Global automotive semiconductor market is expected to be valued at US$ 58770.1 million in 2023 and to reach a valuation of US$ 115609.68 million by 2033. The demand for Automotive Semiconductor is estimated to grow at a steady 7% CAGR, with the United Kingdom, the USA, China, and India emerging as key producers.
The automotive semiconductor market is experiencing several trends that are shaping the future of the industry. One of the most significant trends is the growing demand for electric components and hybrid vehicles. As the world focuses more on sustainable forms of transportation, the need for electric and hybrid vehicles is increasing, which is driving demand for semiconductor technology. These vehicles require advanced semiconductor components such as power electronics, microcontrollers, and sensors that enable the efficient operation of electric components powertrains and battery management systems.
Another trend in the automotive semiconductor market is the advancements in ADAS technology. The driver-assistance systems are becoming more sophisticated and are being equipped with features like lane departure warning, adaptive cruise control, and automatic emergency braking. This trend is driving the demand for semiconductors that enable these features, such as image sensors, radar, and LiDAR systems.
The adoption of autonomous vehicles is also driving the need for more advanced semiconductor technology. Autonomous vehicles rely heavily on semiconductor components such as LiDAR, radar, and camera systems to navigate the roads and avoid accidents. The development of this technology is driving the need for more advanced semiconductor components that can handle the complex processing requirements of autonomous driving systems.
The rise of connected car technology is another trend that is driving demand for advanced semiconductor technology. With the increasing use of telematics, infotainment, and vehicle-to-vehicle communication, there is a growing need for microcontrollers, sensors, and processors that can support these systems. These components enable the connectivity between the car and other devices, making driving safer, more comfortable, and more enjoyable.
Finally, the automotive semiconductor market is adopting Industry 4.0 technology, such as IoT and AI. The automotive industry is exploring new ways to use these technologies to enhance manufacturing processes, improve vehicle performance, and increase customer satisfaction. This trend is driving demand for more advanced semiconductor technology that can support these systems.
| Attributes | Details |
|---|---|
| Automotive Semiconductor Market CAGR (2023 to 2033) | 7% |
| Automotive Semiconductor Market Size (2023) | US$ 58770.1 million |
| Automotive Semiconductor Market Size (2033) | US$ 115609.68 million |
Don't pay for what you don't need
Customize your report by selecting specific countries or regions and save 30%!
| Market statistics | Details |
|---|---|
| H1,2021 (A) | 6.4% |
| H1, 2022 Projected (P) | 6.9% |
| H1, 2022 Outlook (O) | 7.5% |
| BPS Change: H1,2022 (O)-H1,2022(P) | (+) 61 ↑ |
| BPS Change: H1,2022 (O)-H1,2021(A) | (+) 107 ↑ |
Future Market Insights analysis of the automotive semiconductor market provides reasoning for the change in BPS points for H1,2022(O)-H1,2022(P) and H1,2022(O)-H1,2021(A). Implementation of IoT technology in automobiles, developments in the technology of vehicles, and development in electric and solar-powered vehicles have led to the growth of the automotive semiconductor market.
H1,2022(O)-H1,2022(P) witnessed a growth of 61 BPS points. Sales of vehicles have increased in the year 2022. 5G technology was quick to be implemented by automotive semiconductor vendors, offering consumers with internet connection inside the vehicle. Technical applications of IoT, such as connected cars, are in their growth phase. However, its application in cars has helped the automotive semiconductor market grow.
H1,2022(O)-H1,2021(A) witnessed a growth of 107 BPS points. There is a growth in sales of automobiles in the year 2021, with major markets being countries with high populations, like China, India, and the United States. Technology that could be used for automating the driving process of a car boosted the market for automotive semiconductors.
Technology to keep track of heavy motors like trucks was another driver. Several cars now implement front-facing and back-facing cameras to assist with parking.
The sales of automotive semiconductors expanded at a CAGR of 6% from 2018 to 2022, owing to the increased adoption of advanced automotive semiconductors.
