According to a report from Nikkei on August 5, RS Technologies, a global giant in recycled wafers, has announced that due to increased orders, it will expand the monthly production capacity of its Japanese and Taiwanese plants to 580,000 wafers by 2024.

Despite the Japanese plant operating at full capacity, the company is still unable to meet the surging demand, prompting it to implement new investment plans to further increase production.

RS Technologies President Fang Yong Yi explained that there are various processes in semiconductor manufacturing, and many of them require repeated quality checks and testing, which utilize reclaimed wafers.

These reclaimed wafers are cleaned and subjected to precise regeneration processes, with each wafer being recyclable about 10 times. The company estimates that global monthly production output of reclaimed wafers will increase by 32% from 1.32 million in 2023 to 1.74 million in 2024.

Regarding TSMC’s new plant in Kumamoto Prefecture, which hints at a resurgence in semiconductor production within Japan, Fang noted that in 2023, orders for reclaimed wafers from major Japanese semiconductor companies like Kioxia significantly declined. However, in 2024, orders are expected to increase by 10,000 to 20,000 wafers month by month.

For 2024, the combined monthly production of RS Technologies’ Japanese and Taiwanese plants is projected to rise from 540,000 in 2023 to 580,000.

Reportedly, the Japanese plant is currently operating at full capacity with a 24-hour, three-shift system but still cannot meet demand. The plant’s current monthly production is 320,000 wafers, and new equipment investments are planned to add 170,000 wafers to the monthly capacity soon.

Fang further noted that orders for recycled test wafers from overseas vendors have also increased. New plants require a large volume of test wafers, and thus the simultaneous construction of new plants by overseas manufacturers represents a significant opportunity for the company.

RS Technologies, in a financial report released on May 13, announced plans to expand its overall monthly production capacity of reclaimed wafers to over 890,000 units by the end of 2026 to meet strong demand.

Read more

• [News] Japan’s “Silicon Island” Reawakening? Taiwanese Semiconductor Companies Follow TSMC to Kyushu
• [News] TSMC’s JASM Kumamoto Plant 2 Greenlit, Construction Expected to Commence by Year’s End

A previous report from Economic Daily News once reported that, Innolux is set to sell its 4th Plant in Tainan (5.5-generation LCD panel plant), which was closed in 2023. Moreover, the report has cited rumors in the market, claiming that both Micron and TSMC have been actively exploring the acquisition.

Eariler on August 1st, the latest report from MoneyDJ further suggests that TSMC is almost certain to secure the deal, primarily to expand its CoWoS capacity. Regarding this matter, neither company has commented on these market rumors.

On July 30, Innolux announced its plan to dispose of the TAC plant-related real estate at the Southern Taiwan Science Park (STSP) D section, so as to bolster operational funds. To expedite the process and meet business needs, the board authorized Chairman Jim Hung to negotiate terms and sign relevant contracts with potential buyers.

Reportedly, the sale price must not be lower than the asset’s book value in the most recent financial statements, taking into account professional valuation reports and market information.

The recent trend of FOPLP (Fan-Out Panel Level Packaging) is said to have fueled speculation and discussions about Innolux’s plant sale, leading to rumors that TSMC is on the verge of announcing the purchase.

Yet, per MoneyDJ, TSMC’s current FOPLP applications in the AI field primarily involve stacking on rectangular substrates, integrating them into 2.5D and 3D packages. Initially, TSMC prefers to complete the entire FOPLP process in-house, integrating the front-end and back-end technologies of the 3D fabric platform.

For Innolux, besides gaining considerable non-operating income, this opportunity also raises the prospect of future collaboration.

Notably, this rumored move comes as construction at TSMC’s first P1 plant in the Southern Taiwan Science Park’s Chiayi Campus was halted due to the discovery of potential archaeological remains.

With P1 construction paused, TSMC has prioritized the construction of the second plant (P2). However, current capacity is very tight, and the time required to complete and ramp up P2 to mass production may not meet customer demand. The long-term substantial demand has driven TSMC to seek additional suitable locations in advance.

It is indicated by MoneyDJ that though TSMC’s Chiayi plant is currently facing delays due to the archaeological site issue, Chiayi is still planned to be a major hub for CoWoS production in the long term, with six phases planned. Previously, the company had considered expanding SoIC (System on Integrated Chips) production in Yunlin, but has recently decided to put those plans on hold.

Overall, the latest industry estimates suggest that CoWoS monthly capacity could reach about 35,000 to 40,000 wafers this year. On 2025, if outsourcing to packaging and testing subcontractors is included, capacity could potentially exceed 60,000 wafers, or even more next year.

