On-Board High Performance Computing System Market - Forecast(2021 - 2026)

Report Code: ESR 0580 Report Format: PDF + Excel (Delivery in 48 Hrs)
Overview
The Global Onboard High Performance Computing Market is estimated to reach $5.23 billion by 2025, growing at a CAGR of 9.85% from 2020 to 2025. On board high performance computing consists of integrated multiple computing units like CPUs, GPUs, desktop computers and other devices in which software can use the entire resources acting as one into a single platform. The on board high performance computing is required to facilitate timely execution. As problems cannot be solved in a regular desktop computer with high accuracy hence it raises the need for procurement of on-board high performance computing tools. The advances in management software, upsurge in new cloud service offerings, rise in growth of new technologies like AI and machine learning among others have driven the growth of the market.

Report Coverage
The report: “On board High Performance Computing Market – Forecast (2020-2025)”, by Industry ARC covers an in-depth analysis of the following segments of On board High Performance Computing Market.

By Vehicle - Passenger Vehicles, Light Commercial Vehicles, HCV, OHV, Aerial Vehicles, others.
By Offering - Hardware, Software.
By Applications  - Precision Agriculture, Military, Civilian, Search and Rescue, Onboard data analysis, navigation, space avionics, Unmanned Aerial Vehicles, Embedded robotic systems, Others.
By End Users - Defense, Retail, BFSI, Transportation, Manufacturing, Earth Sciences, Gaming, Energy and Utilities, Education & Research, Aerospace, Others.
By Geography  - North America (U.S, Canada, Mexico), South America(Brazil, Argentina and others), Europe(Germany, UK, France, Italy, Spain, Russia and Others), APAC(China, Japan India, SK, Aus and Others), and RoW (Middle east and Africa)

Key Takeaways
  • Rise in growth of machine leaning, AI, multi robot aerial systems, Unmanned Aerial systems are driving the growth of the market owing to demand for efficiency, high performance and accuracy of these devices.
  • The multi aerial systems are dominating the market owing to use in multipurpose applications due to its efficiency.
  • North America dominated the market in 2019 owing the rise in industrial sectors along with rise in research and development in aerospace sector. The wide use of UAVs have also resulted in the growth of the market in this region.

By Offering- Segment Analysis 
By Offering Onboard High Performance Computing Market is segmented as Hardware and Software. The Software segment is witnessing a significant growth in the market owing to the growth of on-board embedded computers and cloud robotics. A single robot with several processing units can be made to work locally as single robotic system through the implementation of on board high performance computing. Furthermore, through the use of this technology computational performance of the robot can be enhanced.

By Applications - Segment Analysis
By Application the market is segmented into Precision Agriculture, Military, Civilian, Search and Rescue, Onboard data analysis, navigation, Unmanned Aerial Vehicles, Others. The Multi robot Aerial Systems is witnessing a significant growth in the market owing to the technological advancements of multi robot aerial systems like the heterogeneous multi robot system for multiple aerial ground manipulator systems. Furthermore, the advancements in low energy consumption multi core computer embedded devices have also resulted in the requirement of this technology thereby driving the growth of multi robot aerial systems. The requirement for speeding up on-board computation for multi-board system to provide robustness, scalability, user transparency and others have resulted in large scale deployment of this technology in multi robot aerial systems thereby driving the growth of the market.

By Geography - Segment Analysis
The Global Onboard High Performance Computing Market is dominated by North America by a market share of 43.6% in 2019.In North America the growth of industrial sector has projected the demand for Onboard High Performance Computing. Furthermore, the adoption of UAVs in military applications, commercial applications and others are also witnessing the growth of Onboard High Performance Computing in North America. The unmanned aerial vehicles are widely used in military applications. In order to maximize efficiency the Onboard High Performance Computing approaches and technologies are used for distributed onboard computing in the missions carried out with unmanned aerial systems. These factors are driving the growth of the market in this region.