Short-term Outlook: Technological proliferation in the automotive industry has substantially increased in recent years, and this trend is expected to be rife over the forecast period as well. Semiconductors have led the technological transformation of the automotive industry, and hence, demand for semiconductor manufacturing has also risen.
Medium-term Outlook: Rising use of semiconductors in automotive LiDAR sensors, matrix LEDs, advanced driver assistance systems (ADAS), etc., is expected to propel the sales of automotive semiconductors. The increasing popularity of autonomous vehicles is expected to also give further impetus to semiconductor manufacturing.
Long-term Outlook: Semiconductor manufacturers for cars are expected to keep focusing on the integration of advanced technologies and top-notch safety features to enhance their offerings and increase their sales potential. Rising sales and production of cars across the world are expected to provide high revenue opportunities for automobile computer chip manufacturers.
Principal Consultant
Electrification of Vehicles: The shift towards electric and hybrid vehicles is one of the major trends in the automotive industry, and it is driving the need for more advanced and efficient semiconductors. Battery management systems, power electronics, and electric motor drives all require specialized semiconductors that can handle high voltages and currents while also maintaining high efficiency. As the demand for electric and hybrid vehicles continues to grow, the demand for these types of semiconductors is expected to increase.
Autonomous Driving: Autonomous driving is another major trend in the automotive industry, and it is driving the need for more sophisticated semiconductors. Autonomous vehicles require a wide range of sensors and processing units to perceive and interpret the environment, make decisions, and control the vehicle's movements. These sensors and processing units need to be highly reliable and efficient, and they require specialized semiconductors that can handle the high data processing requirements. As the development of autonomous driving technologies continues, the demand for these types of semiconductors is expected to increase.
Advanced Driver Assistance Systems (ADAS): The growing demand for advanced safety features, such as collision avoidance and driver assistance systems, is driving the need for more advanced semiconductors. ADAS systems rely on sensor fusion, data processing, and control systems to provide accurate and timely information to the driver, and these systems require specialized semiconductors that can handle high data processing requirements while also maintaining high reliability. As the demand for ADAS systems continues to grow, the demand for these types of semiconductors is expected to increase.
Connected Vehicles: The increasing demand for connected vehicles is another major trend in the automotive industry, and it is driving the need for more advanced semiconductors for communication and networking. Connected vehicles require specialized semiconductors that can handle the high data transmission requirements for vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication. These semiconductors must also be highly reliable and secure to ensure the safety of the vehicle and its passengers. As the demand for connected vehicles continues to grow, the demand for these types of semiconductors is expected to increase.
Europe & North America Account for Major Market Shares
The consumption of automotive semiconductors in North America is expected to dominate the global automotive semiconductor market share. This trend is driven by government initiatives aimed at boosting the automotive manufacturing industry and the increasing adoption of IoT technologies in multiple vehicles. The rapid integration of new technologies in the North American automotive industry is expected to continue driving sales of automobile computer chips through 2030, with Canada and the United States leading the way as the most significant markets in the region.
Meanwhile, the popularity of electric cars in Europe is anticipated to drive the demand for electric components, with the increasing use of semiconductor devices in automotive infotainment Socs systems also driving the demand for automotive semiconductors. Germany is expected to be a noteworthy market for automotive microcontroller manufacturers, due to the presence of key car manufacturing companies in the nation.
In East Asia, the increasing sales of cars owing to rising disposable income and evolving consumer preferences are expected to significantly impact the demand for automobile computer chips in the region through 2030. Semiconductor manufacturers for cars in this region are anticipated to benefit from the rising demand for automotive safety systems such as ADAS, TPMS, ABS, etc., as well as the growing sales of luxury cars. China is expected to lead the sales of automotive semiconductors in this region, thanks to its robust automotive and semiconductor manufacturing industries.
Get the data you need at a Fraction of the cost
Personalize your report by choosing insights you need
and save 40%!
