King Abdullah University of Science and Technology — Saudi Arabia's premier international research university with strong AI and data science programs.
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 startups have raised over $1 billion in total investments, generated $925 million in revenue, and created 6,661 jobs to date, with a total valuation exceeding $2 billion. In 2024 alone, these startups raised $150 million, demonstrating investor confidence in Saudi Arabia’s innovation ecosystem. KAUST Innovation Ventures focuses on co-investments with local and international venture capital firms. Why it matters: This milestone signals the growing maturity and global competitiveness of Saudi Arabia's deep tech sector, supporting Vision 2030 by attracting investment and creating high-tech jobs.
Aramco has signed an MoU with KAUST, pledging to fund up to $100 million in R&D projects over the next 10 years. The collaboration will focus on areas like energy transition, sustainability, materials transition, upstream technologies, and digital solutions. Specific research areas include liquids-to-chemicals conversion, low-carbon aviation fuels, hydrogen, and carbon capture. Why it matters: This major investment will accelerate innovation in critical areas like sustainable energy and materials science, aligning Saudi Arabia's research priorities with its economic diversification goals.
Crown Prince Mohammed bin Salman announced KAUST's new strategy to translate research into economic innovations, aligning with national priorities like Health & Wellness, Sustainable Environment, and Energy leadership. A key initiative is launching the National Transformation Institute for Applied Research (NTI) to accelerate tech commercialization. KAUST will also establish a $200M fund for local and international high-tech firms and partner with entities like NEOM on the Reefscape Restoration Initiative. Why it matters: This signals a major strategic shift for KAUST, aiming to boost its impact on Saudi Arabia's economic diversification and technology leadership in alignment with Vision 2030.
Researchers at King Abdullah University of Science and Technology (KAUST) have developed new methods to engineer porous materials, specifically Metal-Organic Frameworks (MOFs), for enhanced gas storage and energy-efficient gas separations. Published in Nature Chemistry, their approach involves the controlled removal of temporary structural components within MOFs, leading to larger, more uniform pores and significantly increased storage capacity. This method resulted in materials with some of the highest reported gravimetric methane storage capacities to date. Why it matters: This advancement could lead to more efficient materials for industrial gas storage and processing, supporting Saudi Arabia's and global transitions to cleaner energy systems.
Terraxy, a startup spun out of King Abdullah University of Science and Technology (KAUST), has secured $3 million in a Seed-2 funding round led by Wa’ed Ventures, the venture capital arm of Aramco, with participation from KAUST. This funding will support the scaling of Terraxy's proprietary soil enhancer, Carbosoil, from pilot to industrial production and enable the establishment of a 30,000-square-meter commercial facility in Al Zulfi, Saudi Arabia. Carbosoil improves plant growth and yield by up to 70% while enhancing water and nutrient retention in sandy soils for landscaping and carbon capture. Why it matters: This investment highlights Saudi Arabia's strategy to commercialize deep-tech research from local institutions to achieve national sustainability, food security, and desert greening objectives.
Scientists at King Abdullah University of Science and Technology (KAUST) have developed a new stain-free imaging platform using engineered silicon slides to analyze tissue samples, aiming for quicker and more consistent cancer diagnostics. This platform removes the need for conventional chemical staining, reducing preparation time by approximately 40-50% and improving consistency. In validation tests with 120 colorectal tissue samples, the technology achieved a 99% agreement rate with traditional pathology assessments. Why it matters: This innovation could significantly streamline cancer diagnosis workflows, reduce variability, and generate standardized data crucial for the advancement of AI-assisted diagnostic tools in healthcare.
Researchers at King Abdullah University of Science and Technology (KAUST) have developed a nanostructured solar panel coating designed to maintain performance in dusty, arid environments while capturing atmospheric moisture. Outdoor tests at KAUST over six months demonstrated minimal performance loss on treated panels, contrasting with significant declines in uncoated panels. The coating also condenses water vapor at night, which then rolls off, cleaning the panel and providing collected water sufficient for small-scale irrigation. Why it matters: This innovation offers a sustainable solution for improving solar energy efficiency and providing a supplementary water source in water-scarce regions, addressing critical challenges for renewable energy deployment in the Middle East.
