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.
KAUST's Shaheen III has been confirmed as the Middle East’s most powerful supercomputer, ranking 20th globally. Built by HPE, Shaheen III is six times faster than KAUST’s existing Shaheen II system, exceeding the processing power of 500,000 MacBook Pros. It will support mathematical model construction for scientific discovery, engineering design, and policy support, particularly in sustainability and alignment with Vision 2030. Why it matters: This positions KAUST and Saudi Arabia as leaders in high-performance computing, enabling advanced research across climate change, clean energy, and other critical fields.
KAUST has unveiled Shaheen III, the most powerful supercomputer in the Middle East and 18th globally, built by HPE. The system uses 2,800 NVIDIA GH200 Grace Hopper Superchips, tripling the processing power of its predecessor. Shaheen III will support research in Arabic LLMs, climate modeling, remote sensing, automated chemistry, and AI-driven healthcare. Why it matters: This infrastructure investment strengthens Saudi Arabia's position in AI and computational research, enabling advances tailored to the region's needs and priorities.
KAUST announced the acquisition of a Cray XC40 supercomputer named Shaheen II, which will be 25 times more powerful than its current system. The investment aims to enhance KAUST's research capabilities and support collaborations with in-Kingdom organizations like Saudi Aramco and SABIC. Shaheen II will be used for simulations, climate modeling, and big data applications. Why it matters: This upgrade significantly boosts Saudi Arabia's high-performance computing infrastructure, enabling advanced research and development across various sectors and solidifying KAUST's position as a leading research institution.
KAUST's Supercomputing Core Lab (KSL) aims to advance science and technology through HPC solutions. The article highlights the lab's mission to inspire scientific, economic, and social progress. It mentions KAUST Ph.D. students and computational scientists at the SC16 supercomputing conference. Why it matters: This showcases KAUST's commitment to high-performance computing and its role in driving innovation in the region.
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 is offering access to its Shaheen II supercomputer and other computing resources for COVID-19 research projects by researchers across the Kingdom. Researchers can apply for computing allocations by submitting a proposal to [email protected]. The resources available include Shaheen II, the Ibex cluster, and support from KSL staff scientists. Why it matters: This initiative will accelerate COVID-19 research in Saudi Arabia by providing access to advanced computing infrastructure and expertise.
KAUST's supercomputer Shaheen completed ultra-resolution subsurface mapping simulations for Saudi Aramco, producing a 3D image of subsurface geologic layers at a 7.5-meter resolution. Aramco scientists used integrated GeoDRIVE software to achieve this record resolution at a production scale, improving on prior simulations with tens of meters resolution. Shaheen, located in the KAUST Supercomputing Core Laboratory, is one of the largest CPU-based supercomputers globally, featuring 12,348 Intel Haswell CPUs. Why it matters: This achievement enables more precise resource extraction and geological understanding in the Arabian Peninsula, demonstrating the growing capabilities of regional supercomputing for industrial applications.