Global Autonomous Vehicle Processor Market Research Report: Forecast (2021-2026)
Global Autonomous Vehicle Processor Market Research Report: Forecast (2021-2026)
Abstract
An Autonomous vehicle is capable of sensing its environment and allows movement of vehicle with least or no human involvement. It uses processors for its working. Therefore, the higher the level of autonomy, the better is the processor working for the autonomous vehicle.
Market Opportunities
According to MarkNtel Advisors’ research report “Global Autonomous Vehicle Processor Market Analysis, 2021”, the market is anticipated to grow at a CAGR of 21% during 2021-26F. The growth of the global Autonomous vehicle processor market is attributed to the high demand for new and innovative autonomous processors to enhance the transportation sector and increasing government support for the development of autonomous. However, the high cost associated with autonomous vehicles and their processor is the biggest challenge leading to hinder the growth of the market.
Market Segmentation
Increasing Trend of Level 4 Autonomous Vehicle Processor
Based on application, the Level 4 autonomous vehicle segment is anticipated to grow at the fastest rate during the forecasted period. The growth is attributed to the unique feature of Level 4 autonomous vehicle which enables the movement of the vehicle without requiring a human driver. This is to help blind and disable people to become independent and have access to essential services. Besides this, all the technological developments in the country, the Global Autonomous Vehicle Processor Market is expected to grow in the period of 2021-2026 as revealed by the MarkNtel Advisors’ research report “Global Autonomous Vehicle Processor Market Analysis, 2021”.
Impact of COVID-19
The outbreak of the coronavirus pandemic has negatively impacted the global autonomous vehicle processor market due to lockdown imposition and government policies to temporarily shut down the manufacturing units leading to disruption in supply chain and production capacity. However, post-outbreak of COVID-19, there is a rise in inclination towards usage of online platforms is expected to witness which would further lead to an increase in the sales of the autonomous vehicle. Also, as the market resumes, the global autonomous vehicle processor market is going to observepositive growth steadily in the forthcoming timeline.
Competitive Landscape
According to MarkNtel Advisors’, the key players with a considerable market share in the Global Autonomous Vehicle Processor market include NXP Semiconductors N.V., Intel Corporation, Tesla, Inc., BASF SE, NVIDIA Corporation, Texas Instruments Incorporated, KALRAY Corporation, Renesas Electronic Corporation, Qualcomm Technologies, Inc, Xilinx, Inc., Hailo Technologies Ltd, Ambarella, Inc., AImotive, Others.
Key Questions Answered in the Market Research Report:
1. What are the key overall market statistics or market estimates (Market Overview, Market Size- By Value, Forecast Numbers, Market Segmentation, Market Shares) of Global Autonomous Vehicle Processor Market?
2. What is the region-wise industry size, growth drivers and challenges key market trends?
3. What are the key innovations, opportunities, current and future trends and regulations in the Global Autonomous Vehicle Processor Market?
4. Who are the key competitors, what are their key strength and weakness and how they perform in Global Autonomous Vehicle Processor Market based on the competitive benchmarking matrix?
5. What are the key results derived from the market surveys conducted during the course of Global Autonomous Vehicle Processor Market study?
Market Outlook, Segmentation and Statistics
1) Impact of COVID-19 on Global Autonomous Vehicle Processor Market
a) Market Size & Forecast
i) By Revenues (USD Million)
ii) By Volume
b) Market Share & Forecast
c) By Product
i) Passenger Vehicles
ii) Commercial Vehicles
d) By Application
i) Level 2 Autonomous Vehicle
ii) Level 3 Autonomous Vehicle
iii) Level 4 Autonomous Vehicle
iv) Level 5 Autonomous Vehicle
e) By Region
i) North America
ii) Europe
iii) Asia-Pacific
iv) South America
v) Middle East & Africa
f) By Company
i) Revenue Shares
ii) Strategic Factorial Indexing
iii) Competitor Placement in MarkNtel Quadrant
g) Global Autonomous Vehicle Processor Market, 2016-2026F (USD Million)
h) Global Autonomous Vehicle Processor Market Policies, Regulations by Country, Standards
i) Global Autonomous Vehicle Processor Market Trends
j) Global Autonomous Vehicle Processor Market Drivers, Challenges, Opportunities, Success Factors
2) Global Competition Outlook
a) Competition Matrix
b) Company Profile
Frequently Asked Questions:
Q. What is the historical year, base year and forecast year considered in the research report on Global Autonomous Vehicle Processor Market?
