Localization of Chip Manufacturing Rising. Taiwan to Control 48% of Global Foundry Capacity in 2022, Says TrendForce

According to TrendForce, Taiwan is crucial to the global semiconductor supply chain, accounting for a 26% market share of semiconductor revenue in 2021, ranking second in the world. Its IC design and packaging & testing industries also account for a 27% and 20% global market share, ranking second and first in the world, respectively. Firmly in the pole position, Taiwan accounts for 64% of the foundry market. In addition to TSMC possessing the most advanced process technology at this stage, foundries including UMC, Vanguard, and PSMC also have their own process advantages. Under the looming shadow of chip shortages caused by the pandemic and geopolitical turmoil in the past two years, various governments have quickly awakened to the fact that localization of chip manufacturing is necessary to avoid being cut off from chip acquisition due to logistics difficulties or cross-border shipment bans. Taiwanese companies have ridden this wave to become partners that governments around the world are eager to invite to set up factories in various locales.

Currently, 8-inch and 12-inch foundries are dominated by 24 fabs in Taiwan, followed by China, South Korea, and the United States. Looking at new factories plans post 2021, Taiwan still accounts for the largest number of new fabs, including six new plants in progress, followed in activity by China and the United States, with plans for four and three new fabs, respectively. Due to the advantages and uniqueness of Taiwanese fabs in terms of advanced processes and certain special processes, they accepted invitations to set up plants in various countries, unlike non-Taiwanese foundries who largely still build fabs locally. Therefore, Taiwanese manufacturers have successively announced factory expansions at locations including the United States, China, Japan, and Singapore in addition to Taiwan in consideration of local client needs and technical cooperation.

The focus of Taiwan’s key technologies and production expansion remains in Taiwan, accounting for 44% of global wafer production capacity by 2025

In 2022, Taiwan will account for approximately 48% of global 12-inch equivalent wafer foundry production capacity. Only looking at 12-inch wafer production capacity with more than 50% market share, the market share of advanced processes below 16nm (inclusive) will be as high as 61%. However, as Taiwanese manufacturers expand their production globally, TrendForce estimates that the market share held by Taiwan’s local foundry capacity will drop slightly to 44% in 2025, of which the market share of 12-inch wafer capacity will fall to 47% and advanced manufacturing processes to approximately 58%. However, Taiwanese foundries’ recent production expansion plans remain focused on Taiwan including TSMC’s most advanced N3 and N2 nodes, while companies such as UMC, Vanguard, and PSMC retain several new factory projects in Hsinchu, Miaoli, and Tainan.

TrendForce believes, since Taiwanese foundries have announced plans to build fabs in China, the United States, Japan, and Singapore, and foundries in numerous countries are also actively expanding production, Taiwan’s market share of foundry capacity will drop slightly in 2025. However, semiconductor enclaves do not come together quickly. The integrity of a supply chain relies on the synergy among upstream (raw materials, equipment, and wafers), midstream (IP design services, IC design, manufacturing, and packaging and testing), and downstream (brands and distributors) sectors. Taiwan has advantages in talent, geographical convenience and industrial enclaves. Therefore, Taiwanese foundries still tend to focus on Taiwan for R&D and production expansion. Looking at the existing blueprint for production expansion, Taiwan will still control 44% of the world’s foundry capacity by 2025 and as much as 58% of the world’s capacity for advanced processes, continuing its dominance of the global semiconductor industry.


Overall DRAM Output Decreased Nearly 6% QoQ in 4Q21 Due to Decline in Shipments and Pricing, Says TrendForce

The pandemic has impeded the supply of many end-user devices such as smartphones, servers, PCs, and niche consumer electronics components, indirectly leading to a decline in a willingness on the procurement-end to stock relatively abundant memory chips, according to TrendForce research. This is most obvious in the stance of PC OEMs holding more than 10 weeks or more of DRAM inventory. Therefore, most DRAM fabs experienced a drop in shipments in the fourth quarter of 2021 and declining purchasing momentum has also led to a downward trend in DRAM price quotations. Total 4Q21 DRAM output value decreased by 5.8% QoQ, reaching US$25.03 billion, with only a few suppliers such as SK hynix bucking this trend.

