The Technology Innovation Institute (TII) in Abu Dhabi has integrated its Quantum Computing Cloud Platform with NVIDIA CUDA-Q. This allows global researchers to submit quantum jobs to TII's physical quantum hardware and simulators using the CUDA-Q programming interface. The integration provides a unified "write-once, run-anywhere" experience for quantum job submission. Why it matters: This partnership enhances the accessibility and performance of TII's quantum computing resources, integrating the UAE's quantum capabilities into the global high-performance computing landscape.
The Technology Innovation Institute (TII) in Abu Dhabi, in collaboration with NVIDIA, has demonstrated large-scale simulations of the adiabatic quantum annealing (QA) algorithm for problem instances involving up to 500,000 qubits. TII's simulator achieved solution quality exceeding that of all solvers evaluated from the MQLib repository, a library for combinatorial optimization benchmarking. The emulator is accessible to external users via an experimental cloud platform hosted at https://q-inspired.tii.ae. Why it matters: This collaboration expands the range of complex optimization problems that can be investigated using quantum-inspired approaches, beyond those currently achievable with near-term quantum hardware.
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's Supercomputing Laboratory and NVIDIA co-hosted the "Accelerating Scientific Applications Using GPUs" workshop, attended by 120 participants. The event included technical sessions, guest lectures from KAUST faculty and NVIDIA, and presentations on KAUST applications developed on NVIDIA GPUs. KAUST also held its first hackathon, where teams ported scientific applications to GPU accelerators with guidance from KAUST and NVIDIA mentors. Why it matters: This collaboration strengthens KAUST's position as a hub for high-performance computing and GPU-accelerated research in the region, fostering talent development and collaboration with industry partners.
Technology Innovation Institute (TII) will make its Falcon-H1 large language model available as an NVIDIA NIM microservice. Falcon-H1 features a hybrid Transformer–Mamba architecture supporting context windows of up to 256k tokens. The model's availability on NVIDIA NIM aims to provide enterprises with a plug-and-play asset for building AI systems. Why it matters: This integration will simplify deployment and scaling of Falcon-H1 for enterprises, potentially accelerating the adoption of sovereign AI solutions in the region.
Abu Dhabi's Technology Innovation Institute (TII) has developed a new quantum optimization solver in collaboration with NVIDIA, Los Alamos National Laboratory, and Caltech. The solver addresses large-scale combinatorial optimization problems using a small number of qubits, encoding over 7000 variables with only 17 qubits. Published in Nature Communications, the research demonstrates a hybrid quantum-classical algorithm with a novel encoding scheme that maximizes the use of quantum resources. Why it matters: This advancement marks a significant step toward practical quantum computing applications in the UAE and beyond, particularly in solving complex optimization challenges across various sectors.