Projects
Engineering applications will be among the first exploiting exascale, not only in academia but also industry. In fact, theindustrial engineering field is the industrial field with the highest exascale potential, thus EXCELLERAT brings together thenecessary European expertise to establish a Centre of Excellence in Engineering with a broad service portfolio, paving...
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...
This project aims to establish a Center of Excellence to prepare flagship codes and enable services for Exascale supercomputing in the area of Solid Earth (SE). ChEESE will harness European institutions in charge of operational monitoring networks, tier-0 supercomputing centers, academia, hardware developers and third-parties from SMEs, Industry and public-governance.
EPEEC's main goal is to develop and deploy a production-ready parallel programming environment that turns upcoming overwhelmingly-heterogeneous exascale supercomputers into manageable platforms for domain application developers. The consortium will significantly advance and integrate existing state-of-the-art components based on European technology (programming models, runtime systems, and...
ESCAPE-2 will develop world-class, extreme-scale computing capabilities for European operational numerical weather and climate prediction, and provide the key components for weather and climate domain benchmarks to be deployed on extreme-scale demonstrators and beyond. This will be achieved by developing bespoke and novel mathematical and algorithmic concepts, combining them...
The ExaQUte project aims at constructing a framework to enable Uncertainty Quantification (UQ) and Optimization Under Uncertainties (OUU) in complex engineering problems using computational simulations on Exascale systems. The stochastic problem of quantifying uncertainties will be tackled by using a Multi Level MonteCarlo (MLMC) approach that allows a high number of...
The current HPC facilities will need to grow by an order of magnitude in the next few years to reach the Exascale range. The dedicated middleware needed to manage the enormous complexity of future HPC centers, where deep heterogeneity isneeded to handle the wide variety of applications within reasonable power budgets, will be one of the most critical aspects in the evolution...
Europe has made significant progress in becoming a leader in large parts of the HPC ecosystem: from industrial and scientific applicationproviders via system software to Exascale systems, bringing together technical and business stakeholders. Despite such gains, excellence inresearch in high performance computing systems is fragmented across Europe and opportunities for...
The European Processor Initiative (EPI) will mobilise the continent's High Performance Computing (HPC) ecosystem to develop new low-power processors for HPC and embedded systems. The aim is to use the results in the world-class exascale platforms that the EU is planning for 2022 and 2023.
EPI will follow a co-design approach through a partnership...
The project EXDCI-2 builds upon the success of EXDCI and will continue the coordination of the HPC ecosystem withimportant enhancements to better address the convergence of big data, cloud and HPC. EXDCI-2 strategic objectives are:
- Development and advocacy of a competitive European HPC Exascale Strategy and
- Coordination of the stakeholdercommunity for...