Researchers from the Technology Innovation Institute (TII)'s DERC and AMRC will participate in the 9th Ansys User Codes Conference in Dubai on November 9. Dr. Chaouki Kasmi will present on Ansys Multiphysics Simulation in Pulsed Power Applications, while Dr. Nesma Aboulkhair will join a panel on challenges in adopting engineering simulation. The conference will focus on sharing simulation experiences and best practices using Ansys solutions. Why it matters: This event provides a platform for Middle East researchers to engage with industry and share expertise in advanced engineering simulation, fostering innovation in the region.
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's Core Labs provide engineering simulation services and training using state-of-the-art technology. The Supercomputing Core Lab (KSL) at KAUST conducts training workshops in partnership with ANSYS, a market leader in engineering and simulation design software. Since 2017, KSL has conducted five training workshops related to engineering software in partnership with ANSYS, with 230 attendees, including 138 individuals from in-Kingdom institutions outside of KAUST. Why it matters: These workshops strengthen Saudi Arabia's engineering capabilities by providing access to simulation software and training, facilitating collaboration between KAUST, Saudi Aramco, and SABIC.
Technology Innovation Institute (TII)'s Directed Energy Research Center (DERC) will participate in the Fluid Codes - Ansys User Conference on October 19, 2023, in Dubai. Dr. Chaouki Kasmi will join a panel on digital transformation in national R&D strategy, while Umar Hashmi and Gideon Appiah will present a paper on enhancing Marx generator reliability using ANSYS Maxwell. The conference will gather over 120 leaders to discuss innovation and R&D. Why it matters: TII's participation highlights the UAE's focus on advanced engineering and digital transformation in achieving its research and development goals.
AMRC researchers Jide Oyebanji and Tarcisio Silvia will present papers at the MATLAB User Group Meeting in Abu Dhabi. Oyebanji's paper focuses on the 'Design of an Interactive TPMS Designing Desktop App' using MATLAB's numerical capabilities. Silvia's presentation discusses the optimization of MIMO active vibration controllers for electromechanical systems using MATLAB Simulink and Particle Swarm Optimization. Why it matters: The presentations showcase the application of computational tools like MATLAB in advanced materials research and digital engineering within the UAE.
Marcus Engsig from DERC will present a paper at the MATLAB User Group Meeting in Abu Dhabi on October 6. The paper, titled ‘Generalization of Higher Order Methods For Fast Iterative Matrix Inversion Compatible With GPU Acceleration’, discusses a novel approach to matrix inversion using GPUs. The method, named Nested Neumann, achieves 4-100x acceleration compared to standard MATLAB methods for large matrices. Why it matters: This research contributes to faster computation in numerical and physical modeling, crucial for processing large datasets in various scientific and engineering applications in the region.
KAUST recently hosted the Research Conference: Predictive Complex Computational Fluid Dynamics (PCCFD) from May 22 to 24. The conference brought together local and international CFD scientists from academia and industry to discuss the latest work and findings in CFD. Topics included variable-order algorithms, adaptive mesh refinement, fluid-structure interaction, and uncertainty quantification. Why it matters: The conference highlights KAUST's commitment to advancing CFD research and its applications in various fields, including aerospace, oil industry, and environmental science.
A KAUST team led by Hossein Fariborzi won second place in the MEMS Design Contest for their "MEMS Resonator for Oscillator, Tunable Filter and Re-Programmable Logic Applications." The device is runtime-reprogrammable, allowing the function of each device in the circuit to be changed during operation. The KAUST team demonstrated that two MEMS resonators could replace over 20 transistors in applications like digital adders, reducing digital circuit complexity. Why it matters: This innovation could significantly reduce power consumption, chip area, and manufacturing costs in microprocessors, advancing the development of energy-efficient microcomputers in the region.