NEW YORK, NY – February 4, 2025 – The global legacy chip wafer foundry market is set to grow steadily, driven by consistent demand for mature node semiconductors in a variety of industries.
These chips are especially important for applications that do not require the latest cutting edge technology, but require low cost and reliable performance. The market is expected to grow from US$15.3 billion in 2024 to US$229.1 billion by 2034, reflecting a CAGR of 4.10% over the forecast period from 2025 to 2034.
In 2024, the Asia-Pacific region established itself in the dominant market, capturing more than 76.2% of the global legacy chip wafer foundry market, generating revenue of USD 11.688 billion.
This strong presence in the region can be attributed to the substantial manufacturing and technical capabilities of countries such as China, Taiwan, Japan, and South Korea. The rapid adoption of legacy chips in automotive electronics, home appliances, industrial control systems, and other sectors in the Asia-Pacific region continues to drive market growth.
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Industries such as automotive and industrial automation rely heavily on these cost-effective yet reliable chips, so demand for legacy semiconductors remains strong. Furthermore, the market is supported by diversifying semiconductor production in various regions, allowing manufacturers to ensure a stable supply chain amidst geopolitical challenges.
The legacy chip swager foundry market continues to be an important part of the broader semiconductor ecosystem, ensuring that key industries continue to operate effectively while keeping production costs easy to manage.
Key takeout
Market Value Growth: The legacy chip swager casting market is expected to grow from USD 15,333 billion in 2024 to USD 229.1 billion by 2034, indicating a stable market expansion over the next decade. CAGR: The market is projected to experience a combined annual growth rate (CAGR) of 4.10%, reflecting stable and continuous growth over the forecast period. Process Node – 28nm: 28nm Process Node is the market leader and accounts for 43.6% of the total market share. Its popularity is due to its balanced performance and cost-effectiveness, making it ideal for a wide range of applications. Applications – Automotive Electronics: Automotive Electronics leads the application segment, accounting for 41.8% of the market share. This advantage is driven by the increased use of semiconductors in automotive control systems, infotainment and advanced safety features. Regional Domination – Asia Pacific: The Asia Pacific region holds the largest market share, contributing 76.2% to the global market. This is supported by the region’s strong semiconductor manufacturing bases and the growing demand for legacy chips in key industries such as automobiles and home appliances. Stable growth potential: The legacy chip swahafauser market is a consistent growth potential driven by the continued demand for affordable, reliable chips in sectors such as automobiles, industrial applications, and home appliances. indicates.
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Important segmentation
Process Node:
28NM: This process node holds the largest market share due to its optimal balance of performance, power efficiency and cost, making it suitable for a variety of applications. 40/45NM: 40/45NM process nodes are used for cost-effective applications and provide appropriate performance for many home appliances and automotive systems. 65NM: 65NM process nodes are typically used in legacy applications where high performance is not essential but reliability and cost-effectiveness are prioritized. Over 90nm: These process nodes are utilized in older applications and continue to be associated with industries requiring mature technologies with low performance demand.
In the application:
Smartphones and Tablets: Legacy chips are widely used in smartphones and tablets, and performance demands are balanced with cost considerations. Home appliances: The chips used in home appliances usually rely on legacy nodes for efficient and cost-effective operation in products such as washing machines, refrigerators, and microwaves. Automotive Electronics: Automotive applications, including advanced driver assistance systems (ADAs) and in-vehicle infotainment, rely heavily on legacy chips for reliable, durable performance. Industrial Control System: Legacy chips have long product lifecycles and reliability that are essential for critical industrial applications in machinery, factory automation, and process control systems. Robotics: In robotics, legacy chips are used for basic control functions and motor control systems, with advanced processing functions not being important. Telecom Equipment: Communications Infrastructure uses legacy chips for communications equipment and base station systems, providing low cost and stable performance. Network Infrastructure: Legacy chips are important in the maintenance and operation of networking equipment, especially in older systems used in large infrastructure. Medical Devices: Legacy chips find applications in medical devices, such as diagnostic equipment and surveillance systems where reliability and long-term performance are essential. Other: This category includes a variety of niche applications, including home appliances, medical surveillance, industrial devices, and more. This device involves legacy chips for cost-effectiveness and reliable performance.