Researchers from King Abdullah University of Science and Technology (KAUST) and Aramco have achieved the highest reported efficiency in converting carbon dioxide into jet fuel-range hydrocarbons, a critical step for sustainable aviation fuel (SAF) development. Their work, published in ChemCatalysis, details a machine learning-driven approach that identified an unconventional copper-rich catalyst capable of yielding 75% jet fuel-range product and operating continuously for over 1,000 hours. The upgraded liquid fuel met key prescreening parameters aligned with international aviation standards, including flash point and energy content. Why it matters: This breakthrough offers a more efficient and stable pathway for producing SAF from captured CO₂, addressing a significant challenge in decarbonizing the hard-to-abate aviation sector.
Scientists at King Abdullah University of Science and Technology (KAUST) have engineered tiny metal-organic frameworks (MOFs) to deliver a team of six proteins into living cells. Inside the cells, these proteins formed a nanoscale factory that successfully produced violacein, a natural bioactive compound with therapeutic potential. This breakthrough represents the most complex multiprotein system delivered into living cells to date and the first example of a 'protein pathway transplant'. Why it matters: This research offers an early demonstration of how future therapies might generate treatment molecules directly inside the body at disease sites, potentially leading to more precise and less toxic medical interventions.
Professor Sahika Inal from King Abdullah University of Science and Technology (KAUST) has been awarded the Alexander von Humboldt Professorship, Germany's most prestigious research award. The professorship, funded by the German Federal Ministry of Education and Research with up to €5 million, recognizes her leadership in next-generation bioelectronic materials and health technologies. She will establish a leading center for bioelectronic materials and devices in partnership with Dresden University of Technology and the Leibniz Institute of Polymer Research Dresden. Why it matters: This award underscores KAUST's research excellence in biomedical sciences and its faculty's global recognition, while fostering significant international collaboration in advanced health technologies.
KAUST scientists have successfully expanded coral spawning through controlled systems, producing approximately two million eggs from six coral species this season to support reef research. Researchers at KAUST's Coastal and Marine Resources (CMR) Core Lab developed facilities that replicate environmental signals to trigger spawning beyond natural seasonal cycles, enabling year-round access to gametes and larvae. This program represents the first successful implementation of shifted phase coral spawning in Saudi Arabia. Why it matters: This breakthrough provides unprecedented opportunities for advancing Red Sea reef restoration and marine science, allowing for continuous study of coral early-life resilience.
Researchers from King Abdullah University of Science and Technology (KAUST), in collaboration with Universidad de los Andes and others, investigated mangrove ecosystems for enzymes capable of degrading plastics like PET. They discovered that adding agricultural residues to mangrove soils increased the number of potential PET-degrading enzymes and identified a previously unknown group of salt-tolerant enzymes. The team employed metagenomics, artificial intelligence, and 3D structural analysis to study these enzymes, publishing their findings in Nature Communications. Why it matters: This research offers potential new enzymatic solutions for global plastic waste management, particularly for high-salinity industrial applications, by leveraging the unique biodiversity of environments like Saudi Arabia's Red Sea mangroves.
Researchers at King Abdullah University of Science and Technology (KAUST) have demonstrated a novel method to permanently convert carbon dioxide (CO₂) into solid rock underground. This system recycles water already present deep underground, addressing the critical water scarcity challenge for CO₂ mineralization in arid regions. In a field trial in western Saudi Arabia, 131 tons of CO₂ were injected into ancient basalt formations, with approximately 70% mineralized into solid minerals within ten months. Why it matters: This breakthrough significantly expands the global potential for carbon mineralization as a secure CO₂ storage solution, particularly in water-stressed industrial areas.
Professor Omar Knio, Dean of the Computer, Electrical and Mathematical Sciences and Engineering (CEMSE) Division at KAUST, has been named a 2026 SIAM Fellow. This prestigious recognition from the Society for Industrial and Applied Mathematics honors his leadership in uncertainty quantification and multiscale mathematics. His research areas include applications in combustion, energetic materials, geophysical fluid dynamics, high-performance computing, and data-enabled predictive science. Why it matters: This recognition highlights KAUST's global standing in applied mathematics and computational science, reinforcing its role as a hub for scientific talent and interdisciplinary research crucial for advanced technological development in Saudi Arabia.