A. The historical data has been provided since 2016, while the base year is 2020 and the data is forecast up-to 2026.
Q. What are the units or denomination for measuring market value and volume in the report?
A. The market size/industry size or the market value is measured in terms of USD Million and thousand units.
Q. What would be the growth rate or CAGR of Global Autonomous Vehicle Processor Market during 2021-26?
A. The Global Autonomous Vehicle Processor Market is projected to grow at a CAGR of 21% during 2021-26.
Q. Who are the key competitors or players operating in Global Autonomous Vehicle Processor Market?
A. NXP Semiconductors N.V., Intel Corporation, Tesla, Inc., BASF SE, NVIDIA Corporation, Texas Instruments Incorporated, KALRAY Corporation, Renesas Electronic Corporation, Qualcomm Technologies, Inc, Xilinx, Inc., Hailo Technologies Ltd, Ambarella, Inc., AImotive, Othersare few of the leading players in the Global Autonomous Vehicle Processor Market.
Q. Which types segment would emerge as an opportunity area for players in Global Autonomous Vehicle Processor Market?
A. Level 4 Autonomous Vehicle is expected to attain the highest CAGR during the forecast period and maintain its significant market share.
Q. Which region would emerge as an opportunity area for players in Global Autonomous Vehicle Processor Market?
A. North America continue to grow at a highest CAGR, presenting immense opportunities for market players of Global Autonomous Vehicle Processor Market.
Content
1. Introduction
1.1. Product Definition
1.2. Research Process
1.3. Assumptions
1.4. Market Segmentation
2. Executive Summary
3. Experts Verbatim-What our experts say?
4. Global Autonomous Vehicle Processor Market Voice of Customer
4.1. Brand Awareness
4.2. Application Expectations
4.3. Key Factors Impacting Vendor Selection
4.4. Key Issues Encountered
4.5. Vendor’s Receptiveness to Address Key Customer Issues
4.6. Future Requirements
5. Global Autonomous Vehicle Processor Market Analysis, 2016- 2026F
5.1. Market Size & Analysis
5.1.1. Market Revenue
5.1.2. Quantity Sold
5.2. Market Share & Analysis
5.2.1. By Product
5.2.1.1. Passenger Vehicles
5.2.1.2. Commercial Vehicles
5.2.2. By Application
5.2.2.1. Level 2 Autonomous Vehicle
5.2.2.2. Level 3 Autonomous Vehicle
5.2.2.3. Level 4 Autonomous Vehicle
5.2.2.4. Level 5 Autonomous Vehicle
5.2.3. By Region
5.2.3.1. North America
5.2.3.2. Europe
5.2.3.3. Asia-Pacific
5.2.3.4. South America
5.2.3.5. Middle East & Africa
5.2.4. By Company
5.2.4.1. Revenue Shares
5.2.4.2. Strategic Factorial Indexing
5.2.4.3. Competitor Placement in MarkNtel Quadrant
6. North America Autonomous Vehicle Processor Market Analysis, 2016- 2026F
6.1. Market Size & Analysis
6.1.1. Quantity Sold
6.1.2. Market Revenue
6.2. Market Share & Analysis
6.2.1. By Product
6.2.2. By Application
6.2.3. By Country
6.2.3.1. USA
6.2.3.2. Canada
6.2.3.3. Others
7. South America Autonomous Vehicle Processor Market Analysis, 2016- 2026F
7.1. Market Size & Analysis
7.1.1. Quantity Sold
7.1.2. Market Revenue
7.2. Market Share & Analysis
7.2.1. By Product
7.2.2. By Application
7.2.3. By Country
7.2.3.1. Brazil
7.2.3.2. Others
8. Europe Autonomous Vehicle Processor Market Analysis, 2016- 2026F
8.1. Market Size & Analysis
8.1.1. Quantity Sold
8.1.2. Market Revenue
8.2. Market Share & Analysis
8.2.1. By Product
8.2.2. By Application
8.2.3. By Country
8.2.3.1. France
8.2.3.2. The UK
8.2.3.3. The Netherlands
8.2.3.4. Germany
9. Asia-Pacific Autonomous Vehicle Processor Market Analysis, 2016- 2026F
9.1. Market Size & Analysis
9.1.1. Quantity Sold
9.1.2. Market Revenue
9.2. Market Share & Analysis
9.2.1. By Product
9.2.2. By Application
9.2.3. By Country
9.2.3.1. China
9.2.3.2. Japan
9.2.3.3. India
10. Middle East and Africa Autonomous Vehicle Processor Market Analysis, 2016- 2026F
10.1. Market Size & Analysis