The United States is one of the largest markets for electric and autonomous vehicles, which require a wide range of advanced semiconductors. The demand for these vehicles is driving the need for more specialized and sophisticated semiconductors that can handle the unique requirements of electric and autonomous driving, and many of these semiconductors are being developed and produced in the United States.
The country also has a strong and mature automotive industry that has been a major driver of the country's economy for many years. The automotive industry is a major consumer of semiconductor technology, and the United States has a large and established base of automakers and suppliers that demand a wide range of semiconductors.
Presence of Robust Automotive Manufacturing Industry Driving Automotive Semiconductor Consumption
China is the leading automotive manufacturing country in the world, and this factor alone is projected to boost shipments of automotive semiconductors in the nation over the years to come. Supportive government initiatives to boost semiconductor manufacturing and the rising use of automobile computer chips are prominent factors that are expected to govern the sales of automotive semiconductors through 2033.
Semiconductor manufacturers for cars are expected to have highly lucrative opportunities carved out for them in China as sales of electric vehicles increase soon.
Dominant Market Share Held by Micro Components
The micro component segment is expected to be valued at 16974.2 million by the end of this year.
Rising use of micro components (processors) in several automotive systems such as ABS (anti-lock braking systems), TPMS (tire pressure monitoring systems), electronic stability control, etc., are expected to drive segment growth through 2030.
As such, the micro components segment is anticipated to hold a major market share over the coming years. Discrete semiconductor devices are also anticipated to see a rise in demand at a steady pace throughout the forecast period.
Automotive Semiconductor Sales High for Safety & Body Applications
The safety application segment is expected to be valued at US$ 14322.4 million by the end of 2023. The outlook for safety applications in the global automotive semiconductor market is very promising. The demand for safety features in vehicles has been increasing rapidly in recent years, and this trend is expected to continue in the coming years. As a result, the demand for automotive semiconductors that enable these safety features is also expected to grow significantly.
One of the key drivers of this trend is the increasing focus on reducing accidents and improving road safety. Governments and regulatory bodies around the world are implementing stricter safety regulations, and automakers are responding by incorporating advanced safety features in their vehicles. These features include adaptive cruise control, lane departure warning, blind spot detection, and automatic emergency braking, among others, and they all require sophisticated semiconductor technologies to function effectively.
Another driver of the demand for automotive semiconductors for safety applications is the growing market for electric and autonomous vehicles. These vehicles rely heavily on advanced sensors and semiconductors to navigate the road and avoid accidents, and this is driving demand for semiconductors that enable features such as collision avoidance, pedestrian detection, and traffic sign recognition.
The automotive industry is currently experiencing a surge in demand for computer chips, and semiconductor suppliers are taking notice. These companies are investing heavily in expanding their production and manufacturing capabilities to keep up with this ever-growing demand. But that's not all - leading semiconductor firms are also implementing various strategic initiatives to enhance their sales potential and market share on a global scale. The race is on to become the dominant player in this crucial segment of the automotive supply chain.
The projected revenue of the market by 2033 is US$ 1,156,09.68 million.
The market CAGR for 2033 is projected to be 7%.
The market is valued at US$ 58,770.1 million in 2023.
North America holds a substantial market share.
The automotive sector is a key source as modern cars use a lot of semiconductors.
