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From 2020 to 2025, the compound annual growth rate (CAGR) of 12-inch equivalent wafer capacity at the world's top ten foundries will be approximately 10% with the majority of these companies focusing on 12-inch capacity expansion, which will see a CAGR of approximately 13.2%, according to TrendForce’s research. In terms of 8-inch wafers, due to factors such as difficult to obtain equipment and whether capacity expansion is cost-effective, most fabs can only expand production slightly by means of capacity optimization, equating to a CAGR of only 3.3%. In terms of demand, the products primarily derived from 8-inch wafers, PMIC and Power Discrete, are driven by demand for electric vehicles, 5G smartphones, and servers. Stocking momentum has not fallen off, resulting in a serious shortage of 8-inch wafer production capacity that has festered since 2H19. Therefore, in order to mitigate competition for 8-inch capacity, a trend of shifting certain products to 12-inch production has gradually emerged. However, if shortages in overall 8-inch capacity is to be effectively alleviated, it is still necessary to wait for a large number of mainstream products to migrate to 12-inch production. The timeframe for this migration is estimated to be close to 2H23 into 2024.
NAND Flash prices for 1Q22 are expected to decline by 8-13% QoQ, compared to TrendForce’s previous forecast of 10-15% QoQ, primarily due to PC OEMs’ increased orders for PCIe 3.0 products and the impact of the lockdown in Xi’an on PC OEMs’ price negotiation approaches. To mitigate potential risks in logistics, NAND Flash buyers are now more willing to accept a narrower decline in contract prices in order to obtain their products sooner. However, as the Xi’an lockdown has not noticeably affected the local fabs’ manufacturing operations, the movement of NAND Flash contract prices going forward will likely remain relatively unaffected by the lockdown.
The allocation of Murata's primary production hubs and production capacity is as follows: 56% in Japan, 36% in China, 3% in Singapore, and 5% in the Philippines, according to TrendForce’s investigations. Recently, a cluster of employees at Murata's Fukui Takefu Plant tested positive for the COVID-19 virus. Since production diversion management had been strengthened and anti-pandemic measures implemented in advance, only some categories of production capacity have been reduced or suspended and this incident has not halted production for the entire factory. According to TrendForce, the Fukui Takefu Plant accounts for 20.7% of the company's production capacity, mainly producing high-end consumer MLCCs. The current production reduction or suspension of some items will affect the supply of products such as servers and high-end smartphones. Fortunately, Fukui Takefu still retains 4~ 6 weeks of inventory and this incident should not tighten market supply in the short term.
Driven by forces such as the pandemic, geopolitics, and the digital transformation of everyday life, there has been a shortage of global foundry production capacity for nearly two years and shortages have been especially severe for mature 1Xnm~180nm nodes, according to TrendForce’s investigations. Although all foundries are furiously increasing capital expenditures to expand capacity, unrealized future expansion does not ease existing supply issues. In addition, the uneven distribution of supply chain resources that has exacerbated the shortage of parts and components has yet to be definitively alleviated. Circumstances as a whole will continue affecting shipments of related whole devices. Only the PC category is expected to emerge largely unscathed in 1Q22.
A fire occurred at ASML’s factory in Berlin, Germany on January 3, according to TrendForce’s investigations. ASML is the largest supplier of key equipment (including EUV and DUV) required for foundry and memory production. According to TrendForce’s preliminary inquiry, approximately 200m2 out of a factory floor covering 32,000m2 was affected by the fire. This factory primarily manufactures optical components used in lithography systems such as wafer tables, reticle chucks, and mirror blocks. Reticle chucks used for affixing photomasks are in short supply. Currently, the majority of components produced at this factory go towards supplying EUV machines while the lion’s share of demand for these products come from foundries. If the fire delays component delivery, it cannot be ruled out that ASML will prioritize the allocation of output towards fulfilling foundry orders.