10.1.1. Quantity Sold
10.1.2. Market Revenue
10.2. Market Share & Analysis
10.2.1. By Product
10.2.2. By Application
10.2.3. By Country
10.2.3.1. South Africa
11. Global Autonomous Vehicle Processor Market Policies, Regulations, Product Standards
12. Global Autonomous Vehicle Processor Market Trends & Insights
13. Global Autonomous Vehicle Processor Market Dynamics
13.1. Growth Drivers
13.2. Challenges
13.3. Impact Analysis
14. Global Autonomous Vehicle Processor Market Hotspot & Opportunities
15. Global Autonomous Vehicle Processor Market Key Strategic Imperatives for Success & Growth
16. Global Competition Outlook
16.1. Competition Matrix
16.1.1. Target Markets
16.1.2. Research & Development
16.1.3. Collaborations & Strategic Alliances
16.1.4. Key Business Expansion Initiatives
16.1.5. Business Restructuring- Mergers, Acquisitions, JVs
16.1.6. Strategic Initiatives
16.2. Company Profiles (Business Description, Product Segments, Business Segments, Financials, Strategic Alliances/ Partnerships, Future Plans)
16.2.1. NXP Semiconductors N.V.
16.2.2. Intel Corporation
16.2.3. Tesla, Inc.
16.2.4. BASF SE
16.2.5. NVIDIA Corporation
16.2.6. Texas Instruments Incorporated
16.2.7. KALRAY Corporation
16.2.8. Renesas Electronic Corporation
16.2.9. Qualcomm Technologies, Inc
16.2.10. Xilinx, Inc.
16.2.11. Hailo Technologies Ltd
16.2.12. Ambarella, Inc.
16.2.13. AImotive
16.2.14. Others
17. Disclaimer
Market Opportunities
According to MarkNtel Advisors’ research report “Global Autonomous Vehicle Processor Market Analysis, 2021”, the market is anticipated to grow at a CAGR of 21% during 2021-26F. The growth of the global Autonomous vehicle processor market is attributed to the high demand for new and innovative autonomous processors to enhance the transportation sector and increasing government support for the development of autonomous. However, the high cost associated with autonomous vehicles and their processor is the biggest challenge leading to hinder the growth of the market.
Market Segmentation
Increasing Trend of Level 4 Autonomous Vehicle Processor
Based on application, the Level 4 autonomous vehicle segment is anticipated to grow at the fastest rate during the forecasted period. The growth is attributed to the unique feature of Level 4 autonomous vehicle which enables the movement of the vehicle without requiring a human driver. This is to help blind and disable people to become independent and have access to essential services. Besides this, all the technological developments in the country, the Global Autonomous Vehicle Processor Market is expected to grow in the period of 2021-2026 as revealed by the MarkNtel Advisors’ research report “Global Autonomous Vehicle Processor Market Analysis, 2021”.
Impact of COVID-19
The outbreak of the coronavirus pandemic has negatively impacted the global autonomous vehicle processor market due to lockdown imposition and government policies to temporarily shut down the manufacturing units leading to disruption in supply chain and production capacity. However, post-outbreak of COVID-19, there is a rise in inclination towards usage of online platforms is expected to witness which would further lead to an increase in the sales of the autonomous vehicle. Also, as the market resumes, the global autonomous vehicle processor market is going to observepositive growth steadily in the forthcoming timeline.
Competitive Landscape
According to MarkNtel Advisors’, the key players with a considerable market share in the Global Autonomous Vehicle Processor market include NXP Semiconductors N.V., Intel Corporation, Tesla, Inc., BASF SE, NVIDIA Corporation, Texas Instruments Incorporated, KALRAY Corporation, Renesas Electronic Corporation, Qualcomm Technologies, Inc, Xilinx, Inc., Hailo Technologies Ltd, Ambarella, Inc., AImotive, Others.