1. Executive Summary | Automotive Semiconductor Market
1.1. Global Market Outlook
1.2. Demand-side Trends
1.3. Supply-side Trends
1.4. Technology Roadmap Analysis
1.5. Analysis and Recommendations
2. Market Overview
2.1. Market Coverage / Taxonomy
2.2. Market Definition / Scope / Limitations
3. Market Background
3.1. Market Dynamics
3.1.1. Drivers
3.1.2. Restraints
3.1.3. Opportunity
3.1.4. Trends
3.2. Scenario Forecast
3.2.1. Demand in Optimistic Scenario
3.2.2. Demand in Likely Scenario
3.2.3. Demand in Conservative Scenario
3.3. Opportunity Map Analysis
3.4. Product Life Cycle Analysis
3.5. Supply Chain Analysis
3.5.1. Supply Side Participants and their Roles
3.5.1.1. Producers
3.5.1.2. Mid-Level Participants (Traders/ Agents/ Brokers)
3.5.1.3. Wholesalers and Distributors
3.5.2. Value Added and Value Created at Node in the Supply Chain
3.5.3. List of Raw Material Suppliers
3.5.4. List of Existing and Potential Buyer’s
3.6. Investment Feasibility Matrix
3.7. Value Chain Analysis
3.7.1. Profit Margin Analysis
3.7.2. Wholesalers and Distributors
3.7.3. Retailers
3.8. PESTLE and Porter’s Analysis
3.9. Regulatory Landscape
3.9.1. By Key Regions
3.9.2. By Key Countries
3.10. Regional Parent Market Outlook
3.11. Production and Consumption Statistics
3.12. Import and Export Statistics
4. Global Market Analysis 2018 to 2022 and Forecast, 2023 to 2033
4.1. Historical Market Size Value (US$ Million) & Volume (Units) Analysis, 2018 to 2022
4.2. Current and Future Market Size Value (US$ Million) & Volume (Units) Projections, 2023 to 2033
4.2.1. Y-o-Y Growth Trend Analysis
4.2.2. Absolute $ Opportunity Analysis
5. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Component
5.1. Introduction / Key Findings
5.2. Historical Market Size Value (US$ Million) & Volume (Units) Analysis By Component, 2018 to 2022
5.3. Current and Future Market Size Value (US$ Million) & Volume (Units) Analysis and Forecast By Component, 2023 to 2033
5.3.1. Micro Components
5.3.2. Memory Devices
5.3.3. Optical & Sensors
5.3.4. Analog ICS
5.3.5. Discrete Devices
5.4. Y-o-Y Growth Trend Analysis By Component, 2018 to 2022
5.5. Absolute $ Opportunity Analysis By Component, 2023 to 2033
6. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Vehicle Type
6.1. Introduction / Key Findings
6.2. Historical Market Size Value (US$ Million) & Volume (Units) Analysis By Vehicle Type, 2018 to 2022
6.3. Current and Future Market Size Value (US$ Million) & Volume (Units) Analysis and Forecast By Vehicle Type, 2023 to 2033
6.3.1. Passenger Vehicles
6.3.2. Light Commercial Vehicles
6.3.3. Heavy Commercial Vehicles
6.4. Y-o-Y Growth Trend Analysis By Vehicle Type, 2018 to 2022
6.5. Absolute $ Opportunity Analysis By Vehicle Type, 2023 to 2033
7. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Application
7.1. Introduction / Key Findings
7.2. Historical Market Size Value (US$ Million) & Volume (Units) Analysis By Application, 2018 to 2022
7.3. Current and Future Market Size Value (US$ Million) & Volume (Units) Analysis and Forecast By Application, 2023 to 2033
7.3.1. Safety
7.3.2. Telematics & Infotainment
7.3.3. Power Trains
7.3.4. Chassis
7.3.5. Others
7.4. Y-o-Y Growth Trend Analysis By Application, 2018 to 2022
