KAUST ·
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 ·
KAUST researchers have developed a perovskite/silicon tandem solar cell with a power conversion efficiency (PCE) of 33.2%, surpassing the previous record of 32.5% held by Helmholtz Zentrum Berlin (HZB). The tandem device was certified by the European Solar Test Installation (ESTI) and listed at the top of the NREL efficiency chart. The cell combines perovskite top cells for blue light absorption with silicon bottom cells for red light absorption. Why it matters: This breakthrough could accelerate the adoption of high-performance photovoltaic modules, which is critical for achieving global renewable energy goals.
KAUST ·
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.
KAUST ·
French freediving champion Guillaume Néry spoke at KAUST's Winter Enrichment Program (WEP) about pushing human limits underwater. Néry, who beat the world record three times, can dive to a depth of 125 meters while holding his breath for up to seven minutes and forty-two seconds. He recounted discovering his calling at age 15 and later becoming world champion in 2011. Why it matters: This talk highlights KAUST's commitment to showcasing diverse achievements and explorations of human potential, even outside traditional scientific fields.
KAUST ·
Researchers from KAUST and University of Toronto have created a two-sided perovskite/silicon tandem solar cell that exceeds the performance limits for tandem configurations. The bifacial design captures both direct sunlight and light reflected from the ground (albedo). Outdoor testing demonstrated efficiencies beyond commercial silicon solar panels. Why it matters: This innovation promises ultra-high power generation at affordable costs, potentially revolutionizing the photovoltaics market in the region and globally.
MBZUAI ·
MBZUAI graduate Ahmed Elhagry received the Best Ph.D. Forum Paper Award at IEEE MetaCom 2023 for his work on generating virtual worlds using digital twin technology and AI through a text-to-metaverse pipeline. The research addresses the challenge of manually constructing 3D models for metaverse applications, which is time-consuming and costly. Elhagry's approach uses multimodal AI and DT technology to produce realistic virtual environments, benefiting industries like education, healthcare, and entertainment. Why it matters: This award recognizes innovative research at MBZUAI with the potential to advance metaverse development and AI-driven virtual environment creation in the region.
KAUST ·
ANSYS, Saudi Aramco, and KAUST have achieved a new supercomputing milestone, though specific details about the achievement are not provided in the content. The announcement references KAUST Discovery. The mention of King Abdullah suggests a connection to the university's founding. Why it matters: Such milestones could enhance research capabilities and innovation in the region, particularly in areas relevant to Saudi Aramco's interests.
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.