Key Questions Answered in the Market Research Report:
1. What are the key overall market statistics or market estimates (Market Overview, Market Size- By Value, Forecast Numbers, Market Segmentation, Market Shares) of Global Autonomous Vehicle Processor Market?
2. What is the region-wise industry size, growth drivers and challenges key market trends?
3. What are the key innovations, opportunities, current and future trends and regulations in the Global Autonomous Vehicle Processor Market?
4. Who are the key competitors, what are their key strength and weakness and how they perform in Global Autonomous Vehicle Processor Market based on the competitive benchmarking matrix?
5. What are the key results derived from the market surveys conducted during the course of Global Autonomous Vehicle Processor Market study?
Market Outlook, Segmentation and Statistics
1) Impact of COVID-19 on Global Autonomous Vehicle Processor Market
a) Market Size & Forecast
i) By Revenues (USD Million)
ii) By Volume
b) Market Share & Forecast
c) By Product
i) Passenger Vehicles
ii) Commercial Vehicles
d) By Application
i) Level 2 Autonomous Vehicle
ii) Level 3 Autonomous Vehicle
iii) Level 4 Autonomous Vehicle
iv) Level 5 Autonomous Vehicle
e) By Region
i) North America
ii) Europe
iii) Asia-Pacific
iv) South America
v) Middle East & Africa
f) By Company
i) Revenue Shares
ii) Strategic Factorial Indexing
iii) Competitor Placement in MarkNtel Quadrant
g) Global Autonomous Vehicle Processor Market, 2016-2026F (USD Million)
h) Global Autonomous Vehicle Processor Market Policies, Regulations by Country, Standards
i) Global Autonomous Vehicle Processor Market Trends
j) Global Autonomous Vehicle Processor Market Drivers, Challenges, Opportunities, Success Factors
2) Global Competition Outlook
a) Competition Matrix
b) Company Profile
Frequently Asked Questions:
Q. What is the historical year, base year and forecast year considered in the research report on Global Autonomous Vehicle Processor Market?
A. The historical data has been provided since 2016, while the base year is 2020 and the data is forecast up-to 2026.
Q. What are the units or denomination for measuring market value and volume in the report?
A. The market size/industry size or the market value is measured in terms of USD Million and thousand units.
Q. What would be the growth rate or CAGR of Global Autonomous Vehicle Processor Market during 2021-26?
A. The Global Autonomous Vehicle Processor Market is projected to grow at a CAGR of 21% during 2021-26.
Q. Who are the key competitors or players operating in Global Autonomous Vehicle Processor Market?
A. NXP Semiconductors N.V., Intel Corporation, Tesla, Inc., BASF SE, NVIDIA Corporation, Texas Instruments Incorporated, KALRAY Corporation, Renesas Electronic Corporation, Qualcomm Technologies, Inc, Xilinx, Inc., Hailo Technologies Ltd, Ambarella, Inc., AImotive, Othersare few of the leading players in the Global Autonomous Vehicle Processor Market.
Q. Which types segment would emerge as an opportunity area for players in Global Autonomous Vehicle Processor Market?
A. Level 4 Autonomous Vehicle is expected to attain the highest CAGR during the forecast period and maintain its significant market share.
Q. Which region would emerge as an opportunity area for players in Global Autonomous Vehicle Processor Market?
A. North America continue to grow at a highest CAGR, presenting immense opportunities for market players of Global Autonomous Vehicle Processor Market.
