SEANERGYS aims to create an integrated European software solution that optimises resource utilisation and reduces the energy used for real-world workload mixes. By improving how energy is monitored, managed, and used in supercomputing, the project is helping to reinforce the European commitment to sustainability while making progress on long-term benefits across scientific research, industrial innovation, …
Other Partners Archives:
QLSI2
Best-performing quantum computer could transform technology by 2027 Quantum computing is gaining significance globally, with Europe positioning itself as a leader in the field. The EU-funded QLSI2 project will bring together 23 partners from 9 countries to demonstrate a 200-qubit semiconductor-based quantum computer by 2027. QLSI2 will focus on making this technology accessible through the …
GANANA
The GANANA project unites European Union and Indian efforts in scientific High-Performance Computing (HPC). With Europe’s advanced HPC infrastructure and India’s rapidly growing capabilities, this partnership is essential to tackling critical societal issues and driving scientific progress. GANANA aims to generate meaningful impact across scientific research, societal resilience, and technological innovation. It promotes cost-effective HPC …
Millenion
A leap towards achieving truly scalable quantum computing Harnessing the immense power of quantum computing requires a transition from experimental set-ups to robust industry-grade technologies. In this context, the EU-funded Millenion-SGA1 project aims to bridge this gap with a focus on modular scalability and accessibility in trapped-ion quantum computers (QCs). Building upon the successful 50-qubit …
DARE
The DARE project aims to develop cutting-edge HPC hardware and software based on RISC-V, an open instruction set architecture poised to power exascale and post-exascale supercomputers. The DARE consortium has been selected to implement a Framework Partnership Agreement (FPA) for developing a large-scale European initiative for a HPC ecosystem based on RISC-V. The FPA will run for …
PASQuan2
The project Programmable Atomic Large-scale Quantum Simulation (PASQuanS2.1) is the first decisive step toward the transformation of the European landscape for programmable quantum simulators, finally delivering internationally leading platforms involving over 1000 neutral atoms in optical tweezer arrays and also in optical lattices. In the context of this Specific Grant Agreement, we will bring together …
NET4EXA
Building on the successful BXI (BullSequana eXascale Interconnect) European HPC Interconnect, and as a direct continuation of the RED-SEA project, NET4EXA will continue the development of the next generation of European Interconnects (BXIv3). The earlier versions BXIv1 and BXIv2 have been deployed in European supercomputers ranking among the TOP15. Designed for the challenges of exascale …
SPACE
SPACE focuses on astrophysics and cosmology with the help of numerical simulations. In Astrophysics and Cosmology (A&C) today, High Performance Computing (HPC)-based numerical simulations are outstanding instruments for scientific discovery. They represent essential tools and theoretical laboratories able to investigate, interpret and understand the physical processes behind the observed sky. For these laboratories, the efficient …
MaX 3
MaX is centered around quantum simulations of materials and therefore contributes to information technology, green energy, health, supporting experimentation at large-scale, and manufacturing. Understanding, predicting, and discovering the properties and performance of materials is key to delivering the technologies that power our economy and provide a sustainable development to our society. For this reason, materials …
ChEESE-2P
ChEESE-2P covers earth science with a focus on earthquakes, seismic, tomography, tsunamis, magnetohydrodynamics, physical volcanology, geodynamics, and glacier hazards. The scientific ambition of ChEESE-2P is to prepare 11 community flagship codes to address 12 domain-specific Exascale Computational Challenges (ECC), enlarging the areas covered during the first implementation phase (computational seismology, magnetohydrodynamics, physical volcanology, and tsunamis) …
