Search and Filter Through Our Comprehensive Database of Semiconductor Fabrication Plant Projects and Tenders in United States (US)
Identify and track latest semiconductor FAB projects (upcoming, ongoing/under-construction, completed), tenders, and contract awards. Our extensive database and user-friendly interface make it easy for you to find the right business opportunity in United States (US).
United States (US) Semiconductor Fabrication Plant Industry Analysis
The US semiconductor industry is one of the largest and most important semiconductor industries in the world. In 2022, the US semiconductor industry generated USD 275 billion in revenue, which accounted for 25% of the global semiconductor market. The US semiconductor industry is also a major employer, with over 250,000 people directly employed in the industry.
The semiconductor industry supports a wide range of other industries, including the automotive industry, the aerospace industry, and the healthcare industry. The US semiconductor industry is also a major exporter of semiconductor products, with over USD 100 billion in semiconductor exports in 2022.
What is Semiconductor?
A semiconductor is a material that has electrical conductivity between a conductor and an insulator. The conductivity of a semiconductor can be controlled and modified by applying an electric field or by introducing impurities, a process known as doping. This ability to control electrical conductivity makes semiconductors a crucial component in the field of electronics.
Semiconductors are typically made of materials like silicon, germanium, and gallium arsenide. Silicon is the most widely used semiconductor material, and it forms the basis of most integrated circuits (ICs) and other electronic components.
Why is semiconductor important?
Electronic Components: Semiconductors are the building blocks of electronic devices. They are used to create transistors, diodes, and other components that form the basis of electronic circuits.
Integrated Circuits (ICs): Semiconductors enable the fabrication of integrated circuits, which are collections of interconnected transistors, resistors, capacitors, and other components on a single chip. ICs are the backbone of modern electronic systems, powering everything from computers and smartphones to medical devices and automotive electronics.
Digital and Analog Electronics: Semiconductors are versatile and can be used in both digital and analog applications. They are essential for processing and amplifying signals in various electronic systems.
Memory Devices: Semiconductors are used in the production of memory devices, such as RAM (Random Access Memory) and ROM (Read-Only Memory), which are crucial for storing and retrieving data in electronic devices.
Microprocessors and Microcontrollers: These are specialized integrated circuits that contain a central processing unit (CPU) or microcontroller, which serve as the brain of a computer or embedded system. Semiconductors are fundamental to the design and functionality of these devices.
Communication Systems: Semiconductors play a vital role in communication systems, including the components used in radios, televisions, smartphones, and networking equipment.
Renewable Energy: Semiconductor materials are used in photovoltaic cells to convert sunlight into electricity, contributing to the development of solar energy technology.
Power Electronics: Semiconductors are essential in power electronic devices that control and convert electrical power, facilitating efficient energy distribution and utilization.
United States Semiconductor Manufacturing Industry Analysis
The increasing demand for advanced semiconductors: The demand for advanced semiconductors is growing rapidly, driven by the increasing adoption of emerging technologies such as artificial intelligence, machine learning, and 5G. These technologies require more powerful and efficient semiconductors than traditional applications.
The growing importance of compound semiconductors: Compound semiconductors are a type of semiconductor that is made from two or more elements. Compound semiconductors have a number of advantages over traditional silicon semiconductors, such as higher speeds, higher power handling capabilities, and better efficiency. As a result, compound semiconductors are increasingly being used in a wide range of applications, including automotive electronics, industrial automation, and communications.
The increasing adoption of AI and ML in semiconductor design and manufacturing: AI and ML are being used to improve the efficiency and accuracy of semiconductor design and manufacturing processes. This is helping to reduce the cost of semiconductor production and to accelerate the development of new semiconductor technologies.
The increasing collaboration between semiconductor companies and other industries: Semiconductor companies are increasingly collaborating with companies in other industries, such as automotive and healthcare, to develop new semiconductor-based solutions for these industries. This collaboration is helping to drive innovation and to expand the market for semiconductor products.
USA Semiconductor Industry Drivers
The global semiconductor industry is rapidly growing and so is the UK's. The semiconductor sector in the United Kingdom is highly competitive, especially when semiconductor market leaders from East Asia and North America have dominated the market.
Semiconductors are the essential components of electronic devices, such as computers, smartphones, and automobiles, and they are also increasingly being used in a wide range of other applications, such as artificial intelligence, data centers, and the Internet of Things (IoT).
There are a number of key drivers that are fueling the growth of the global semiconductor industry, including:
1. The increasing demand for consumer electronics:
Consumer electronics, such as smartphones, tablets, and laptops, are the largest end market for semiconductors. The demand for these devices is expected to continue to grow in the coming years, as consumers continue to upgrade to newer and more powerful devices.