1.1. Product Definition
1.2. Research Process
1.3. Assumptions
1.4. Market Segmentation
2. Executive Summary
3. Experts Verbatim-What our experts say?
4. Global Autonomous Vehicle Processor Market Voice of Customer
4.1. Brand Awareness
4.2. Application Expectations
4.3. Key Factors Impacting Vendor Selection
4.4. Key Issues Encountered
4.5. Vendor’s Receptiveness to Address Key Customer Issues
4.6. Future Requirements
5. Global Autonomous Vehicle Processor Market Analysis, 2016- 2026F
5.1. Market Size & Analysis
5.1.1. Market Revenue
5.1.2. Quantity Sold
5.2. Market Share & Analysis
5.2.1. By Product
5.2.1.1. Passenger Vehicles
5.2.1.2. Commercial Vehicles
5.2.2. By Application
5.2.2.1. Level 2 Autonomous Vehicle
5.2.2.2. Level 3 Autonomous Vehicle
5.2.2.3. Level 4 Autonomous Vehicle
5.2.2.4. Level 5 Autonomous Vehicle
5.2.3. By Region
5.2.3.1. North America
5.2.3.2. Europe
5.2.3.3. Asia-Pacific
5.2.3.4. South America
5.2.3.5. Middle East & Africa
5.2.4. By Company
5.2.4.1. Revenue Shares
5.2.4.2. Strategic Factorial Indexing
5.2.4.3. Competitor Placement in MarkNtel Quadrant
6. North America Autonomous Vehicle Processor Market Analysis, 2016- 2026F
6.1. Market Size & Analysis
6.1.1. Quantity Sold
6.1.2. Market Revenue
6.2. Market Share & Analysis
6.2.1. By Product
6.2.2. By Application
6.2.3. By Country
6.2.3.1. USA
6.2.3.2. Canada
6.2.3.3. Others
7. South America Autonomous Vehicle Processor Market Analysis, 2016- 2026F
7.1. Market Size & Analysis
7.1.1. Quantity Sold
7.1.2. Market Revenue
7.2. Market Share & Analysis
7.2.1. By Product
7.2.2. By Application
7.2.3. By Country
7.2.3.1. Brazil
7.2.3.2. Others
8. Europe Autonomous Vehicle Processor Market Analysis, 2016- 2026F
8.1. Market Size & Analysis
8.1.1. Quantity Sold
8.1.2. Market Revenue
8.2. Market Share & Analysis
8.2.1. By Product
8.2.2. By Application
8.2.3. By Country
8.2.3.1. France
8.2.3.2. The UK
8.2.3.3. The Netherlands
8.2.3.4. Germany
9. Asia-Pacific Autonomous Vehicle Processor Market Analysis, 2016- 2026F
9.1. Market Size & Analysis
9.1.1. Quantity Sold
9.1.2. Market Revenue
9.2. Market Share & Analysis
9.2.1. By Product
9.2.2. By Application
9.2.3. By Country
9.2.3.1. China
9.2.3.2. Japan
9.2.3.3. India
10. Middle East and Africa Autonomous Vehicle Processor Market Analysis, 2016- 2026F
10.1. Market Size & Analysis
10.1.1. Quantity Sold
10.1.2. Market Revenue
10.2. Market Share & Analysis
10.2.1. By Product
10.2.2. By Application
10.2.3. By Country
10.2.3.1. South Africa
11. Global Autonomous Vehicle Processor Market Policies, Regulations, Product Standards
12. Global Autonomous Vehicle Processor Market Trends & Insights
13. Global Autonomous Vehicle Processor Market Dynamics
13.1. Growth Drivers
13.2. Challenges
13.3. Impact Analysis
14. Global Autonomous Vehicle Processor Market Hotspot & Opportunities
15. Global Autonomous Vehicle Processor Market Key Strategic Imperatives for Success & Growth
16. Global Competition Outlook
16.1. Competition Matrix
16.1.1. Target Markets
16.1.2. Research & Development
16.1.3. Collaborations & Strategic Alliances
16.1.4. Key Business Expansion Initiatives
16.1.5. Business Restructuring- Mergers, Acquisitions, JVs
16.1.6. Strategic Initiatives
16.2. Company Profiles (Business Description, Product Segments, Business Segments, Financials, Strategic Alliances/ Partnerships, Future Plans)
16.2.1. NXP Semiconductors N.V.
16.2.2. Intel Corporation
16.2.3. Tesla, Inc.
16.2.4. BASF SE
16.2.5. NVIDIA Corporation
16.2.6. Texas Instruments Incorporated
16.2.7. KALRAY Corporation
16.2.8. Renesas Electronic Corporation
16.2.9. Qualcomm Technologies, Inc
16.2.10. Xilinx, Inc.
16.2.11. Hailo Technologies Ltd
16.2.12. Ambarella, Inc.
16.2.13. AImotive
16.2.14. Others
17. Disclaimer
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