Singapore opens GaN semiconductor facility to strengthen global supply

GaN Chip

Singapore has launched the National Semiconductor Translation and Innovation Centre for Gallium Nitride (NSTIC GaN), marking a major step in the nation’s advanced chip manufacturing ambitions. The new GaN semiconductor facility will begin commercial operations in mid-2026 and position Singapore among a handful of global hubs capable of producing GaN on SiC wafers. This Singapore GaN semiconductor facility is expected to support both domestic and international demand for high-efficiency power electronics and communication devices.

Singapore GaN semiconductor facility boosts manufacturing capacity

NSTIC (GaN) will feature production lines for 6- and 8-inch GaN on SiC wafers, offering flexibility for diverse applications. According to Minister Tan See Leng, the facility aims to support companies from start-ups to multinationals with production-grade capabilities. GaN semiconductors can operate at higher voltages, switch faster, and reduce heat, making them vital for telecoms, EV chargers, and aerospace systems. Demand for GaN chips is rising sharply, with the global RF GaN market projected to more than double to $2.7bn by 2028.

Global collaboration and market impact

The Singapore GaN semiconductor facility is a collaboration between A*Star, DSO National Laboratories, and Nanyang Technological University, backed by $123mn in funding. Partnerships include WaferLead, a SiC substrate start-up, which will leverage NSTIC GaN to enhance wafer quality and expand its global market presence. Once fully operational, the facility will offer foundry services to overcome capital barriers and accelerate new product launches. This initiative complements Singapore’s broader semiconductor push, including NSTIC (Photonics) and a $500mn advanced packaging facility announced earlier this year.

The Metalnomist Commentary

The Singapore GaN semiconductor facility reflects the strategic shift toward localized, resilient semiconductor ecosystems. By investing in GaN technology, Singapore not only reduces reliance on foreign supply chains but also positions itself as a critical hub in the global race for next-generation power electronics. The move underscores the increasing geopolitical and industrial weight of semiconductors in clean energy, EVs, and defense applications.