Key Player Analysis
TSMC (Taiwan Semiconductor Manufacturing Company): TSMC is a market leader in semiconductor manufacturing, offering a wide range of process nodes, including legacy chips. The company is known for its high quality production capacity, large R&D investments, and large-scale operations covering multiple industries including home appliances, automotive and industrial applications.
Samsung Foundry: As one of the top players in the global semiconductor market, Samsung Foundry has a strong presence in the legacy chips segment. Samsung continues to develop advanced manufacturing technologies and produces mature node semiconductors to meet the demands of automotive electronics, consumer devices and more. The company’s investment in new technologies and expansion into key markets ensures ongoing market relevance.
GlobalFoundries: GlobalFoundries specializes in legacy chips and has a strong foothold, especially in mature process nodes in automotive, industrial and communications applications. With significant investments in expanding capacity, including new semiconductor plants in Singapore, GlobalFoundries focuses on providing reliable, cost-effective solutions to a wide range of industries.
Intel Corporation: Intel is well known for its cutting-edge processors, but also plays a key role in the Legacy Chips Wafer Foundry Market. The company produces old process node chips for industrial control systems, automotive applications, and more. Intel’s deep technical expertise and robust manufacturing capabilities allow us to remain a key player in the semiconductor market.
United Microelectronics Corporation (UMC): UMC is another important player in the legacy chip market. The company’s portfolio includes mature semiconductor process nodes, serving a wide range of industries including consumer electronics, automotive and industrial applications. UMC’s focus on cost-effective and reliable chip manufacturing makes it an important player in the production of legacy semiconductors.
Recent developments
TSMC expansion in the US: In 2024, TSMC announced the opening of a semiconductor manufacturing plant in Arizona, USA, with the aim of strengthening domestic production capacity for legacy chips. This strategic expansion is consistent with the US government’s push to reduce dependence on foreign semiconductor production and secure supply chains. The plant is expected to begin production in 2025, focusing on both advanced node semiconductors and mature node semiconductors for automobiles and home appliances.
GlobalFoundries Investment in Singapore: GlobalFoundries announced its new $4 billion semiconductor manufacturing plant in Singapore in 2023. The investment is part of the company’s strategy to meet growing demand across the industry, including automotive, industrial automation and telecommunications. The facility aims to meet the growing demand for reliable mature node chips in the Asia-Pacific region.
Samsung AI Chip Production: Samsung Foundry secured a major contract in 2024 to utilize cutting-edge 2NM technology to produce AI application chips for Japanese companies’ priority networks. Although it focuses primarily on AI and advanced chips, the move highlights Samsung’s commitment to improving its casting offerings, including legacy chips, and maintaining competitiveness in the evolving semiconductor market .
China’s Efforts in Independence: Amidst the tensions in global trade, China has been strengthening its efforts to develop semiconductor manufacturing capabilities. In 2024, Chinese foundries increased the market share of legacy chips driven by both domestic demand and geopolitical factors. This increase is seen as part of China’s broader strategy to ensure self-sufficiency in semiconductor production, including investment in legacy process technologies.
US Chips Act Funding: In 2024, GlobalFoundries and TSMC were awarded the final award under the US Chips and Science Act, a $52 billion initiative designed to enhance US semiconductor manufacturing. These funds will help boost domestic production of both advanced and legacy semiconductors that support industries such as automobiles and telecommunications that rely on advanced process technologies.
Conclusion
In conclusion, the legacy chip swager casting market is experiencing steady growth due to consistent demand across major industries such as automobiles, home appliances and industrial applications.
The market could continue to be strong as companies such as TSMC, Samsung and GlobalFoundries continue to expand their production capacity and invest in new technologies.
Geopolitical changes and supply chain diversification further increase the demand for legacy chips, ensuring relevance through technological advances.
With a focus on cost-effectiveness and reliability, legacy chips continue to play a key role in powering globally important systems.
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