TSMC(US:TSM) 半导体芯闻·2026-01-04 10:17Core Viewpoint - The rapid development of artificial intelligence presents significant challenges for TSMC, which is striving to overcome supply constraints in its 2nm process technology to meet market demand. TSMC plans to increase prices for its next-generation process starting January 1, but order volumes remain strong despite the price hike. By Q3 2026, TSMC's revenue from 2nm is expected to surpass the combined revenue from 3nm and 5nm processes [1][2]. Group 1: TSMC's 2nm Process Development - TSMC is expected to build up to 10 2nm fabs in Taiwan and the U.S., with plans to invest up to $28.6 billion in three new factories in Taiwan to meet high market demand. The 2nm capacity is fully booked through 2026 [1][2]. - The 2nm process began contributing to TSMC's revenue in Q3 2023, initially accounting for 6% of total revenue and rising to 15% in Q4. Currently, 5nm technology constitutes 60% of total revenue, but this is expected to decline as 3nm and 2nm technologies mature [2][3]. Group 2: Competitive Landscape - TSMC's 2nm technology is being adopted by major clients, including Apple, Qualcomm, and MediaTek, for their latest processors. The A20 processor for the iPhone 18 series is expected to utilize TSMC's 2nm process [4][5]. - Samsung is also advancing its 2nm process with the Exynos 2600 processor, which integrates CPU, GPU, and NPU, enhancing AI performance while reducing power consumption [5][6]. Group 3: Market Dynamics and Future Outlook - The competition in the 2nm foundry market is intensifying, with Intel and Samsung vying for market share against TSMC. Intel is promoting its 18A process, which is equivalent to 2nm, and aims to attract external clients by 2026 [7][8]. - TSMC remains the only foundry currently offering 2nm services to external clients, maintaining a significant competitive advantage in the market [7][8]. - The demand for TSMC's 2nm process is expected to continue growing, with analysts predicting that the number of projects based on this technology will exceed those based on 3nm [6][10].