A semiconductor foundry, commonly referred to as a fab or fabrication facility, is a type of factory that uses photolithography to create devices like integrated circuits (ICs). On a photosensitive substrate, the circuit pattern is photographed, and the backdrop is etched chemically in the process. Several technological nodes are used to make ICs, and they can be used for a variety of applications. In semiconductor foundries, there is a clean room with a controlled atmosphere that keeps the temperature and humidity in a given range, as well as removing vibrations and dust. They were initially created in the previous decades and typically consist of integrated device manufacturers (IDMs) who are mostly manufacturing-focused. One of the key reasons propelling the market's expansion is the rising demand for ICs for usage in vehicles, consumer electronics, medical devices, military equipment, and smart home appliances. Also, the demand for ICs is benefiting from the increasing global adoption of Internet of Things (IoT)-enabled devices. IoT devices allow consumers link numerous gadgets to the internet and make decisions by processing information. As a result, they work in a variety of sectors, such as electronics, healthcare, retail, and the automobile industry. Also, the industry is expanding due to government funding from a number of nations for the advancement of semiconductor technology.
The COVID-19 epidemic and the ensuing growth in distance learning and work have boosted network demand, hastening the demand for stronger and more dependable networks. Stronger networks and new technologies, like 5G, are becoming much more necessary due to the accompanying rise in demand for streaming entertainment at home. As a result, there is a substantial demand for cellphones that support 5G, as well as for the semiconductor chips made especially for those devices. The employment of semiconductor devices, which come in a variety of sizes and configurations across end-user industries to drive performance in crucial industries, has demonstrated their importance in helping the globe cope with the pandemic.
Semiconductor Foundry Market Key Players:
The market study provides market data by competitive landscape, revenue analysis, market segments and detailed analysis of key market players such as; DB Hi Tek, Fujitsu Semiconductor Limited Global Foundries, Magnachip, Powerchip, Samsung Group, Semiconductor Manufacturing International Corporation, STMicroelectronics, Tower Semiconductor Ltd., TSMC, United Microelectronics Corporation , X-Fab.
Global Semiconductor Foundry Market Segmentation:
By Technology: Based on the Technology, Global Semiconductor Foundry Market is segmented as; 10/7/5nm, 16/14nm, 20nm ,45/40nm ,Others.
By Foundry Type: Based on the Foundry Type, Global Semiconductor Foundry Market is segmented as; Pure Play Foundry , IDMs
By Application: Based on the Application, Global Semiconductor Foundry Market is segmented as; Automotive, Communication, Computer, Consumer Electronics ,Others.
By Region: The global semiconductor foundry market report covers Australia, Brazil, China, France, Germany, India, Indonesia, Japan, Russia, South Korea, the United Kingdom, and the United States. The analysis offers request perceptivity for North America, Europe, Asia- Pacific, and the rest of the world, by region. The request for semiconductor foundries in North America, which had deals of some billion in previous year, is anticipated to increase at a substantial CAGR over the exploration period. This is explained by the expanding consumer electronics request, adding demand for linked products, adding use of the Internet of effects, and expanding interest in electronic and driverless vehicles.
The availability of cutting-edge technology, the expansion of the automotive industry, rising government investment in the construction of infrastructure for smart cities and connected vehicles, and the expansion of the consumer electronics sector in the region all contribute to Europe's semiconductor foundry market holding the second-largest market share. Furthermore, the UK semiconductor foundry market had the quickest rate of growth in the European region, while the Germany semiconductor foundry market had the largest market share. The strongest CAGR growth is anticipated for the Asia-Pacific Semiconductor Foundry Market. This is because IOT devices are becoming more widely used, there is a greater need for electronic cars, and governments are investing more money in programmes to build smart cities, all of which are expected to drive market growth in the area. Moreover, the highest market share was held by the semiconductor foundries in China.
This study also encompasses various drivers and restraining factors of this market for the forecast period. Various growth opportunities are also discussed in the report.