Looking forward to 1Q22, although material shortages for some components can be alleviated, the first quarter is already an off season for demand and buyers’ inventories are still flush. Thus, the purchasing-side will largely concentrate on destocking, with overall purchasing momentum remaining sluggish. Thus, DRAM pricing in the first quarter of this year is expected to face greater pressure than in the fourth quarter of last year and overall DRAM output value may fall further.

4Q21 DRAM price drop causes downturn in manufacturer profit levels

In terms of revenue performance, price quotations from the three major DRAM manufacturers all declined with slightly differing shipments trends. Shipments from both Samsung and Micron fell due to poor end-user demand, with revenue down 9% and 8%, respectively. In terms of market share, Samsung dropped slightly to 42.3% while still ranking first, SK hynix climbed to nearly 30%, ranking second, and Micron dropped slightly to 22.3%.  Pricing gaps between these three DRAM manufacturers in 1Q22 is expected to be narrow, but since SK hynix had a relatively high base period of shipment in the 4Q21, the company expects a decline in its shipments slightly higher than the industry average which will reduce its 1Q22 market share slightly.

In terms of profit performance, the operating profit margins of Samsung, SK hynix, and Micron (September-November financial reporting) fell to 50%, 45%, and 41%, respectively, due to the cost optimization resulting from an increase in the proportion of advanced processes not being  enough to make up for the decline in price quotations. TrendForce believes that the downturn trend in profit margins is likely to intensify in 1Q22 and DRAM suppliers will face sharper profit decline. Manufacturers can only increase the proportion of advanced processes and optimize their product portfolio to reduce the impact brought on by price pressure.

Specialty DRAM market conditions also weak in 4Q21, with Taiwanese manufacturer revenue falling as well

As the demand for specialty DRAM end-user applications such as TVs and consumer electronics products dropped significantly in 4Q21, coupled with the impact of material shortages in the supply chain, client demand for DRAM shipments also cooled substantially. The 4Q21 specialty DRAM price decline was also comparable to that of mainstream products, in turn impacting the revenue performance of Taiwanese manufacturers focused mainly on the consumer market. From the perspective of Nanya Tech, the combination of falling volume and price reduced its revenue in 4Q21 by approximately 10%, while its operating profit rate fell to 37.5% due to the decline in price quotations. Winbond’s small-capacity (1/2Gb) market was also affected by components mismatch issues, but the impact was relatively small and its 4Q21 revenue fell slightly by close to 4%. PSMC’s (revenue calculation is primarily based on its self-produced standard DRAM products and does not include its DRAM foundry business) revenue fell slightly by approximately 1%. If its foundry revenue is added, then its revenue grew by 6%, reversing a downward trend. This demonstrates that locking-in long-term contracts early is a good strategy.

Faced with reversal in the DRAM market, it is TrendForce’s understanding that the solutions of the three major Taiwanese manufacturers are as follows: Nanya Tech can allocate 20nm production capacity to produce DDR3 (better gross profit) when DDR4 market conditions are poor and invest more resources in the research and development of new 1X nm processes.  If yield improves rapidly, this will provide some contribution before the completion of its new factory in 2024. In addition to continuing to focus on niche small-capacity products, Winbond is also strengthening research and development of 25 nm and next-generation 20 nm products, expected to be introduced directly when its Kaohsiung Lujhu factory starts mass production. As for PSMC, by locking clients into long-term contracts, it can plan 2022 production in advance and continue to maximize its greatest advantages. In accordance with market conditions and gross profit levels, it will allocate production capacity between logic IC and memory products.


Latest Assessment of Jan. 3 Earthquake in Taiwan Finds No Significant Impact on Local DRAM and Foundry Fabs, Says TrendForce

An earthquake that was around magnitude 6.0 on the Richter scale occurred off the east coast of Taiwan at 5:46PM local time on January 3, 2022. As most local DRAM and foundry fabs are located in the northern and central parts of the island, TrendForce’s latest investigations reveal no notable damages to the equipment from the fabs. Therefore, the production side is expected to continue normal operation, and the actual impact of the earthquake on the output of Taiwan’s DRAM and foundry industries will likely be limited. Taiwan’s memory fabs, including those operated by MTTW, Nanya, and other smaller semiconductor companies, collectively account for about 21% of the global DRAM production capacity. In the foundry industry, Taiwan’s fabs, including those operated by TSMC, UMC, Vanguard, PSMC, etc., together make up as much as 51% of the global production capacity.