A KAUST-led study in *Nature Ecology & Evolution* finds that plant species diversity is the strongest predictor of dryland ecosystem resistance to grazing pressure, outperforming climate and soil factors. Analyzing 73 sites across 25 countries, researchers found that diverse plant communities better maintain vegetation cover under grazing. This is attributed to varied species responses distributing grazing pressure and buffering vegetation loss. Why it matters: The findings highlight the importance of biodiversity in maintaining the productivity and stability of dryland ecosystems, which support half of global livestock production and a billion people's livelihoods.
Professor Mohamed-Slim Alouini of KAUST has been elected to the U.S. National Academy of Engineering for his contributions to wireless communication systems. Alouini is the first faculty member elected to the NAE while serving at KAUST, and his work focuses on non-terrestrial networks. He aims to extend connectivity to underserved regions and support applications like emergency response and environmental monitoring. Why it matters: This recognition highlights KAUST's ability to attract world-leading scholars and contributes to Saudi Vision 2030 by translating research into real-world impact.
KAUST has been selected as the first FIFA Research Institute in the Middle East and Asia. KAUST will apply its research expertise to advance football-related studies, initially focusing on developing datasets that enable deeper insights into the game. The collaboration’s first project focuses on developing AI algorithms to analyze historical FIFA World Cup broadcast footage, while the second project leverages player and ball tracking data from the FIFA World Cup 2022™ Qatar and the FIFA Women’s World Cup 2023™ Australia & New Zealand. Why it matters: This partnership strengthens the intersection of sport, academia, and industry in the region through high-impact scientific inquiry.
KAUST and NADEC have signed an MoU to collaborate on agricultural research, technology development, and professional training to enhance Saudi Arabia's food systems. The partnership aims to translate scientific insights into practical solutions for a resilient and stable food and agriculture sector. KAUST researchers will gain access to NADEC's fields to test and scale solutions. Why it matters: This collaboration between a leading research university and a major agricultural company can accelerate innovation in sustainable food production, addressing critical challenges like water scarcity and rising temperatures in the region.
Researchers at KAUST have developed a new polymer membrane for desalination that operates at ambient temperature and pressure. The membrane achieves high salt rejection with lower energy demand compared to conventional methods. It is currently being tested at pilot scale at KAUST. Why it matters: This technology could improve water sustainability and reduce energy consumption in desalination, addressing critical water challenges in arid regions like Saudi Arabia.
KAUST has established the KAUST Quantum Foundry to strengthen Saudi Arabia’s ability to fabricate commercial quantum hardware. It will provide shared access to KAUST quantum cleanrooms, supporting device prototyping and process development. The Foundry will focus on process standardization and the development of Process Design Kits (PDKs) to enable researchers to design and fabricate devices. Why it matters: This initiative reinforces KAUST's role as a national hub for advanced research infrastructure and supports Saudi Arabia’s long-term innovation priorities in quantum technologies.
KAUST and SARsatX have developed a method using Generative Adversarial Networks (GANs) to generate synthetic SAR imagery for training deep learning models to detect oil spills. Starting with just 17 real SAR images, they generated over 2,000 synthetic images to train a Multi-Attention Network (MANet) model. The MANet model, trained exclusively on synthetic data, achieved 75% accuracy in identifying oil spill areas, matching the performance of models trained on larger real datasets. Why it matters: This advancement enables faster and more reliable environmental monitoring using AI, even when real-world data is scarce, reducing the need to wait for actual disasters to occur.
KAUST and the International Maize and Wheat Improvement Center (CIMMYT) have signed an MoU to collaborate on developing climate-resilient food crops. The collaboration will combine CIMMYT’s expertise in maize and wheat breeding with KAUST’s strengths in genomics and computational agriculture. The partnership will focus on genomic selection, data analytics, and digital breeding technologies, including capacity-building programs. Why it matters: The partnership aims to enhance food security in Saudi Arabia and the wider region by developing resilient, high-yielding crop varieties suited to arid environments.
KAUST researchers discovered that the red algae strain Galdieria yellowstonesis can convert sugars from chocolate-processing waste into C-phycocyanin, a valuable blue pigment. The study found that high levels of carbon dioxide promote Galdieria growth, and the resulting phycocyanin was deemed food-safe by the U.S. FDA. Mars supported the research by providing chocolate samples. Why it matters: This research offers a sustainable method for waste management and contributes to a circular economy in the region, with potential applications in food, cosmetics, and pharmaceuticals.