2. The growth of the automotive industry:
The automotive industry is another major end market for semiconductors. The increasing demand for electric vehicles (EVs) and autonomous vehicles (AVs) is driving the demand for semiconductors with advanced capabilities, such as those used in powertrain controllers and ADAS (advanced driver-assistance systems).
3. The rise of artificial intelligence (AI) and machine learning (ML):
AI and ML are rapidly changing the way we live and work, and they are creating a new demand for semiconductors with specialized capabilities. For example, AI-powered applications require semiconductors with high processing power and memory bandwidth.
4. The expansion of the Internet of Things (IoT):
The IoT is a network of physical devices that are embedded with sensors, software, and network connectivity to collect and exchange data. The IoT is expected to grow exponentially in the coming years, and this will create a new demand for semiconductors with low power consumption and the ability to connect to the internet.
5. The ongoing trend of miniaturization:
The semiconductor industry has a long history of miniaturization, and this trend is expected to continue in the coming years. Miniaturization allows for more powerful and energy-efficient semiconductors, and it also enables the development of new and smaller electronic devices.
In addition to these key drivers, the global semiconductor industry is also being shaped by a number of other factors, such as:
The increasing competition between major semiconductor companies
The need for greater investment in research and development (R&D)
The growing importance of intellectual property (IP) protection
The need for a sustainable and environmentally responsible semiconductor supply chain
Recent developments in the USA semiconductor fab industry
The most recent government initiative in the USA semiconductor industry is the CHIPS and Science Act, which was passed in August 2022. The act provides $52 billion in funding for the US semiconductor industry, including:
$39 billion in semiconductor manufacturing grants and incentives
$11 billion in semiconductor research and development funding
$2 billion for workforce development programs
The CHIPS and Science Act is designed to boost domestic semiconductor manufacturing, support research and development, and strengthen the US semiconductor supply chain. The act is also intended to address the global chip shortage and to reduce the US reliance on foreign semiconductor imports.
Some other developments include
The US Department of Commerce is providing $3 billion in funding to support the construction of new semiconductor manufacturing facilities in the US.
The US Department of Defense is investing in research and development of new semiconductor technologies.
The US Department of State is working with foreign governments to strengthen the global semiconductor supply chain.
USA Semiconductor Industry Restraints
High Capital Expenditures
The semiconductor industry is a capital-intensive industry. Companies need to invest heavily in research and development, manufacturing facilities, and equipment. This can make it difficult for new companies to enter the market and can also put pressure on existing companies to constantly innovate and improve their products.
Long lead times
Semiconductors are complex products that require a long time to develop and manufacture. This can make it difficult for companies to respond quickly to changes in demand or technology.
The semiconductor industry is highly competitive. There are a number of large companies, such as Intel, Samsung, TSMC, and Qualcomm, that are vying for market share in semiconductor technology and other semiconductor devices. This can make it difficult for smaller companies to compete and can also lead to price wars.
The semiconductor industry is also affected by geopolitical tensions. For example, the trade war between the United States and China has made it more difficult for companies to operate and has also led to supply chain disruptions.
The semiconductor industry is a highly skilled industry. There is a shortage of skilled workers, such as engineers and technicians, which can make it difficult for companies to find the talent they need.
The semiconductor industry is also a target for cyberattacks. These attacks can disrupt production, steal intellectual property, and damage reputations.
USA semiconductor industry market size
The US semiconductor industry is the largest semiconductor industry in the world, with a market size of USD 275 billion in 2022. The industry is expected to grow at a CAGR of 6.7% from 2023 to 2032, reaching a market size of USD 392.4 billion by 2032.
Important statistics of the US semiconductor industry
The US semiconductor industry employs over 250,000 people.
The US semiconductor industry exports over USD 100 billion worth of semiconductors annually.
The US semiconductor industry is responsible for over 50% of the global semiconductor market share.
The US semiconductor industry is a major driver of the US economy, contributing over USD 1 trillion to the US GDP annually.
Top 5 semiconductor manufacturing/fab companies in the USA
Intel is one of the largest semiconductor manufacturing companies in the United States and the world. It designs, manufactures, and sells microprocessors, chipsets, flash memory, and other integrated circuits for computers, servers, and other electronic devices. Intel has its headquarters in Santa Clara, California, and has manufacturing facilities in the United States, Europe, Asia, and Latin America.
