Professor Won from KAIST presented a talk at MBZUAI on ensuring storage order in modern IO stacks. He discussed separating durability and ordering mechanisms to avoid expensive transfer-and-flush methods. The talk covered order-preserving IO stacks for single-queue block devices, multi-queue IO stacks, and all-flash arrays. Why it matters: Optimizing IO stacks is crucial for improving the performance and efficiency of storage systems in AI infrastructure and data centers.
KAUST researchers used electron tomography and X-ray photoelectron spectroscopy to study charge storage in manganese oxide electrodes for supercapacitors. They found that the electrolyte etches nanoscale openings in the manganese oxide sheets, increasing electrolyte permeability and energy density during cycling. 3D tomography revealed how the electrode's morphological evolution increases its surface area, enhancing energy densities. Why it matters: The research provides insights into improving the cycling stability of pseudocapacitive materials, which are crucial for developing high-performance supercapacitors.
Prof. Chun Jason Xue from the City University of Hong Kong presented research on optimizing mobile memory and storage by analyzing mobile application characteristics, noting their differences from server applications. The research explores system software designs inherited from the Linux kernel and identifies optimization opportunities in mobile memory and storage management. Xue's work aims to enhance user experience on mobile devices through mobile application characterization, focusing on non-volatile and flash memories. Why it matters: Optimizing mobile systems based on the unique characteristics of mobile applications can significantly improve device performance and user experience in the region.
KAUST researchers have developed a surface treatment for jute storage bags to prevent moisture-induced damage to stored grains. The treatment involves roughening the jute surface with an alkali and applying a thin layer of paraffin wax. Experiments showed that seed moisture content reduced by up to 7.5 percent in wax-coated bags, and seed germination efficacy after storage was up to 35 percent higher. Why it matters: This simple, scalable technique could significantly reduce grain losses in developing countries and provide an environmentally friendly alternative for grain storage.
KAUST's Center of Excellence for Renewable Energy and Storage Technologies (CREST) is hosting a webinar on grid-scale energy storage. The talk will cover the evolution of grid-scale energy storage over the past 15 years, highlighting major drivers in KSA and internationally. Dr. Marek Kubik, Director of BESS at NEOM, will be the speaker. Why it matters: This event signals the growing importance of energy storage solutions in Saudi Arabia's renewable energy strategy, particularly within ambitious projects like NEOM.
KAUST hosted the Frontiers in Energy Storage 2026 conference, emphasizing energy storage technologies for renewable energy. The conference highlighted electrochemical and chemical systems, including advanced batteries and hydrogen, as complementary layers for long-duration and industrial resilience. KAUST is developing energy-storage solutions relevant for the Kingdom and valuable to global partners, aiming to engineer solutions to withstand extreme environmental temperatures. Why it matters: This positions Saudi Arabia as a potential global exporter of resilient energy hardware, aligning with Saudi Vision 2030 goals in renewable energy.