KAUST has 16 researchers on the 2025 Clarivate Highly Cited Researchers list, representing 59% of the total from Saudi Arabia. The list recognizes researchers whose publications rank in the top 1% of citations between 2014 and 2024. Some notable research includes work on land degradation, the Red Sea's blue economy, and quantum random number generation. Why it matters: This recognition highlights KAUST's growing research influence and its ability to attract top international talent, contributing to Saudi Arabia's scientific advancement.
KAUST startup Polymeron is converting date and poultry waste into biodegradable plastics, aligning with Saudi Vision 2030's goals for economic diversification and sustainability. The company aims to process 20,000 tons of waste annually, contributing to a circular economy and creating jobs in polymers, manufacturing, and sales. Polymeron is building its pilot plant at KAUST with support from the National Technology Development Program (NTDP). Why it matters: This initiative addresses plastic pollution and agricultural waste while creating a new industry in the Kingdom, tapping into a global market for biodegradable plastics valued at $13 billion in 2024.
Cisco and KAUST have launched a new AI Institute located at the KAUST campus in Saudi Arabia. The institute will focus on AI research, development, and education, including AI-native communication systems and edge infrastructure for Industry 5.0. Cisco will donate its latest technology, including a Cisco AI POD. Why it matters: This initiative will foster AI innovation and develop a skilled AI workforce within the Kingdom, aligning with Saudi Vision 2030 and the nation's digital transformation goals.
Professor Peter Goadsby, a neurologist and neuroscientist, has been appointed as Senior Associate to the President and Founding Dean of KAUST's new Division of Biomedical Sciences. He will lead the establishment of the university's fourth academic division, focusing on Biomedical Sciences, and advance the neuroscience department. Goadsby's research identified CGRP as a central driver of migraine, leading to new medicines and earning him the 2021 Brain Prize. Why it matters: This appointment strengthens KAUST's and Saudi Arabia's capacity to translate research into healthcare solutions and supports the Kingdom’s Vision 2030 goals in health innovation.
A KAUST-led study has revealed a unique microbial ecosystem in the Hatiba Mons hydrothermal vent fields of the Red Sea, first documented in 2023. Using genome-resolved metagenomics, the study reconstructed over 300 microbial genomes from five vent sites. The analysis showed an ecosystem dominated by microbes capable of iron, sulfur, nitrogen, and carbon cycling, unlike most hydrothermal vents that are sulfur- and methane-based. Why it matters: The discovery provides new insights into microbial processes in extreme conditions, ocean resilience, and global carbon cycling, highlighting the interplay between geology and biology in the Red Sea.
KAUST professors Roberto Di Pietro and Marc Dacier co-authored a paper on cybersecurity strategies for Saudi Arabia and the Arab world, published in Communications of the ACM. The paper outlines a multidisciplinary framework for digitization aligned with Saudi Vision 2030, emphasizing global best practices, cultural adaptation, and capacity building. KAUST is positioned to advise on national cybersecurity policy in cooperation with the Saudi National Cybersecurity Authority. Why it matters: The framework addresses the critical need for advanced cybersecurity to support Saudi Arabia's rapidly growing digital economy and infrastructure.
KAUST and Aramco have signed an IP license agreement for the Hybrid Unmanned Aerial Vehicle Crawler Technology (HUCT), which combines aerial and terrestrial robotic capabilities. The HUCT will be used for inspection, monitoring, and other industrial applications within Aramco's operations. The agreement supports KAUST's mission to translate research into real-world applications, aligned with Saudi Vision 2030. Why it matters: This partnership demonstrates the growing innovation ecosystem in Saudi Arabia, leveraging academic research for industrial applications in robotics and AI.
KAUST researchers have found conclusive evidence that the Red Sea completely dried out approximately 6.2 million years ago. Using seismic imaging, microfossil evidence, and geochemical dating, they determined a massive flood from the Indian Ocean refilled it in about 100,000 years. The flood carved a 320-kilometer-long submarine canyon and restored marine conditions. Why it matters: This discovery provides insights into extreme environmental events and the Red Sea's unique geological history, distinguishing it from the refilling of the Mediterranean.
Deloitte Middle East and KAUST have signed an MoU to collaborate on AI applications in Saudi Arabia. The partnership aims to bridge the gap between AI research and business applications, aligning with Saudi Vision 2030. Joint projects will address AI challenges, develop talent through training programs, and focus on knowledge transfer and ethical AI governance. Why it matters: This collaboration accelerates AI innovation in Saudi Arabia by combining global expertise with local knowledge, fostering economic and societal impact.
