has set itself. The Collaborative Research into Exascale Systemware, Tools and Applications project (CRESTA) brings together four of Europe's leading supercomputing centres, with one of the world's major equipment vendors, two of Europe's leading programming tools providers and six application and problem owners to explore how the exaflop challenge can be met. CRESTA focuses on the use of six applications with exascale potential and uses them as co-design vehicles to develop: the development environment, algorithms and libraries, user tools, and the underpinning and cross-cutting technologies required to support the execution of applications at the exascale. The applications represented in CRESTA have been chosen as a representative sample from across the supercomputing domain including: biomolecular systems, fusion energy, the virtual physiological human, numerical weather prediction and engineering.
No one organisation, be they a hardware or software vendor or service provider can deliver the necessary range of technological innovations required to enable computing at the exascale. This is recognised through the on-going work of the International Exascale Software Project and, in Europe, the European Exascale Software Initiative. CRESTA will actively engage with European and International collaborative activities to ensure that Europe plays its full role worldwide. Over its 39 month duration the project will deliver key, exploitable technologies that will allow the co-design applications to successfully execute on multi-petaflop systems in preparation for the first exascale systems towards the end of this decade.
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URL

http://cordis.europa.eu/project/rcn/100077_en.html

Related SciGraph Publications

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  • 2015. Towards Detailed Exascale Application Analysis — Selective Monitoring and Visualisation in SOLVING SOFTWARE CHALLENGES FOR EXASCALE
  • 2015. Tackling Exascale Software Challenges in Molecular Dynamics Simulations with GROMACS in SOLVING SOFTWARE CHALLENGES FOR EXASCALE
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  • 2015. Nek5000 with OpenACC in SOLVING SOFTWARE CHALLENGES FOR EXASCALE
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  • 2013. MPI Runtime Error Detection with MUST: Advanced Error Reports in TOOLS FOR HIGH PERFORMANCE COMPUTING 2012
  • 2013. Power Consumption of Kernel Operations in SUSTAINED SIMULATION PERFORMANCE 2013
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