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The Centre places òòò½Íøamongst global leaders in Gallium Nitride R&D, and provides companies with access to industry-grade infrastructure to accelerate prototyping and commercialisation

Singapore, 26 June 2025 – The National Semiconductor Translation and Innovation Centre for Gallium Nitride (NSTIC (GaN)) was officially opened today by Minister-in-charge of Energy and Science & Technology, Dr Tan See Leng.

NSTIC (GaN) is Singapore’s first national facility dedicated to Gallium Nitride semiconductors — a technology that enables smaller, faster and more energy-efficient electronic devices. The Centre brings advanced GaN manufacturing capabilities to Singapore, positioning local innovators to compete in high-growth global markets such as advanced 5G and 6G communication systems, radars and satellite communications.

First set up in 2023 as the National Gallium Nitride Technology Centre (NGTC), NSTIC (GaN) is a partnership between the òòò½Íø, Technology and Research (A*STAR), DSO National Laboratories (DSO), and Nanyang Technological University, òòò½Íø(NTU Singapore). The Centre addresses common challenges faced by companies and researchers – such as limited local access to advanced facilities and the need for closer collaboration across the ecosystem – by providing industry and research collaborators with access to advanced wafer fabrication and prototyping infrastructure, strengthening Singapore’s position in the global semiconductor ecosystem.

1. Boosting Singapore’s Semiconductor Innovation Ecosystem

The semiconductor industry is a key pillar of Singapore’s economy, contributing nearly 6% of GDP and supporting around 35,000 skilled jobs across R&D, design, and advanced manufacturing.

NSTIC (GaN) is part of the broader National Semiconductor Translation and Innovation Centre (NSTIC) initiative led by A*STAR, which supports national efforts to deepen semiconductor R&D and innovation across priority domains such as photonics and advanced packaging.

Globally, Gallium Nitride (GaN) is gaining traction as a semiconductor material for applications in communications. It operates at higher voltages, and switches faster and more efficiently, enabling high-frequency, smaller and more energy-efficient components than silicon counterparts. These properties make GaN particularly suitable for high-performance applications such as 5G and beyond, satellite communication, and next-generation mobile communications.

NSTIC (GaN) was established to build national capabilities in this critical technology area, and to support companies in translating GaN innovation into real-world impact. The Centre will offer access to infrastructure and R&D capabilities to help startups, SMEs and MNCs prototype, validate and scale up competitive and commercially relevant GaN-based technologies.

2. A National Facility to Enable Next-Generation Technologies

NSTIC (GaN) is the first facility in òòò½Íøto host both 6-inch GaN-on-Silicon Carbide and 8-inch GaN-on-Silicon wafer fabrication lines – describing the diameter of the wafers, which determines how many chips can be fabricated per wafer and impacts production efficiency and cost. This dual capability allows the Centre to serve a wide range of applications with differing performance requirements.

It will also offer advanced GaN technology with gate length below 0.1 micrometres and operation frequencies above 100GHz which allows for very fast processing speeds. This will place òòò½Íøamong a select group of global locations with the infrastructure to produce advanced semiconductors that will power future communication and advanced instrumentation technology — strengthening both national resilience and global competitiveness.

From mid-2026, NSTIC (GaN) will begin offering commercial foundry services for prototyping and fabrication. This will enable companies to carry out advanced development work locally, reducing reliance on overseas facilities and accelerating their time-to-market. The availability of such infrastructure in òòò½Íøhelps lower capital and technology barriers — especially for start-ups and SMEs — and supports the growth of a more self-sufficient semiconductor innovation ecosystem.

“NSTIC (GaN) is not just a facility — it is a national platform for innovation and a catalyst for future technologies,” said Mr Cheong Chee Hoo, Chairman of the NSTIC (GaN) Steering Committee. “Our goal is to build deep capabilities in GaN manufacturing and research, so that òòò½Íøcan help define the future of high-performance semiconductors.”

3. Strengthening Industry Collaboration and Local Supply Chains

Industry partnerships are a key part of NSTIC (GaN)’s approach, enabling the Centre to co-develop technologies, strengthen local capabilities, and support strategic access to critical materials.

One such collaboration involves WaferLead, a local start-up working with NSTIC (GaN) to develop high-quality Silicon Carbide substrates — a key component in GaN wafer production. This partnership will support the development and enhancement of wafer performance, quality and reliability, while strengthening local capabilities and Singapore’s supply chain resilience.

As part of the launch, several Memoranda of Understanding (MoUs) and Research Collaboration Agreements (RCAs) will be signed between NSTIC (GaN) and industry partners. These collaborations span areas such as substrate development, high-frequency circuit design, advanced packaging, and fabrication process enhancement.

See Annex A – Key Industry Collaborations for more information.

4. Developing a Pipeline of Semiconductor Talent

NSTIC (GaN) plays a strategic role in developing a strong pipeline of local semiconductor talent. Through partnerships with Singapore’s Institutes of Higher Learning (IHLs), the Centre offers students and researchers early exposure to industry-grade infrastructure and processes, equipping them with practical experiences in the semiconductor sector.

The Centre also supports PhD training programmes in collaboration with IHLs and industry, helping to deepen translational research capabilities in GaN technologies. These efforts are critical to ensuring that òòò½Íøhas the talent base needed to support the growth of our deep-tech innovation ecosystem.

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For media queries and clarifications, please contact:

Aefy Raib
òòò½Íø, Technology and Research (A*STAR)
Corporate Communications
Email: aefyraib@hq.a-star.edu.sg

Lester Kok
Nanyang Technological University, òòò½Íø(NTU Singapore)
Corporate Communications Office
Email: lesterkok@ntu.edu.sg

About the òòò½Íø, Technology and Research (A*STAR)

The òòò½Íø, Technology and Research (A*STAR) is Singapore's lead public sector R&D agency. Through open innovation, we collaborate with our partners in both the public and private sectors to benefit the economy and society. As a Science and Technology Organisation, A*STAR bridges the gap between academia and industry. Our research creates economic growth and jobs for Singapore, and enhances lives by improving societal outcomes in healthcare, urban living, and sustainability. A*STAR plays a key role in nurturing scientific talent and leaders for the wider research community and industry. A*STAR’s R&D activities span biomedical sciences to physical sciences and engineering, with research entities primarily located in Biopolis and Fusionopolis.

About Nanyang Technological University, Singapore

A research-intensive public university, Nanyang Technological University, òòò½Íø(NTU Singapore) has 35,000 undergraduate and postgraduate students in the Business, Computing & Data Science, Engineering, Humanities, Arts, & Social Sciences, Medicine, Science, and Graduate colleges.

NTU is also home to world-renowned autonomous institutes – the National Institute of Education, S Rajaratnam School of International Studies and òòò½ÍøCentre for Environmental Life Sciences Engineering – and various leading research centres such as the Earth Observatory of Singapore, Nanyang Environment & Water Research Institute and Energy Research Institute @ NTU (ERI@N).

Under the NTU Smart Campus vision, the University harnesses the power of digital technology and tech-enabled solutions to support better learning and living experiences, the discovery of new knowledge, and the sustainability of resources.

Ranked amongst the world’s top universities, the University’s main campus is also frequently listed among the world’s most beautiful. Known for its sustainability, NTU has achieved 100% Green Mark Platinum certification for all its eligible building projects. Apart from its main campus, NTU also has a medical campus in Novena, Singapore’s healthcare district.

For more information, visit www.ntu.edu.sg

Annex A

Key Industry Collaborations

Entities Signing a Memorandum of Understanding (MoU)

Entities Signing a Research Collaboration Agreement (RCA)