KAUST researchers found that wildfire smoke particles act as chemical factories under sunlight, producing harmful oxidants like peroxides. These particles bypass traditional suppression by nitrogen oxides in polluted environments, generating oxidants internally. The study reveals that colored organic molecules in biomass-burning aerosols act as photosensitizers, triggering rapid reactions. Why it matters: The findings highlight that current air-quality and climate models underestimate oxidant production from wildfires, with implications for anticipating health risks and environmental impacts in regions like Saudi Arabia.
KAUST researchers are using CarboSoil biochar and native biocrusts to revitalize arid lands in Saudi Arabia, enhancing soil fertility, capturing carbon, and reducing erosion. CarboSoil, engineered from poultry waste by KAUST's Himanshu Mishra, improves nutrient and water retention in desert soils. Terraxy, Mishra's startup, aims to convert all of Saudi Arabia's poultry waste into CarboSoil, supporting greening initiatives. Why it matters: This technology offers a sustainable solution to boost domestic food production, combat desertification, and reduce landfill waste in Saudi Arabia, aligning with the Kingdom's food security and environmental goals.
Aramco, Honeywell, and KAUST have signed a Joint Development Agreement (JDA) to co-develop a next-generation direct Crude-to-Chemicals (CTC) technology. The collaboration aims to develop and scale up the full CTC process, reducing capital and operating costs. The new CTC pathway is designed to convert crude oil directly into light olefins and other high-demand chemicals. Why it matters: This partnership signifies a major push for Saudi Arabia to lead in downstream innovation, aligning with Vision 2030 to diversify the economy and strengthen its position in the petrochemicals industry.
A Heritage Commission and KAUST collaboration published in Nature Communications reveals the discovery of large-scale rock art panels in the Nefud Desert, dating back 12,000 years. Over 60 panels with 176 engravings were found depicting animals like camels and ibex. Paleoenvironmental analysis indicates surface water was present 14,000 years ago, supporting early human and wildlife expansion. Why it matters: The findings revise the timeline of human repopulation in Saudi Arabia's interior deserts after the Last Glacial Maximum and demonstrate the significance of interdisciplinary research in understanding the region's climate history.
A KAUST-led study tracked clownfish and anemones in the Red Sea from 2022-2024, finding that extreme heat caused anemone bleaching, followed by near-total clownfish death, and then anemone death. The heatwave saw accumulated thermal stress reach 22 degrees heating weeks, far exceeding the threshold for coral bleaching. The research highlights heat risks faced by non-coral reef organisms and the need for taxon-specific thresholds to predict risks to reef symbiotic relationships. Why it matters: The Red Sea is a bellwether for climate change impacts on marine ecosystems, and this study underscores the urgency of conservation efforts like KAUST's Coral Restoration Initiative.
KAUST researchers are developing passive cooling solutions that use no electricity to address Saudi Arabia's high air conditioning electricity consumption. The technologies leverage nanotechnology, reflective materials, water evaporation, and advanced sensors to cool urban spaces, greenhouses, and buildings. One innovation involves nanotechnology that absorbs water from the air to cool electronics. Why it matters: These advancements are crucial for sustainable growth in hot climates, particularly for protecting solar panel efficiency and addressing rising global energy demands for cooling.
KAUST researchers have developed a system to convert captured carbon dioxide into industrial-grade ethylene using a high-pressure electrolyzer. The system operates under realistic industrial conditions and uses captured, high-pressure CO₂. It reduces the energy cost of producing ethylene by 0.8 gigajoules per metric ton compared to existing electrolysis systems. Why it matters: This innovation presents a direct path for transforming greenhouse gas emissions into valuable chemical products, aligning with Saudi Arabia's circular economy goals.
Researchers at KAUST, Fraunhofer ISE, and University of Freiburg developed a method using 1,3-diaminopropane dihydroiodide (PDAI) to treat the perovskite surface of perovskite silicon tandem solar cells. The treated solar cells achieved a conversion efficiency of 33.1% and an open-circuit voltage of 2.01 volts. The devices maintained performance at over 40°C for over 1500 hours along the Saudi coast. Why it matters: This innovation overcomes challenges in surface passivation of textured perovskite cells, paving the way for more efficient and stable solar energy solutions suitable for deployment in hot climates.
