KAUST ·
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 ·
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.
G42 ·
G42 and Cerebras, in partnership with MBZUAI and C-DAC, will deploy an 8 exaflop AI supercomputer in India. The system will operate under India's governance frameworks, ensuring data sovereignty and security. It aims to democratize access to AI innovation for researchers, startups, and government entities. Why it matters: This initiative significantly enhances India's AI infrastructure and promotes sovereign AI capabilities for local innovation while strengthening UAE-India strategic ties.
KAUST ·
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 ·
KAUST participated in the Supercomputing Conference (SC17) in Denver, Colorado, with faculty, staff, and students. The university's Shaheen 2 Cray XC40 System was ranked the 20th fastest globally and the fastest in the Middle East. KAUST's IT department hosted talks featuring David Keyes, Jack Dongarra, Thierry-Laurent, Mootaz Elnozahy, and Jason Roos. Why it matters: KAUST's strong presence at SC17 highlights its commitment to advancing supercomputing capabilities in the Middle East and fostering international collaboration.
KAUST ·
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.
KAUST ·
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.