KAUST has selected HPE to build "Shaheen III", a next-generation supercomputer using the HPE Cray EX platform. Shaheen III will be 20 times faster than KAUST's existing system, making it the most powerful supercomputer in the Middle East. The system will support research in areas like clean combustion, Red Sea ecosystems, and climate events. Why it matters: This infrastructure investment will significantly boost AI and scientific computing capabilities in the region, enabling KAUST to tackle complex research challenges.
HPE is building a new supercomputer for MBZUAI to accelerate AI research and advance the UAE’s National Strategy for AI. The supercomputer will enhance MBZUAI's ability to run complex AI models and increase predictability in research analyses in fields like energy, transportation, and the environment. The Campus Super Computing Center (CSCC) will house the new supercomputer. Why it matters: This investment strengthens the UAE's AI capabilities and its position as a global leader in AI research and development.
In July 2020, Hewlett Packard Enterprise (HPE) became a corporate tenant in the KAUST Research and Technology Park (KRTP). HPE will strengthen the KAUST Core Labs team, providing day-to-day support for the Shaheen II supercomputer, which has supported over 1,000 users and 650 publications. Future collaborations between HPE and KAUST will include projects in genomics, linear algebra, combustion computational fluid dynamics, and density-functional theory codes. Why it matters: This partnership enhances KAUST's research capabilities, aligning with Saudi Vision 2030 to drive scientific, economic, and social advances through high-performance computing.
A KAUST-led team in collaboration with Japan's National Institute of Informatics and Cray Inc. has implemented a new algorithm to harness the power of supercomputers. The algorithm integrates new singular value decomposition (SVD) codes into Cray LibSci scientific libraries, supporting machine learning and data de-noising applications. This was achieved through the Cray Center of Excellence (CCOE) at KAUST, established in 2015. Why it matters: The new algorithm helps to optimize the use of advanced supercomputing infrastructure in the region, specifically KAUST's Shaheen II, for computationally intensive AI applications.
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.
A KAUST article highlights the role of supercomputers like Shaheen in enhancing industrial competitiveness. Jean Tachiji, Cray Manager in the Middle East, Steven Scott, Cray CTO, and Saber Feki from KAUST Supercomputing Core Laboratory are featured in front of Shaheen. Why it matters: This underscores the strategic importance of high-performance computing for research and development in the region.
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 acquired the Shaheen-Cray XC40 supercomputer in 2015, which is 25 times faster than its predecessor, Shaheen I. The system arrived in Jeddah from Chicago in 123 crates and weighs around 109 metric tons. It consists of approximately 6,100 nodes, with each node containing 32 cores. Why it matters: This infrastructure upgrade significantly enhances KAUST's capacity for data-intensive scientific tasks like simulations and modeling, crucial for advancing research in areas such as climate and renewable energy.