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18 students from the pioneering EuroHPC JU-funded Master Programme for HPC were awarded today at Università della Svizzera Italiana in Lugano, Switzerland, marking a milestone in Europe's effort to train the next generation of supercomputing experts.
The procurement contract for the EuroQCS-France quantum computer, Lucy, has been signed by the European High Performance Computing Joint Undertaking (EuroHPC JU) and the selected French-German vendor partnership, including Quandela and Attocube.
The procurement contract of the LUMI-Q consortium’s quantum computer, the EuroHPC quantum computer to be located in Czechia, has been signed by the EuroHPC JU and the selected Finland-based vendor IQM Quantum Computers.
The European High Performance Computing Joint Undertaking (EuroHPC JU) has launched a new procurement call for the acquisition, delivery, installation and maintenance of the hardware and software of LISA, the upgrade to LEONARDO Supercomputer.
The EuroHPC Joint Undertaking (EuroHPC JU) has launched two calls for expressions of interest to select hosting entities that will host and operate AI-optimised supercomputers, AI experimental platforms and AI factories across Europe.
The EuroHPC Joint Undertaking (EuroHPC JU) has launched a call for tender to select a vendor for the acquisition, delivery, installation and maintenance of Alice Recoque, the European exascale supercomputer to be located in France.
This CORDIS Results Pack on supercomputing highlights 15 European projects supported by the unique EuroHPC JU, which aims to put Europe at the forefront of the high-performance computing and quantum computing revolution.
The eFlows4HPC project aimed to seamlessly integrate HPC simulation with big data and machine learning, enhancing workflow efficiency and sustainability in scientific and industrial applications.
The ACROSS project has successfully developed a cutting-edge platform merging High-Performance Computing (HPC), Big Data, and AI. This ambitious project targeted advancements in aeronautics, climate research and energy sectors.
The MICROCARD project sought to develop an advanced exascale platform for simulating cardiac electrophysiology, enhancing our understanding of arrhythmias in complex biological tissues through high-resolution and cell-by-cell simulations.