KAUST researchers have been selected as finalists for two ACM Gordon Bell Prizes for high-performance computing. One project used NVIDIA GPUs to enhance genetic studies from the UK Biobank, achieving 133x speedup over existing software. The other developed an exascale climate emulator with higher spatial-temporal resolution than current models, demonstrated on supercomputers like Shaheen III. Why it matters: The recognition highlights KAUST's strength in high-performance computing research and its contributions to both genetic analysis and climate modeling.
KAUST attended the SC22 high-performance computing conference with a team of 20 supercomputing experts. KAUST highlighted that HPE will build Shaheen III, KAUST's next-generation supercomputer, which will be the most powerful in the Middle East. A KAUST team was also a finalist for the 2022 Gordon Bell Prize. Why it matters: KAUST's presence at SC22 underscores its growing influence and leadership in high-performance computing within the Middle East and globally.
KAUST has been awarded the ACM Gordon Bell Prize for Climate Modelling, considered the "Nobel" of high-performance computing, for their work on exascale climate emulators. The winning paper, a collaborative effort with institutions including the NSF National Center for Atmospheric Research, addresses the computational and storage demands of high-resolution earth system models. The KAUST team included Sameh Abdulah, Marc G. Genton, David E. Keyes, and others. Why it matters: This is the first time an institution in the Middle East has won the prize, highlighting KAUST's leadership in high-performance computing and climate research in the region.
KAUST and Cerebras Systems collaborated on multi-dimensional seismic processing using the Condor Galaxy AI supercomputer, achieving record sustained memory bandwidth of 92.58 petabytes per second. They developed a Tile Low-Rank Matrix-Vector Multiplication (TLR-MVM) kernel to exploit the architecture of Cerebras CS-2 systems. This work was recognized as a finalist for the 2023 Gordon Bell Prize. Why it matters: This demonstrates the potential of AI-customized architectures for seismic processing, with broader implications for climate modeling and other scientific domains in the region and globally.
KAUST Ph.D. graduate Dr. Noha Al-Harthi and doctoral student Rabab Alomairy won the German Gauss Center for Supercomputing (GCS) Award for optimizing solvers for high-performance computing applications. Their work focused on acoustic boundary integral equations, common in engineering and fluid dynamics. The award provides them access to the supercomputer "Isambard" in the UK and other opportunities. Why it matters: This recognition highlights KAUST's leading role in high-performance computing research in the Middle East and the growing expertise in supercomputing among Saudi researchers.