7.5. Absolute $ Opportunity Analysis By Application, 2023 to 2033
8. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Region
8.1. Introduction
8.2. Historical Market Size Value (US$ Million) & Volume (Units) Analysis By Region, 2018 to 2022
8.3. Current Market Size Value (US$ Million) & Volume (Units) Analysis and Forecast By Region, 2023 to 2033
8.3.1. North America
8.3.2. Latin America
8.3.3. Europe
8.3.4. Asia Pacific
8.3.5. MEA
8.4. Market Attractiveness Analysis By Region
9. North America Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Country
9.1. Historical Market Size Value (US$ Million) & Volume (Units) Trend Analysis By Market Taxonomy, 2018 to 2022
9.2. Market Size Value (US$ Million) & Volume (Units) Forecast By Market Taxonomy, 2023 to 2033
9.2.1. By Country
9.2.1.1. The USA
9.2.1.2. Canada
9.2.2. By Component
9.2.3. By Vehicle Type
9.2.4. By Application
9.3. Market Attractiveness Analysis
9.3.1. By Country
9.3.2. By Component
9.3.3. By Vehicle Type
9.3.4. By Application
9.4. Key Takeaways
10. Latin America Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Country
10.1. Historical Market Size Value (US$ Million) & Volume (Units) Trend Analysis By Market Taxonomy, 2018 to 2022
10.2. Market Size Value (US$ Million) & Volume (Units) Forecast By Market Taxonomy, 2023 to 2033
10.2.1. By Country
10.2.1.1. Brazil
10.2.1.2. Mexico
10.2.1.3. Rest of Latin America
10.2.2. By Component
10.2.3. By Vehicle Type
10.2.4. By Application
10.3. Market Attractiveness Analysis
10.3.1. By Country
10.3.2. By Component
10.3.3. By Vehicle Type
10.3.4. By Application
10.4. Key Takeaways
11. Europe Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Country
11.1. Historical Market Size Value (US$ Million) & Volume (Units) Trend Analysis By Market Taxonomy, 2018 to 2022
11.2. Market Size Value (US$ Million) & Volume (Units) Forecast By Market Taxonomy, 2023 to 2033
11.2.1. By Country
11.2.1.1. Germany
11.2.1.2. United Kingdom
11.2.1.3. France
11.2.1.4. Spain
11.2.1.5. Italy
11.2.1.6. Rest of Europe
11.2.2. By Component
11.2.3. By Vehicle Type
11.2.4. By Application
11.3. Market Attractiveness Analysis
11.3.1. By Country
11.3.2. By Component
11.3.3. By Vehicle Type
11.3.4. By Application
11.4. Key Takeaways
12. Asia Pacific Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Country
12.1. Historical Market Size Value (US$ Million) & Volume (Units) Trend Analysis By Market Taxonomy, 2018 to 2022
12.2. Market Size Value (US$ Million) & Volume (Units) Forecast By Market Taxonomy, 2023 to 2033
12.2.1. By Country
12.2.1.1. China
12.2.1.2. Japan
12.2.1.3. South Korea
12.2.1.4. Singapore
12.2.1.5. Thailand
12.2.1.6. Indonesia
12.2.1.7. Australia
12.2.1.8. New Zealand
12.2.1.9. Rest of Asia Pacific
12.2.2. By Component
12.2.3. By Vehicle Type
12.2.4. By Application
12.3. Market Attractiveness Analysis
12.3.1. By Country
12.3.2. By Component
12.3.3. By Vehicle Type
12.3.4. By Application
12.4. Key Takeaways
13. MEA Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Country
13.1. Historical Market Size Value (US$ Million) & Volume (Units) Trend Analysis By Market Taxonomy, 2018 to 2022
13.2. Market Size Value (US$ Million) & Volume (Units) Forecast By Market Taxonomy, 2023 to 2033
13.2.1. By Country