A KAUST-led study in Nature proposes reversing land degradation by 2050 through increased sustainable seafood production, reduced food waste, and land restoration. The study suggests straightforward measures like modifying economic incentives and promoting sustainable aquaculture policies. Researchers estimate these policies could save a land area roughly the size of Africa. Why it matters: The KAUST-led research offers a tangible blueprint for addressing critical food security challenges in arid regions like Saudi Arabia and globally.
KAUST, Tufts, and JIHS researchers created pangenome graphs using Saudi and Japanese samples, named JaSaPaGe. These graphs address the underrepresentation of these populations in existing pangenome databases, which are used as references for understanding individual DNA. The population-specific pangenomes are expected to improve variant calling and diagnostic accuracy for genetic disorders in these groups. Why it matters: This work promotes precision medicine and reduces diagnostic gaps for underrepresented populations by providing more relevant genetic baselines.
KAUST researchers have developed an AI system for the Saudi Geological Survey (SGS) to improve the scientific understanding of seismic activity in Saudi Arabia. The AI system helps the SGS analyze swarm earthquakes, which are common in volcanic regions and difficult to decipher using conventional methods. The system allows for a more reliable survey of seismic regions, better infrastructure planning, and improved building codes. Why it matters: The AI system enhances Saudi Arabia's ability to monitor and respond to seismic events, contributing to public safety and infrastructure resilience.
KAUST researchers found that sulfate ions reduce free water in aqueous batteries, mitigating parasitic reactions that degrade the anode and shorten battery life. Adding zinc sulfate increased battery lifespan by more than ten times. Sulfate salts stabilize the bonds of free water, acting as a "water glue" to reduce parasitic reactions. Why it matters: This finding provides a cheap and scalable approach to improve the viability of aqueous batteries for sustainable energy storage, particularly for integrating renewable energy sources.
KAUST is partnering with digiLab to develop AI for coral conservation within the KAUST Coral Restoration Initiative (KCRI). digiLab's AI platform will provide real-time simulations of the 100-hectare reefscape, aiding in understanding coral resilience and growth under changing conditions. The AI tools are expected to reduce coral assessment times from months to weeks and optimize sensor placement. Why it matters: This partnership sets a new standard for coral restoration by demonstrating a scalable AI-driven model for global conservation efforts.
KAUST researchers have developed deepBlastoid, a deep learning tool for evaluating models of human embryo development, called blastoids. deepBlastoid can evaluate images of blastoids at speeds 1000 times faster than expert scientists, processing 273 images per second. Trained on over 2000 microscopic blastoid images, it assesses the impact of chemicals on blastoid development using over 10,000 images. Why it matters: This AI tool accelerates research into early pregnancy, fertility complications, and the impact of chemicals on embryo development, with implications for reproductive technologies.
Researchers at KAUST and KACST have developed a composite material that enhances solar cell performance by absorbing air moisture at night and releasing it during the day. When applied to solar cells in Saudi Arabia, the material increased power output by 12.9% and extended cell lifespan by over 200%. The passive cooling technology also reduced electricity generation costs by 18%. Why it matters: This innovation addresses a key challenge in solar energy adoption in hot climates, potentially making solar power more efficient and cost-effective in the region.
KAUST researchers have developed a hybrid cooling technology combining nanotech plastic and biodegradable mulch that significantly enhances crop yields in arid regions. The technology lowers greenhouse temperatures by 25 degrees Celsius and doubles crop yields in tests with Chinese cabbage. The nanotech plastic coating absorbs infrared light, while the biodegradable mulch reflects sunlight to keep the soil cooler. Why it matters: This innovation promises to improve food security in arid regions like Saudi Arabia while reducing energy consumption and plastic waste associated with traditional greenhouse cooling methods.
Researchers from KAUST and KACST have developed a quantum random number generator (QRNG) that is almost 1000 times faster than existing QRNGs. The device utilizes micro-LEDs and advanced post-processing algorithms and has passed randomness tests by the National Institute of Standards and Technology. The QRNG's portability and high generation rate will benefit industries such as health, finance, and defense. Why it matters: This advancement significantly strengthens data security capabilities in Saudi Arabia, aligning with Vision 2030 goals for technological leadership and innovation.