Drivers – Onboard High Performance Computing
  • Rise in the growth of unmanned aerial systems due to its use in various applications:
One of the driving factor for upsurge of Onboard High Performance Computing is the wide use of drones for several applications like mapping, inspection, navigation and others. Recently, in Covid-19 outbreak the unmanned aerial systems have proven to be best in use throughout the sanitizing process. For healthcare and social assistance during the COVID-19 outbreak the drones are used for medicinal deliveries. The UAS are used for variety of applications like inspection, mapping, surveillance, aerial videos and many other applications. These factors are making them more prominent in the commercial, industrial and military sectors. Furthermore, the UAVs are widely used in agricultural applications for crop health monitoring, agricultural equipment monitoring, irrigation management and others. The presence of UAVs have resulted in the deployment of Onboard High Performance Computing as it increases the efficiency of these UAVs. Owing to the use of these Onboard High Performance Computing tools the UAVs are used in military applications due its speed and efficiency. These factors are driving the growth of the market.
  • Rise in new and advanced technologies:
The rise in technological advancements have resulted in the use of standard space qualified onboard computers owing to the rise in onboard data analysis, navigation tasks and other applications. This reduction in complexity has enabled the implementation of this technology. Owing to the use of this technology, parallel applications are used to pilot all the robots at once. The technological advancements have resulted in the time efficiency and task distribution simplification of these onboard high performance computing tools. This rise in technological advancements have driven the market growth.

Challenges – Onboard High Performance Computing Market.
  • High Energy Consumption and Maintenance:
Although the implementation of onboard high performance computing has many advantages there is a requirement of high power. The high energy consumption is one of the most prominent challenge hindering the growth of the market. Furthermore, the maintenance of energy expenditures are also high resulting in declined growth of the market.