13.2.1.1. GCC Countries
13.2.1.2. South Africa
13.2.1.3. Israel
13.2.1.4. Rest of MEA
13.2.2. By Component
13.2.3. By Vehicle Type
13.2.4. By Application
13.3. Market Attractiveness Analysis
13.3.1. By Country
13.3.2. By Component
13.3.3. By Vehicle Type
13.3.4. By Application
13.4. Key Takeaways
14. Key Countries Market Analysis
14.1. USA
14.1.1. Pricing Analysis
14.1.2. Market Share Analysis, 2022
14.1.2.1. By Component
14.1.2.2. By Vehicle Type
14.1.2.3. By Application
14.2. Canada
14.2.1. Pricing Analysis
14.2.2. Market Share Analysis, 2022
14.2.2.1. By Component
14.2.2.2. By Vehicle Type
14.2.2.3. By Application
14.3. Brazil
14.3.1. Pricing Analysis
14.3.2. Market Share Analysis, 2022
14.3.2.1. By Component
14.3.2.2. By Vehicle Type
14.3.2.3. By Application
14.4. Mexico
14.4.1. Pricing Analysis
14.4.2. Market Share Analysis, 2022
14.4.2.1. By Component
14.4.2.2. By Vehicle Type
14.4.2.3. By Application
14.5. Germany
14.5.1. Pricing Analysis
14.5.2. Market Share Analysis, 2022
14.5.2.1. By Component
14.5.2.2. By Vehicle Type
14.5.2.3. By Application
14.6. United Kingdom
14.6.1. Pricing Analysis
14.6.2. Market Share Analysis, 2022
14.6.2.1. By Component
14.6.2.2. By Vehicle Type
14.6.2.3. By Application
14.7. France
14.7.1. Pricing Analysis
14.7.2. Market Share Analysis, 2022
14.7.2.1. By Component
14.7.2.2. By Vehicle Type
14.7.2.3. By Application
14.8. Spain
14.8.1. Pricing Analysis
14.8.2. Market Share Analysis, 2022
14.8.2.1. By Component
14.8.2.2. By Vehicle Type
14.8.2.3. By Application
14.9. Italy
14.9.1. Pricing Analysis
14.9.2. Market Share Analysis, 2022
14.9.2.1. By Component
14.9.2.2. By Vehicle Type
14.9.2.3. By Application
14.10. China
14.10.1. Pricing Analysis
14.10.2. Market Share Analysis, 2022
14.10.2.1. By Component
14.10.2.2. By Vehicle Type
14.10.2.3. By Application
14.11. Japan
14.11.1. Pricing Analysis
14.11.2. Market Share Analysis, 2022
14.11.2.1. By Component
14.11.2.2. By Vehicle Type
14.11.2.3. By Application
14.12. South Korea
14.12.1. Pricing Analysis
14.12.2. Market Share Analysis, 2022
14.12.2.1. By Component
14.12.2.2. By Vehicle Type
14.12.2.3. By Application
14.13. Singapore
14.13.1. Pricing Analysis
14.13.2. Market Share Analysis, 2022
14.13.2.1. By Component
14.13.2.2. By Vehicle Type
14.13.2.3. By Application
14.14. Thailand
14.14.1. Pricing Analysis
14.14.2. Market Share Analysis, 2022
14.14.2.1. By Component
14.14.2.2. By Vehicle Type
14.14.2.3. By Application
14.15. Indonesia
14.15.1. Pricing Analysis
14.15.2. Market Share Analysis, 2022
14.15.2.1. By Component
14.15.2.2. By Vehicle Type
14.15.2.3. By Application
14.16. Australia
14.16.1. Pricing Analysis
14.16.2. Market Share Analysis, 2022
14.16.2.1. By Component
14.16.2.2. By Vehicle Type
14.16.2.3. By Application
14.17. New Zealand
14.17.1. Pricing Analysis
14.17.2. Market Share Analysis, 2022
14.17.2.1. By Component
14.17.2.2. By Vehicle Type
14.17.2.3. By Application
14.18. GCC Countries
14.18.1. Pricing Analysis
14.18.2. Market Share Analysis, 2022
14.18.2.1. By Component
14.18.2.2. By Vehicle Type
14.18.2.3. By Application
14.19. South Africa
14.19.1. Pricing Analysis
14.19.2. Market Share Analysis, 2022
14.19.2.1. By Component
14.19.2.2. By Vehicle Type
14.19.2.3. By Application
14.20. Israel
