- PRACE 3
- History of Scientific Cases
This talk will discuss the role of lattice QCD calculations in searches for new physics and understanding the nature and structure of matter at subatomic scales. The scientific case for exascale (and beyond) computing will be described and some of the new, as well as persistent, numerical simulation challenges will be outlined.
To be able to address aircraft programs challenges, technologies and market evolutions, we have to adapt HPC environments. From cabling supercomputers, we had to adapt our expertise, to become service integration taking into account new technologies, market evolutions, and collaboration environments
As we enter the exascale and post-exascale era, I will discuss some of the successes and perspectives in understanding fundamental phenomena at the nanoscale and designing materials and properties that are critical for technology. I will also discuss key challenges and huge opportunities that arise, especially at interfaces between computational and experimental scientific communities.
Training large language models maxes out capacities of modern GPUs as well as modern fabrics. I'll go into the details of a typical large language model training workload, how compute is distributed, how much data is transfered and how compute and communications are interleaved. I'll describe how different balance of compute vs bandwidth can bring different training speeds in practical large...
JUPITER, the “Joint Undertaking pioneer for Innovative and Transformative Exascale Research”, is on its way to provide Exascale computing capabilities to the European HPC and AI community and beyond. The Jülich Supercomputing Centre, together with the EuroHPC JU, joined their efforts to implement one of the most powerful supercomputers world-wide.
Within this talk we will show the journey...
Panel Members:
- Prof. Jean-Philip Piquemal
- Prof. Sinead Ryan
- Prof. Nicola Marzari
- Andrea R. Beccari
