Packaging Giants Launch Unprecedented Expansion Wave
April-May 2026 — The global semiconductor packaging and testing sector has entered its most aggressive capacity expansion phase in history. Since early 2026, the three largest OSAT (Outsourced Semiconductor Assembly and Test) companies have collectively announced over $15 billion in new facility investments, driven by insatiable demand from AI accelerators, HPC systems, and advanced automotive electronics.
The expansion comes as advanced packaging—particularly chiplet integration, 2.5D/3D stacking, and co-packaged optics—has become the primary pathway for chip performance improvement as Moore's Law transistor scaling slows.
ASE: Six New Facilities in One Year
On April 10, 2026, ASE Technology Holding broke ground on a new facility in Kaohsiung's Renwu Industrial Park, Taiwan, with total investment exceeding TWD 108.3 billion (~$3.4B USD). The plant will focus on advanced semiconductor testing services for AI, HPC, 5G communications, and automotive electronics applications.
Phase one completion is scheduled for April 2027, with phase two operational by October 2027. The facility is projected to generate annual output value of up to TWD 177.3 billion once fully ramped.
But this Kaohsiung facility represents only one piece of ASE's global puzzle. CEO Tien Wu stated that 2026 marks the company's most aggressive year for fab construction ever, with six new plants breaking ground worldwide—a company record. Additional expansion projects span:
- United States — Addressing reshoring demand for defense and automotive
- Malaysia — Expanding existing Penang operations for consumer electronics
- Japan — Supporting Japanese semiconductor revival ecosystem
- Germany — Serving European automotive OEMs requiring local packaging
ASE initially budgeted $7 billion in capital expenditure for 2026 but indicated potential upward revision due to stronger-than-expected market demand.
On the technology front, Wu confirmed that co-packaged optics (CPO) is entering mass production in 2026—a critical technology for next-generation AI data center interconnects that places extreme demands on substrate quality and packaging precision.
Samsung: $4 Billion Vietnam Packaging Plant
According to Bloomberg (April 10, 2026), Samsung Electronics plans to invest $4 billion to build a semiconductor packaging and testing facility in Thai Nguyen Province, northern Vietnam. The investment represents Samsung's strategic bet on Vietnam as a major packaging hub, leveraging:
- Lower labor costs compared to South Korea
- Established Samsung manufacturing ecosystem in Vietnam (smartphones, displays)
- Geographic proximity to China-based customers while diversifying from China
- Vietnam's growing engineering talent pool and favorable trade agreements
The facility will target both Samsung's internal packaging needs and potential third-party OSAT services, positioning Vietnam as a serious alternative to traditional packaging hubs in Taiwan and Malaysia.
Amkor: Doubling Down on Vietnam
Simultaneously, Amkor Technology is accelerating its own Vietnam capacity expansion. Having already established operations in the country, Amkor is investing in additional advanced packaging lines to serve the growing demand for heterogeneous integration and fan-out wafer-level packaging (FOWLP).
The parallel investments by Samsung and Amkor in Vietnam signal the country's emergence as a top-tier semiconductor packaging destination, joining the ranks of Taiwan, Malaysia, and South Korea.
What's Driving the Expansion
Several converging factors are fueling this unprecedented investment wave:
1. AI Accelerator Demand
NVIDIA, AMD, and custom AI chip companies require advanced packaging (CoWoS, InFO, chiplet integration) at volumes that exceed current global capacity. Each AI GPU uses 2-4× more advanced packaging area than traditional processors.
2. Chiplet Architecture Adoption
The industry's shift toward disaggregated chiplet designs requires sophisticated packaging that connects multiple dies on a single substrate. This dramatically increases packaging value per chip and requires new high-density substrate and interconnect technologies.
3. Geopolitical Diversification
US-China trade tensions continue driving supply chain diversification. Companies are establishing multi-geography packaging capabilities to reduce concentration risk and comply with export control requirements.
4. Automotive Electronics Growth
Advanced driver assistance systems (ADAS), electric vehicle power management, and in-vehicle computing demand both high-reliability packaging and massive volume scaling.
Implications for PCB and Substrate Manufacturers
The packaging expansion directly impacts the PCB industry:
- Advanced substrates (ABF, BT core, glass core) face multi-year supply constraints as packaging capacity outpaces substrate availability
- HDI PCB demand increases as more complex SiP (System-in-Package) modules require high-layer-count interposers
- Test board complexity grows as packaging facilities need increasingly sophisticated load boards and probe cards
- PCB/substrate convergence accelerates—the line between "PCB" and "semiconductor substrate" continues to blur
For PCB manufacturers like AtlasPCB, the packaging boom creates opportunities in IC substrate-like PCB (SLP) technology, high-density test fixtures, and advanced multi-layer boards that serve as interposers between package and system board.
ASE's Hiring Surge
To support this expansion, ASE has launched an aggressive recruitment campaign: 3,000 technical recruits in 2026 and an additional 1,000 in 2027. The hiring focuses on R&D engineers and production scaling specialists—further evidence that the company expects sustained demand growth rather than a cyclical peak.
Sources: TrendForce, Bloomberg, April 2026
Image: Laura Ockel via Unsplash
Originally published at AtlasPCB Engineering Blog
If you're working on designs that require advanced HDI substrates or high-layer-count PCBs for AI/HPC packaging applications, AtlasPCB specializes in complex multilayer boards for semiconductor packaging test and interposer applications. Get a quote →
Top comments (0)