14.20.1. Pricing Analysis
14.20.2. Market Share Analysis, 2022
14.20.2.1. By Component
14.20.2.2. By Vehicle Type
14.20.2.3. By Application
15. Market Structure Analysis
15.1. Competition Dashboard
15.2. Competition Benchmarking
15.3. Market Share Analysis of Top Players
15.3.1. By Regional
15.3.2. By Component
15.3.3. By Vehicle Type
15.3.4. By Application
16. Competition Analysis
16.1. Competition Deep Dive
16.1.1. Intel Corporation
16.1.1.1. Overview
16.1.1.2. Product Portfolio
16.1.1.3. Profitability by Market Segments
16.1.1.4. Sales Footprint
16.1.1.5. Strategy Overview
16.1.1.5.1. Marketing Strategy
16.1.1.5.2. Product Strategy
16.1.1.5.3. Channel Strategy
16.1.2. Samsung Semiconductors
16.1.2.1. Overview
16.1.2.2. Product Portfolio
16.1.2.3. Profitability by Market Segments
16.1.2.4. Sales Footprint
16.1.2.5. Strategy Overview
16.1.2.5.1. Marketing Strategy
16.1.2.5.2. Product Strategy
16.1.2.5.3. Channel Strategy
16.1.3. NXP Semiconductors
16.1.3.1. Overview
16.1.3.2. Product Portfolio
16.1.3.3. Profitability by Market Segments
16.1.3.4. Sales Footprint
16.1.3.5. Strategy Overview
16.1.3.5.1. Marketing Strategy
16.1.3.5.2. Product Strategy
16.1.3.5.3. Channel Strategy
16.1.4. NVIDIA Corporation
16.1.4.1. Overview
16.1.4.2. Product Portfolio
16.1.4.3. Profitability by Market Segments
16.1.4.4. Sales Footprint
16.1.4.5. Strategy Overview
16.1.4.5.1. Marketing Strategy
16.1.4.5.2. Product Strategy
16.1.4.5.3. Channel Strategy
16.1.5. Broadcom Inc.
16.1.5.1. Overview
16.1.5.2. Product Portfolio
16.1.5.3. Profitability by Market Segments
16.1.5.4. Sales Footprint
16.1.5.5. Strategy Overview
16.1.5.5.1. Marketing Strategy
16.1.5.5.2. Product Strategy
16.1.5.5.3. Channel Strategy
16.1.6. Texas Instruments Inc.
16.1.6.1. Overview
16.1.6.2. Product Portfolio
16.1.6.3. Profitability by Market Segments
16.1.6.4. Sales Footprint
16.1.6.5. Strategy Overview
16.1.6.5.1. Marketing Strategy
16.1.6.5.2. Product Strategy
16.1.6.5.3. Channel Strategy
16.1.7. Taiwan Semiconductor Manufacturing Co. Ltd.
16.1.7.1. Overview
16.1.7.2. Product Portfolio
16.1.7.3. Profitability by Market Segments
16.1.7.4. Sales Footprint
16.1.7.5. Strategy Overview
16.1.7.5.1. Marketing Strategy
16.1.7.5.2. Product Strategy
16.1.7.5.3. Channel Strategy
16.1.8. Qualcomm Inc.
16.1.8.1. Overview
16.1.8.2. Product Portfolio
16.1.8.3. Profitability by Market Segments
16.1.8.4. Sales Footprint
16.1.8.5. Strategy Overview
16.1.8.5.1. Marketing Strategy
16.1.8.5.2. Product Strategy
16.1.8.5.3. Channel Strategy
16.1.9. Micron Technology Inc.
16.1.9.1. Overview
16.1.9.2. Product Portfolio
16.1.9.3. Profitability by Market Segments
16.1.9.4. Sales Footprint
16.1.9.5. Strategy Overview
16.1.9.5.1. Marketing Strategy
16.1.9.5.2. Product Strategy
16.1.9.5.3. Channel Strategy
16.1.10. ASE Technology Holding Co. Ltd.
16.1.10.1. Overview
16.1.10.2. Product Portfolio
16.1.10.3. Profitability by Market Segments
16.1.10.4. Sales Footprint
16.1.10.5. Strategy Overview
16.1.10.5.1. Marketing Strategy
16.1.10.5.2. Product Strategy
16.1.10.5.3. Channel Strategy
17. Assumptions & Acronyms Used
18. Research Methodology
Technology
November 2022
REP-GB-271
250 pages
Explore Technology Insights
View Reports
Automotive Semiconductor Market