Regarding the current state of the DRAM market, it is in midst of the conventional off-season. However, the recent easing of component gaps in the supply chain is generating some stock-up activities in different application segments and thus bolstering the overall demand. The headwinds of the off-season are not as strong as usual. Also, there are now concerns brewing in the wider memory market about the supply side being affected by the COVID-19 lockdown in the Chinese city of Xi’an. Consequently, memory spot prices have been registering daily hikes lately. It is worth noting that increases in DRAM spot prices have been more significant than the increases in NAND Flash spot prices. Regarding DRAM contract prices, TrendForce for now maintains its original forecast of QoQ drops in the 8-13% range for 1Q22. However, the latest earthquake that struck Taiwan could affect DRAM buyers’ behavior at any time. How contract prices will actually end up is something that requires further observation. As for DRAM spot trading, the memory spot market of Mainland China was still in midst of the year-end holiday on January 3. Hence, spot traders were passive for the most part. TrendForce will continue monitoring the spot market to see if the earthquake is going to be a positive driver going forward.

Turning to the current state of the foundry market, the chip demand related to some categories of end products has slowed down a bit recently because of seasonality. However, demand remains quite strong for chips that were previously in short supply, such as PMIC, Wi-Fi SoC, etc. Foundry fabs on the whole are still operating with a fully loaded capacity because demand continues to outstrip supply. The fabs of Taiwan-based foundries, including TSMC, UMC, PSMC, and Vanguard, are concentrated in Hsinchu, Taichung, and Tainan. In those places, an earthquake intensity scale of 3 or under was recorded. As such, no foundry fab in Taiwan has halted operation because of the earthquake, and all fabs are operating normally at the moment.

For more information on reports and market data from TrendForce’s Department of Semiconductor Research, please click here, or email Ms. Latte Chung from the Sales Department at


Foundry Revenue for 2Q21 Reaches Historical High Once Again with 6% QoQ Growth Thanks to Increased ASP and Persistent Demand, Says TrendForce

The panic buying of chips persisted in 2Q21 owing to factors such as post-pandemic demand, industry-wide shift to 5G telecom technology, geopolitical tensions, and chronic chip shortages, according to TrendForce’s latest investigations. Chip demand from ODMs/OEMs remained high, as they were unable to meet shipment targets for various end-products due to the shortage of foundry capacities. In addition, wafers inputted in 1Q21 underwent a price hike and were subsequently outputted in 2Q21. Foundry revenue for the quarter reached US$24.407 billion, representing a 6.2% QoQ increase and yet another record high for the eighth consecutive quarter since 3Q19.

Revenue growths of TSMC and Samsung were slightly hindered by power outages at their respective fabs

For 2Q21, TSMC once again comfortably dwarfed other foundries with a revenue of US$13.3 billion, a 3.1% QoQ increase. TSMC’s relatively muted growth can be attributed to several factors, the most prominent of which was a power outage that occurred in TSMC’s Fab14 P7, located in the Southern Taiwan Science Park, in April. The power outage subsequently caused some wafers at the 40nm and 16nm nodes to be discarded. TSMC’s fab in the Southern Taiwan Science Park suffered yet another disruption when Taipower’s Kaohsiung-based Hsinta Power Plant temporarily went offline in May. Although the fab immediately resumed operations via its emergency power generators so that no wafers in the production lines were discarded, certain wafers still needed to be reworked. Finally, TSMC maintained its longstanding strategy of giving consistent price quotes for its foundry services. Hence, although the foundry’s revenue for 2Q21 exceeded the upper end of its prior financial guidance, its revenue for the quarter underwent a slightly lower QoQ growth compared to other foundries, and it also lost some market share to competitors.