Micron Technology Inc
Micron Technology is the second-largest semiconductor company in the United States and one of the largest semiconductor chip manufacturers in the world. It designs, manufactures, and sells DRAM, NAND flash memory, and CMOS image sensors for a variety of applications, including computers, smartphones, data centers, and automotive electronics. Micron has its headquarters in Boise, Idaho, and has manufacturing facilities in the United States, Asia Pacific, and Europe regions.
Texas Instruments Inc
Texas Instruments is the third-largest semiconductor manufacturer in the United States and a leading manufacturer of analog and mixed-signal integrated circuits. It designs, manufactures, and sells analog ICs, digital ICs, and embedded processors for a variety of applications, including automotive electronics, industrial automation, communications, and consumer electronics. Texas Instruments has its headquarters in Dallas, Texas, and has manufacturing facilities in the United States, Asia, and Europe.
AMD (Advanced Micro Devices, Inc.) is an American multinational semiconductor company based in Santa Clara, California. It develops computer processors and related technologies for business and consumer markets. AMD is a global leader in the design and sale of microprocessors and other semiconductor products. The company's products are used in a wide variety of applications, including personal computers, servers, and embedded systems.
Nvidia is an American multinational technology company incorporated in Delaware and based in Santa Clara, California. It designs graphics processing units (GPUs) for the gaming, professional visualization, data center, and automotive markets. Nvidia is a global leader in the design and sale of GPUs. The company's products are used in a wide variety of applications, including video games, computer graphics, artificial intelligence, and machine learning.
Microchip Technology is the fifth-largest semiconductor manufacturing company in the United States and a leading manufacturer of microcontroller units (MCUs). It designs, manufactures, and sells MCUs, analog ICs, and other embedded control solutions for a variety of applications, including automotive electronics, industrial automation, consumer electronics, and aerospace and defense. Microchip Technology has its headquarters in Chandler, Arizona, and has manufacturing facilities in the United States, Asia, and Europe.
Major Semiconductor Manufacturing/Fabrication Projects in the USA
Intel Fab 52 and Fab 62, Chandler, Arizona
Intel is investing $20 billion to build two new semiconductor fabs in Chandler, Arizona. The fabs will produce advanced semiconductors using Intel's new 2nm and 1.8nm process technologies. The fabs are expected to be completed in 2024 and 2025, respectively.
TSMC Fab 21, Phoenix, Arizona
TSMC is investing $12 billion to build a new semiconductor fab in Phoenix, Arizona. The fab will produce advanced semiconductors using TSMC's new 5nm process technology. The fab is expected to be completed in 2024.
Samsung Foundry Fab 2, Taylor, Texas
Samsung Electronics is investing $17 billion to build a new semiconductor fab in Taylor, Texas. The fab will produce advanced semiconductors using Samsung's new 5nm process technology. The fab is expected to be completed in 2024.
Texas Instruments Sherman Fab, Sherman, Texas
Texas Instruments is investing $30 billion to build up to four new semiconductor fabs in Sherman, Texas. The fabs will produce a variety of semiconductors using Texas Instruments' existing and new process technologies. The first fab is expected to be completed in 2025.
GlobalFoundries Fab 8, Malta, New York
GlobalFoundries is investing $4 billion to expand its Fab 8 semiconductor fab in Malta, New York. The expansion will add new capacity for the production of advanced semiconductors using GlobalFoundries' existing and new process technologies. The expansion is expected to be completed in 2023.
USA Semiconductor Industry Future Outlook
The US semiconductor industry is a key driver of the US economy and a major force in the global semiconductor market. The industry is supported by a strong ecosystem of suppliers and customers, and it has a long track record of innovation. The industry is also facing a number of growth opportunities, such as the increasing demand for advanced semiconductors and the growing importance of compound semiconductors. The US government is also committed to supporting the semiconductor industry.
Overall, the future outlook for the USA semiconductor industry is very positive. The industry is expected to grow significantly in the coming years, driven by a number of key factors, including the increasing demand for semiconductors from a variety of end markets, the growing importance of compound semiconductors, the increasing adoption of AI and ML in semiconductor design and manufacturing, and the increasing collaboration between semiconductor companies and other industries.
Looking for a List of Semiconductor Fabrication Plant Projects in United States (US)?
Are you searching for semiconductor FAB projects and tenders in United States (US)?
We have compiled the most comprehensive and up-to-date database of global projects and tenders to quickly find opportunities needing your services.
Blackridge Research's Global Project and Tender database is a valuable resource for EPC companies, general contractors, subcontractors, manufacturers, suppliers, operation & maintenance (O&M) companies, investors, consulting companies, and law firms looking for new business opportunities.
Our database includes all the essential project details, contact information of project owners and stakeholders, making it easy for you to establish your connection and grow your business.