Market Landscape
Onboard High Performance Computing is dominated by major companies such, Intel, NVIDIA Corporation, Texas Instruments, Raspberry PI Foundation, Qualcomm, Kindred Systems, EasyMile, iRobot Corporation, Univa, KONUX among others.
Acquisitions/Technology Launches
  • November 17, 2019- Intel launched one API model. This model provides scalable programming for HPC/AI Convergence.
  • April 15, 2019- Univa launched HPC cloud mitigation. HPC cloud mitigation provides high performance computing. 
1. On-Board High Performance Computing System Market - Overview
1.1. Definitions and Scope
2. On-Board High Performance Computing System Market - Executive summary
2.1. Market Revenue, Market Size and Key Trends by Company
2.2. Key Trends by type of Application
2.3. Key Trends segmented by Geography
3. On-Board High Performance Computing System Market 
3.1. Comparative analysis
3.1.1. Product Benchmarking - Top 10 companies
3.1.2. Top 5 Financials Analysis
3.1.3. Market Value split by Top 10 companies
3.1.4. Patent Analysis - Top 10 companies
3.1.5. Pricing Analysis 
4. On-Board High Performance Computing System Market – Startup companies Scenario Premium
4.1. Top 10 startup company Analysis by
4.1.1. Investment
4.1.2. Revenue
4.1.3. Market Shares
4.1.4. Market Size and Application Analysis
4.1.5. Venture Capital and Funding Scenario
5. On-Board High Performance Computing System Market – Industry Market Entry Scenario Premium
5.1. Regulatory Framework Overview
5.2. New Business and Ease of Doing business index
5.3. Case studies of successful ventures
5.4. Customer Analysis – Top 10 companies
6. On-Board High Performance Computing System Market Forces
6.1. Drivers
6.2. Constraints
6.3. Challenges
6.4. Porters five force model
6.4.1. Bargaining power of suppliers
6.4.2. Bargaining powers of customers
6.4.3. Threat of new entrants
6.4.4. Rivalry among existing players
6.4.5. Threat of substitutes 
7. On-Board High Performance Computing System Market -Strategic analysis
7.1. Value chain analysis
7.2. Opportunities analysis
7.3. Product life cycle
7.4. Suppliers and distributors Market Share
8. On-Board High Performance Computing System Market – By Offering Type (Market Size -$Million / $Billion)
8.1. Market Size and Market Share Analysis 
8.2. Application Revenue and Trend Research
8.3. Product Segment Analysis
8.3.1. Hardware
8.3.2. Software
9. On-Board High Performance Computing System Market – By Vehicle Category (Market Size -$Million / $Billion)
9.1. Passenger Vehicles
9.2. Light Commercial Vehicles
9.3. Others
10. On-Board High Performance Computing System Market – By Drive Type (Market Size -$Million / $Billion)
10.1. Pure Electric Vehicles
10.2. Hybrid Electric Vehicles
10.3. Conventional IC Engine Vehicles
11. On-Board High Performance Computing System – By End User(Market Size -$Million / $Billion)
11.1. Segment type Size and Market Share Analysis 
11.2. Application Revenue and Trends by type of Application
11.3. Application Segment Analysis by Type
11.3.1. Personal User
11.3.2. Commercial User
11.3.2.1. Passenger Transport
11.3.2.2. Goods Transport
11.3.2.3. Others
11.3.3. Industrial User
11.3.3.1. Farming Vehicles
11.3.3.2. Forklifts
11.3.3.3. thers
12. On-Board High Performance Computing System - By Geography (Market Size -$Million / $Billion)
12.1. On-Board High Performance Computing System Market - North America Segment Research
12.2. North America Market Research (Million / $Billion)
12.2.1. Segment type Size and Market Size Analysis 
12.2.2. Revenue and Trends
12.2.3. Application Revenue and Trends by type of Application
12.2.4. Company Revenue and Product Analysis
12.2.5. North America Product type and Application Market Size
12.2.5.1. U.S.
12.2.5.2. Canada 
12.2.5.3. Mexico 
12.2.5.4. Rest of North America
12.3. On-Board High Performance Computing System - South America Segment Research
12.4. South America Market Research (Market Size -$Million / $Billion)
12.4.1. Segment type Size and Market Size Analysis 
12.4.2. Revenue and Trends
12.4.3. Application Revenue and Trends by type of Application
12.4.4. Company Revenue and Product Analysis
12.4.5. South America Product type and Application Market Size
12.4.5.1. Brazil  
12.4.5.2. Venezuela
12.4.5.3. Argentina
12.4.5.4. Ecuador
12.4.5.5. Peru
12.4.5.6. Colombia 
12.4.5.7. Costa Rica
12.4.5.8. Rest of South America
12.5. On-Board High Performance Computing System - Europe Segment Research
12.6. Europe Market Research (Market Size -$Million / $Billion)
12.6.1. Segment type Size and Market Size Analysis 
12.6.2. Revenue and Trends
12.6.3. Application Revenue and Trends by type of Application
12.6.4. Company Revenue and Product Analysis
12.6.5. Europe Segment Product type and Application Market Size
12.6.5.1. U.K  
12.6.5.2. Germany 
12.6.5.3. Italy 
12.6.5.4. France
12.6.5.5. Netherlands
12.6.5.6. Belgium
12.6.5.7. Spain
12.6.5.8. Denmark
12.6.5.9. Rest of Europe
12.7. On-Board High Performance Computing System – APAC Segment Research
12.8. APAC Market Research (Market Size -$Million / $Billion)
12.8.1. Segment type Size and Market Size Analysis 
12.8.2. Revenue and Trends
12.8.3. Application Revenue and Trends by type of Application
12.8.4. Company Revenue and Product Analysis
12.8.5. APAC Segment – Product type and Application Market Size
12.8.5.1. China 
12.8.5.2. Australia
12.8.5.3. Japan 
12.8.5.4. South Korea
12.8.5.5. India
12.8.5.6. Taiwan
12.8.5.7. Malaysia
13. On-Board High Performance Computing System Market - Entropy
13.1. New product launches
13.2. M&A's, collaborations, JVs and partnerships
14. On-Board High Performance Computing System Market – Industry / Segment Competition landscape Premium
14.1. Market Share Analysis
14.1.1. Market Share by Country- Top companies
14.1.2. Market Share by Region- Top 10 companies
14.1.3. Market Share by type of Application – Top 10 companies
14.1.4. Market Share by type of Product / Product category- Top 10 companies
14.1.5. Market Share at global level- Top 10 companies
14.1.6. Best Practises for companies
15. On-Board High Performance Computing System Market – Key Company List by Country Premium
16. On-Board High Performance Computing System Market Company Analysis
16.1. Market Share, Company Revenue, Products, M&A, Developments
16.2. Company 1
16.3. Company 2
16.4. Company 3
16.5. Company 4
16.6. Company 5
16.7. Company 6
16.8. Company 7
16.9. Company 8
16.10. Company 9
16.11. Company 10 & More
"*Financials would be provided on a best efforts basis for private companies"
17. On-Board High Performance Computing System Market -Appendix
17.1. Abbreviations
17.2. Sources
18. On-Board High Performance Computing System Market -Methodology Premium
18.1. Research Methodology
18.1.1. Company Expert Interviews
18.1.2. Industry Databases
18.1.3. Associations
18.1.4. Company News
18.1.5. Company Annual Reports
18.1.6. Application Trends
18.1.7. New Products and Product database
18.1.8. Company Transcripts
18.1.9. R&D Trends
18.1.10. Key Opinion Leaders Interviews
18.1.11. Supply and Demand Trends