Samsung’s revenue for 2Q21 reached US$4.33 billion, a 5.5% QoQ increase. After recovering from the winter storm that swept Texas in February, Samsung’s Austin-based Line S2 fab fully resumed its manufacturing operations in April. The fab is now operating at fully loaded capacities by manufacturing for additional client orders in order to compensate for the 1.5-month loss in wafer input from idling as a result of the winter storm. Although the sharp drop in wafer input in 1Q21 somewhat constrained Samsung’s output and revenue growth for 2Q21, the foundry still managed to post a 5.5% QoQ revenue growth thanks to strong client demand for CIS, 5G RF transceivers, and OLED driver ICs. Owing to persistently high demand for PMIC, TDDI, Wi-Fi, and OLED driver IC products, UMC, ranked third on the top 10 list, operated at a capacity utilization rate surpassing 100%, and its output severely lagged behind client demand. In response, UMC continued to raise its quotes. In addition, newly installed production capacities at the 28/22nm nodes, which have a relatively high ASP, gradually became available for wafer input in 2Q21, resulting in a 5% QoQ increase in UMC’s blended ASP for 2Q21. The foundry saw its market share remaining relatively unchanged from the previous quarter at 7.2% and posted a revenue of US$1.82 billion, an 8.5% QoQ increase.

Fourth-ranked GlobalFoundries posted a revenue of US$1.52 billion for 2Q21, a 17.0% QoQ increase. After selling its US-based Fab10 and Singapore-based Fab3E to ON Semi and VIS, respectively, in 2019, GlobalFoundries has been gradually consolidating its existing product lines and focusing on the development of 14/12nm FinFET, 22/12nm FD-SOI, and 55/40nm HV and BCD technology platforms. At the same time, GlobalFoundries has also announced that it will expand its current production capacities by building new US-based and Singapore-based fabs, which are expected to contribute to GlobalFoundries’ earnings starting in the 2H22-2023 period. On the other hand, although GlobalFoundries has already sold its Fab10 to ON Semi, the former continues to manufacture products for the latter at Fab10 across the 2020-2021 period. ON Semi will not independently operate the fab until the transfer of ownership is finalized in 2022. SMIC likewise grew its revenue for 2Q21 by a remarkable 21.8% to US$1.34 billion and raised its market share to 5.3%. SMIC’s growth took place due to strong client demand for various technologies including 0.15/0.18µm PMIC, 55/40nm MCU, RF, HV, and CIS, as well as a continued increase in its ASP. Owing to better-than-expected adoption of its 14nm technology by new clients, SMIC is operating at a fully loaded capacity of 15K wspm at the moment.

While VIS leapfrogged Tower on the top 10 list, HuaHong Group, inclusive of subsidiaries HHGrace and HLMC, took sixth place

HuaHong Group subsidiaries HHGrace and HLMC have been operating Fab1/2/3/7 and Fab5/6, respectively and sharing certain manufacturing resources. Hence, TrendForce will from now on combine the two subsidiaries’ revenues into a single item, listed as HuaHong Group. In particular, capacity expansion at HH Fab7, operated by Hua Hong Wuxi, proceeded ahead of expectations, with client demand for NOR Flash, CIS, RF, and IGBT products remaining strong. Not only is HH Fab7’s production capacity of 48K wspm currently fully loaded, but HuaHong Group’s 8-inch fabs have all been operating at a capacity utilization rate of more than 100%. Thanks to a 3-5% QoQ increase in HuaHong Group’s blended ASP for 8-inch wafers, HuaHong Group’s revenue for 2Q21 reached US$658 million, a 9.7% QoQ increase, placing the foundry squarely in the number six spot.

After leapfrogging Tower in the revenue rankings in 1Q21 for the first time ever, PSMC maintained its strong growth in 2Q21 partially owing to continued wafer starts for specialty DRAM, DDI, CIS, and PMIC in its P1/2/3 fabs. At the same time, there was a massive hike in demand for automotive chips, such as IGBT, manufactured at PSMC’s Fab 8A and Fab 8B. In view of quarterly increases in PSMC’s overall ASP, the foundry posted US$459 million in revenue for 2Q21, an 18.3% QoQ increase, and took the seventh spot in the rankings. VIS benefitted from a host of factors in 2Q21, including persistent demand for DDI, PMIC, and power discretes; newly installed capacities in the Singapore-based Fab3E ready for production; adjustments in the foundry’s product mix; and an overall ASP hike. VIS’ revenue for 2Q21 reached US$363 million, which represented not only an 11.1% QoQ increase, but also the first time VIS overtook Tower in terms of revenue.

