KAUST and KACST co-organized the KSA Future of Semiconductors Forum in Riyadh to explore strategies for developing a semiconductor industry in Saudi Arabia. Participants discussed the critical need to secure the global supply chain for semiconductors, especially with rising demand from AI and other fields. KAUST faculty member Dr. Xiaohang Li noted that local semiconductor researchers and developers can play a key role in diversifying the Saudi economy. Why it matters: Developing a domestic semiconductor industry would support Saudi Arabia's ambitions in AI and other technology sectors while enhancing economic diversification and national security.
KAUST has launched vFabLab™, its first virtual lab, to provide online distance learning for semiconductor fabrication. The virtual environment trains users on end-to-end device fabrication sequences using CMOS technology. Developed by KAUST's CEMSE division, each training session includes an interactive Q&A. Why it matters: This virtual lab expands access to crucial experimental modules in semiconductor fabrication, particularly benefiting students and enthusiasts lacking access to expensive cleanroom facilities in the region.
KAUST researchers collaborated with TSMC to review the potential of 2D materials in overcoming silicon limitations for microchips. They find that while 2D materials show promise, performance degrades when using scalable fabrication techniques like chemical vapor deposition. 2D materials have been integrated into some commercial products like sensors, but high-integration-density circuits are still a challenge. Why it matters: This research highlights the ongoing efforts and remaining hurdles in utilizing novel materials to advance semiconductor technology in line with industry roadmaps.
This article discusses the application of AI in semiconductor chip design and manufacturing, with a focus on examples such as IR-drop estimation and lithography processes. It mentions Youngsoo Shin, a KAIST professor and founder of Baum, who is an expert in this area. The article also briefly mentions panel discussion hosted by MBZUAI. Why it matters: AI-driven chip design and manufacturing could accelerate semiconductor innovation in the GCC region and beyond.
KAUST aims to become a leader in wide-bandgap semiconductor research, recognizing the technology's crucial role in diversifying Saudi Arabia's economy. Compound semiconductors are highlighted as the second most used type after silicon because of their superior properties. KAUST President Dr. Tony F. Chan emphasized the strategic importance of semiconductors and their potential to transform Saudi Arabia's digital economy, manufacturing, and defense industries. Why it matters: This initiative signals Saudi Arabia's strategic interest in developing a local semiconductor industry, crucial for its AI ambitions and economic diversification goals.
KAUST alumnus Nasir Alfaraj is conducting research at the University of Toronto, focusing on energy-efficient semiconductor technologies. His doctoral work at KAUST under Professor Boon S. Ooi explored deep-ultraviolet optoelectronics using wide-bandgap semiconductors. Alfaraj credits KAUST's interdisciplinary environment, facilities, and mentorship for shaping his research approach and preparing him for advanced roles. Why it matters: This highlights KAUST's role in training researchers who are contributing to semiconductor innovation, an area of strategic importance for Saudi Arabia's Vision 2030.
KAUST, KACST, and RDI co-organized the Future of Semiconductors Forum 2023, held at KAUST on May 15-18, featuring 36 speakers from leading research institutes, universities, and companies. Nobel Prize Laureate Dr. Shuji Nakamura and Minister of Investment Eng. Kahlid Al Falih headlined the event, emphasizing the importance of semiconductors in various sectors, including AI and renewable energy. NEOM's Dr. Donal Bradley highlighted the need for energy-efficient semiconductor innovations to support NEOM's vision and reduce carbon footprint. Why it matters: The forum underscores Saudi Arabia's commitment to becoming a global leader in semiconductor technology, fostering local expertise and attracting international investment in this critical sector.
KAUST Assistant Professor Xiaohang Li has won the 2018 Harold M. Manasevit Young Investigator Award for his work in metal-organic chemical vapor deposition (MOCVD) growth of semiconductors. Li will receive the award at the 19th International Conference on Metalorganic Vapor Phase Epitaxy in Japan. The award recognizes Li's contributions to deep UV lasers, B-III-N alloys, III-oxides, and blue and green emitters. Why it matters: This award highlights KAUST's growing prominence in advanced semiconductor research and its potential impact on the optoelectronics industry.