Read more

• [News] Innolux Confirms Sale of Tainan Plant 4, with Micron & TSMC Reportedly in the Bidding Stage
• [News] TSMC Halts Chia-Yi Plant Construction Due to Relic Found, Quickly Initiates Preparation for 2nd Plant

(Photo credit: Innolux)

On July 31, IQE plc, the global supplier of compound semiconductor wafer products and advanced material solutions, announced the planned initial public offering (IPO) of the Group’s Taiwanese operating subsidiary (IQE Taiwan) on the Taiwan Stock Exchange (TWSE).

The Group intends to list IQE Taiwan on the TWSE and to sell a minority shareholding through a public offering, but it plans to retain control of IQE Taiwan and will continue to leverage its strategic value, with the proceeds of the public offering intended to be utilized across the Group to fund the growth strategy.

Currently, the IPO process is at an early stage, and IQE has engaged Taishin Securities Co. Ltd as its financial advisor to assist in preparing IQE Taiwan for the IPO. IQE explained that the IPO will be proceeded in two stages.

For the initial phase, IQE Taiwan is expected to be listed on the Emerging Market Board in 1H25, subject to usual regulatory procedures and requirements. Further transaction details and information regarding the process will be disclosed as appropriate.

As IQE is capitalizing on the market opportunities ahead, including in GaN Power, the company considers the listing of its Taiwan subsidiary as an exciting opportunity for the entire group, which will accelerate IQE’s investment in its strategy for growth.

Once the subsidiary is successfully listed, IQE is expected to maximize asset value and ensure supply reliability and flexibility for its global customers.

It’s worth noting that aside from IQE, GaN IDM Innoscience is promoting its IPO process on the Hong Kong Stock Exchange while TASC has spun off its subsidiary responsible for 8-inch GaN business and promoted its listing on TWSE, which all reflect the fact that GaN power semiconductor technologies are gaining traction, particularly with the development of AI server and low-altitude economy sectors.

Read more

• [News] Hong Kong Kicked-off Construction of the First GaN Epi-Wafer Pilot Line
• [News] SK keyfoundry Advances in GaN Power Semiconductors, Reportedly Producing for Tesla Soon

(Photo credit: IQE)

NVIDIA’s next-generation Blackwell architecture AI superchip is about to ship. According to a report from Commercial Times, on July 29 during the SIGGRAPH conference in Denver, USA, NVIDIA announced a series of software updates and revealed that samples of the new AI chip architecture Blackwell have been distributed, sparking optimism about the company’s continued record-breaking performance.

Industry sources cited by the report have indicated that the Blackwell series is regarded by Jensen Huang as the most successful product in history. It is expected to drive a new wave of AI server data center construction by cloud service providers (CSPs).

The report notes further that in addition to TSMC’s 4nm process being in high demand, the increasing penetration of water cooling technology, which is projected to reach up to 10%, is likely to benefit Cooling Distribution Unit suppliers such as Vertiv, as well as companies like Asia Vital Components, AURAS Technology, Delta Electronics, and Cool IT.

Furthermore, the new AI superchip is expected to start shipping to clients in the fourth quarter, with full-scale production set for 2025. Assembly plants will also benefit, including Wistron, Foxconn (through its subsidiary Ingrasys), which are involved in front-end manufacturing of substrates, computing boards, and switch boards.

Companies such as Wiwynn, Quanta (Quanta Cloud Technology), Inventec, GIGABYTE, ASUS, and ASRock are also expected to see increased orders for their rack-mounted systems. Among these, Quanta, Wiwynn, and Inventec have indicated that their related products are expected to start shipping in the fourth quarter, with further increases in volume anticipated in the first half of next year.

The NVIDIA Blackwell platform is set to become the main solution for NVIDIA’s high-end GPUs. TrendForce estimates that GB200 NVL36 shipments are expected to reach 60,000 units in 2025, with Blackwell GPU usage between 2.1 to 2.2 million units, making Blackwell the mainstream platform and accounting for over 80% of NVIDIA’s high-end GPUs.

TrendForce observes that the GB200 NVL36 architecture will initially utilize a combination of air and liquid cooling solutions, while the NVL72, due to higher cooling demands, will primarily employ liquid cooling.

Read more

• [News] NVIDIA Reportedly Developing Tailored Version of the Blackwell Series for Chinese Market
• [News] NVIDIA CEO Jensen Huang Estimates Blackwell Chip Price Around USD 30,000 to USD 40,000

(Photo credit: NVIDIA)

As the U.S. presidential election approaches, uncertainties also arise. Compared with the stance in President Biden’s term, U.S. presidential candidate Trump shows a remarkably different attitude regarding the “Taiwan issue,” while he highlights the “America First” agenda further.