Although ninth-ranked Tower benefitted from stable demand for RF-SOI products, industrial PMIC, and automotive PMIC, the foundry’s newly installed capacities were not entirely ready for mass production, and its revenue therefore underwent a modest 4.3% QoQ increase for 2Q21 to US$362 million. On the other hand, DBHiTek had been operating at fully loaded capacities for more than 18 months. While client demand for PMIC, MEMS, and CIS products manufactured with 8-inch wafers made consistent contributions to the foundry’s earnings, most of DBHiTek’s revenue growth for 2Q21 took place due to the rise in its ASP. DBHiTek’s revenue for 2Q21 reached US245 million, a 12.0% QoQ increase.

As of 3Q21, the shortage of foundry capacities that began in 2H19 has persisted and intensified for nearly two years. Although newly installed capacities from certain foundries have become gradually available for production, the increase in production capacity has been relatively limited, and these additional capacities have been fully booked by clients, as indicated by TrendForce’s investigation into orders placed by foundry clients. All major foundries currently operate at fully loaded capacities, though their production still lags behind market demand. Furthermore, wafer inputs for automotive chips have been skyrocketing since 2Q21 due to major pushes by governments worldwide, in turn constraining the available production capacities for other chips. As a result, foundries are continuing to raise their blended ASPs and adjusting their product mixes in order to further optimize profits. TrendForce therefore believes that the combined revenues of the top 10 foundries will reach a record high in 3Q21 by undergoing a wider QoQ growth compared to 2Q21.

For more information on reports and market data from TrendForce’s Department of Semiconductor Research, please click here, or email Ms. Latte Chung from the Sales Department at


What Is the Global Significance of the Taiwanese Semiconductor Industry’s Advanced Processes?

As UMC and GlobalFoundries successively end their respective developments of advanced processes, the advanced process market has now become an oligopoly, with TSMC and Samsung as the only remaining suppliers (excluding SMIC, which is currently affected by geopolitical tensions between China and the US). According to TrendForce’s latest investigations, TSMC holds a 70% market share in advanced processes below – and including – the 1Xnm node, while Samsung’s market share is about 30%.

As electronic products demand faster data transmission speeds and better performance in response to IoT and 5G applications, the chips contained in these products also need to shrink in size and consume less power. Hence, process technologies need to evolve in order to enable the production of increasingly advanced chips. In this light, suppliers of such chips as smartphone AP, CPU, and GPU primarily rely on Taiwan for its semiconductor industry’s advanced process technologies.

Why is Taiwan able to hold key manufacturing competencies, market shares, and unsurpassed technologies in the global foundry industry?

After TSMC pioneered its pure-play foundry services more than 30 years ago, UMC also subsequently transitioned to a foundry business model. However, the build-out and maintenance of wafer fabs require enormous human resources, capital expenditures, and environmental support, all of which have been skyrocketing since the industry progressed below the 40nm node into the EUV era. Factors including governmental support, human resource development, utility services, and long-term amortization and depreciation are all indispensable for foundries to keep up their fab operations. TrendForce’s findings indicate that Taiwan possesses about 50% of the global foundry capacity, and this figure will likely continue growing due to the persistent demand for advanced processes.

Taiwanese foundries led by TSMC and UMC operate based on a pure-play foundry model, which means they do not compete with their clients outside of foundry operations. Foundries are able to maximize the profitability of the semiconductor ecosystem in Taiwan thanks to Taiwan’s comprehensive PC, ICT, and consumer electronics industries.

In addition, not only are they able to deliver PPA(performance, power, and area) advantages to their clients through technology scaling and node shrinking, they are also unsurpassed in their comprehensive silicon IP cores and longstanding product development services. Other competing foundries are unlikely to make breakthroughs in these fields and catch up to Taiwanese foundries in the short run.

On the whole, the Taiwanese foundry industry is able to maintain its leadership thanks to competencies in human capital, client strategies, process technologies, capital intensify, economies of scale, and superior production capacities.

Furthermore, not only do advancements in semiconductor fabrication technology require developmental efforts from foundries, but they also need support throughout the entire supply chain, including upstream wafer suppliers and downstream client feedbacks, both of which can serve to eliminate yield detractors and raise yield rates. Therefore, the Taiwanese semiconductor industry derives its advantage from foundries(TSMC, UMC, PSMC, and VIS), as well as from the cross-industrial support across silicon wafer suppliers(SAS and GlobalWafers), fabless IC design clients, and packaging and testing operators(ASE, etc.)

(Cover image source: TSMC

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