However, according to a report by Technews, Trump may overlook the fact that Taiwan’s semiconductor is closely tied to shaping the “America First” stance that he values. By standing as a crucial ally in semiconductor, Taiwan could help the U.S. secure a foothold in the arms, AI, and technology race. Without Taiwan’s support, it is hard to say whether U.S. may face the risk of being overtaken by China, as the latter is developing semiconductor at full throttle. Read below for more analysis from Technews:

Intel’s “Five Nodes in Four Years” Roadmap: Details of Intel 20A Still Vague

Let’s look at Intel’s progress first. The tech giant has announced a plan to advance through five nodes in four years (5N4Y), as the latest update includes Intel 14A in its top-tier node strategy.

However, in the chart below, Intel 7, which has been categorized as a mature process, is already being caught up by SMIC’s 7nm and 5nm processes. This is happening despite the U.S.-China trade war, with the U.S. placing SMIC on the entity list and imposing equipment restrictions.

From the perspective of advanced nodes, Intel’s latest Lunar Lake platform will be manufactured with TSMC’s 3nm process this year. In addition, its next-generation Nova Lake processors will also adopt TSMC’s 2nm process, with a potential release date in 2026.

Intel CEO Pat Gelsinger has stated that the first-generation Gate-All-Around (GAA) RibbonFET process, Intel 20A, is expected to launch this year, with Intel 18A anticipated to go into production in the first half of 2025.

However, it is worth noting that Intel 20A was originally reported to be used for Arrow Lake and Lunar Lake processors, but Gelsinger confirmed at COMPUTEX that the latter will use TSMC’s 3nm process, with no mention of Arrow Lake’s progress. The market expects that some Arrow Lake processor orders may be outsourced to TSMC, which also suggests that the progress of Intel 20A may not meet expectations.

On the other hand, SMIC, limited by equipment constraints, has progressed to 7nm but faces delays with 5nm, so it will advance gradually with N+1, N+2, and N+3 processes.

Without Taiwan’s Semiconductor Manufacturing, the AI Computing Power of the U.S. May Eventually Be Caught up by China

Industry experts believe that without Taiwan’s semiconductor manufacturing, it would be difficult for the industry to progress, especially for AI and HPC chips that require significant computing power and advanced processes.

Currently, AI chips primarily adopt TSMC’s 4nm and 3nm nodes and will continue to use the 2nm process in the future. Without TSMC’s technology, the U.S., if it solely relies on Intel for its foundry and capacity, may progress relatively slow in AI computing power, which may make the country eventually lose the AI race with China, falling behind in future commercial and military equipment advantages.

According to a report by the U.S. Department of Commerce’s Bureau of Industry and Security (BIS) in December last year, the global semiconductor IC design industry was valued at USD 248 billion in 2022, while integrated device manufacturers (IDM) were valued at USD 412 billion, totaling USD 660 billion. The U.S. accounted for 53% of this value, while Taiwan only accounted for 6%.

On the other hand, the global foundry services in 2022 was valued at USD 139 billion, while the packaging and testing industry was valued at USD 50 billion, totaling USD 190 billion. Taiwan accounted for 63%, while the U.S. only accounted for 8%.

Despite this, the overall semiconductor industry value in the U.S. remains at USD 365 billion, making it the largest beneficiary in the sector. That of Taiwan, on the other hand, is only USD 159 billion, less than one-third of the U.S. total.

Sanctioning Taiwan Would Be “Shooting Oneself in the Foot,” Making the U.S.  Harder to Win the Tech War with China

Regarding government subsidies, China is launching the third phase of its Big Fund, with a registered capital of 344 billion RMB (about USD 47.5 billion), which is significantly higher than the previous two phases. This represents a nationwide effort to invest in semiconductors, with a focus on enhancing semiconductor equipment and the overall supply chain.

The U.S. CHIPS Act, on the other hand, has a scale of USD 52.7 billion, which is comparable to China’s subsidies. However, as technology and arms races are long-term competitions, how related policies may evolve would also be subject to the results of the election.

On the other hand, China is currently working hard to better its semiconductor eco-industrial chain, expand its market share in mature processes, and continue advancing to more advanced process technologies, which may further shorten its gap with the U.S.

As the U.S. IC design sector is closely related to Taiwan’s semiconductor manufacturing technology, Taiwan’s role in the game has become a key factor for the U.S. to maintain its leading edge with China. Without Taiwan’s technological support, the techonological dominance of the U.S. might be threatened, as China’s semiconductor industry has gradually catching up.