Computer Engineering Market Size By Product Functionality (Personal Computers, Server Computer Hardware, Supercomputers, Built-in Computers, Mobile Computer Hardware, Microelectronic Components), By Application (Automotive, Communication System, Industrial, Medicine, Consumer Computer Equipment), Industry Analysis Report, Regional Outlook, Growth Potential, Competitive Market Share & Forecast, 201
Published Date: July - 2024 | Publisher: MRA | No of Pages: 240 | Industry: Media and IT | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request CustomizationComputer Engineering Market Size By Product Functionality (Personal Computers, Server Computer Hardware, Supercomputers, Built-in Computers, Mobile Computer Hardware, Microelectronic Components), By Application (Automotive, Communication System, Industrial, Medicine, Consumer Computer Equipment), Industry Analysis Report, Regional Outlook, Growth Potential, Competitive Market Share & Forecast, 201
Computer Engineering Market Size
Computer Engineering Market size was valued at around USD 1,800 billion in 2016 and will grow at a CAGR of around 5% from 2017 to 2024.
To get key market trends
The rise of the internet and cloud computing is like a turbocharger for the computer engineering industry. It's fueling the growth of smart devices everywhere, from your car to your toothbrush. Smart devices are like a connected army, and software developers are the generals writing the orders that make them work. These software upgrades are the key to unlocking their full potential. To keep up with the demand, software and semiconductor wizards are working their magic. They're packing a whole bunch of stuff like processors, memory, and software into tiny chips called System-on-Chips (SoCs). This is like building a whole computer on a single postage stamp! It's a trend that's pushing the limits of chip design and making our devices smarter and more powerful.
Many semiconductor companies are downsizing their products, making them more flexible, and packing more features into each one. This has opened up new uses for semiconductors, like in surgical tools and fitness trackers. The medical field is a big opportunity for the semiconductor industry, especially with the growing use of implants in advanced treatments. These implants can help diagnose chronic diseases and can even be charged wirelessly, which makes them more convenient to use. In some cases, this technology can even eliminate the need for batteries altogether. As a result, the demand for semiconductors in the medical industry is growing rapidly.
Report Attribute | Details |
---|---|
Base Year | 2016 |
Computer Engineering Market Size in 2016 | 1800 Billion (USD) |
Forecast Period | 2017 to 2024 |
Forecast Period 2017 to 2024 CAGR | 5% |
2024 Value Projection | 2.5 Trillion (USD) |
Historical Data for | 2013 to 2016 |
No. of Pages | 350 |
Tables, Charts & Figures | 210 |
Segments covered | Product Functionality, Application and Region |
Growth Drivers |
|
Pitfalls & Challenges |
|
What are the growth opportunities in this market?
The manufacturing process of electronic devices is a highly complex activity with specific requirements and conditions for manufacturing an equipment. The initial cost of setting up an electronics manufacturing plant is a major factor hindering the growth of the computer engineering market. Moreover, a key challenge in the industry is the availability of counterfeit electronic devices and products. Since the last few years, several lookalike products have been swamping the industry, thereby seizing the industry share of leading vendors.
Computer Engineering Market Analysis
The world of mobile computing is booming! We're spending more time than ever on our smartphones and tablets, which means that companies that make these devices are raking in the money. Asia is where the action is, with more than 4 billion people subscribing to mobile phone services. That's a huge number! And it's no surprise, considering how many cool new technologies are available for our mobile devices. From super-affordable handsets to low-cost calling plans, there's something for everyone. And as phone companies keep investing in their networks, it's only going to get easier and cheaper to stay connected. But it's not just about making calls anymore. The Internet of Things (IoT) and 4G/LTE networks are making it possible to do all sorts of amazing things with our mobile devices. We can control our smart homes, track our fitness, and even watch movies on the go. It's an exciting time for mobile computing, and it's only going to get better from here!
Cars these days are packed with tech, thanks to computer engineers. They're the brains behind your car's entertainment, body electronics, and even safety features. As we move towards more automated and electric vehicles, the demand for computer engineers in the automotive industry is skyrocketing. Countries like China are embracing EVs and charging stations, creating a huge need for the tiny computers inside cars called microcontrollers. Even the U.S. is offering tax breaks of up to $7,500 for new electric vehicles, making them more affordable for drivers. This cash incentive is fueling the growth of the EV market. Out of all industries, automotive is the cash cow for computer engineers. In 2016, one big company called ON Semiconductors said that over a third of their profits came from car-related tech. And as cars become more connected and smarter, with features like sensors and self-driving systems, the need for powerful computer engineering solutions will only grow.
The computer engineering industry in Asia Pacific is poised for a significant surge in the coming years. This growth is being fueled by the presence of numerous semiconductor manufacturers in the region. Governments and industry groups are working together to enhance the competitiveness of the electronics system design and manufacturing (ESDM) industry. Their goal is not only to meet local demand but also to attract foreign investment. Asia Pacific is becoming increasingly attractive to manufacturers due to the availability of low-cost labor in countries like India, Indonesia, and Thailand. Rising manufacturing costs in Taiwan and China have prompted ESDM companies to relocate their operations to these alternative locations. For instance, in 2016, the hourly labor cost for electronics manufacturing in India was about $1, compared to $3.5 in China. This disparity has made India particularly appealing for computer engineering companies.
Computer Engineering Market Share
Major players operating in the computer engineering market include designing, developing/manufacturing and testing providers. Some of the major companies involved in this market are
- Xilinx, Inc
- Averna Technologies, Inc
- Teradyne, Inc
- Synopsys, Inc
- STMicroelectronics N.V
- SolidCAM Ltd
- Nvidia Corporation
- Intel Corporation
- National Instruments Corporation
- Lattice Semiconductor Corporation
- Marvin Test Solutions, Inc
- Cadence Design Systems, Inc
- Advantest Corporation
Vendors operating in the computer engineering market are facing intense rivalry with companies competing based on brand, quality, technology, price, distribution, and service. Companies are also entering into collaborations for the development of new technologies.
Computer Engineering Industry Background
The computer engineering market is highly fragmented in nature with presence of several manufactures and system developers. Players are adopting several strategies such as collaborations, agreements, partnerships, and mergers & acquisitions (M&A). A major trend amongst the ESDM providers is the subcontracting or outsourcing of the electronic manufacturing processes to other third-party companies. By undertaking this initiative, manufactures can focus on quality improvement, end-to-end designing, development, testing solutions and vital resources, such as monetary bonds, and skilled labour, to lessen the high variable and capital.
Table of Content
Report Content
Chapter 1 Methodology & Scope
1.1 Methodology
1.1.1 Initial data exploration
1.1.2 Statistical model and forecast
1.1.3 Industry insights and validation
1.1.4 Definition and forecast parameters
1.1.4.1 Definitions
1.1.4.2 Methodology and forecast parameters
1.2 Data Sources
1.2.1 Secondary
1.2.2 Primary
Chapter 2 Executive Summary
2.1 Computer engineering industry 3600 synopsis, 2013 - 2024
2.1.1 Business trends
2.1.2 Regional trends
2.1.3 Product functionality trends
2.1.4 Application trends
Chapter 3 Computer Engineering Industry Insights
3.1 Industry segmentation
3.2 Industry landscape, 2013 - 2024
3.3 Industry ecosystem analysis
3.3.1 Distribution channel analysis
3.3.2 Vendor matrix
3.4 Technological and innovation landscape
3.4.1 Product landscape
3.4.1.1 Personal computer
3.4.1.2 Server computer hardware
3.4.1.3 Built-in computer
3.4.1.4 Mobile computer
3.5 Regulatory landscape
3.5.1 North America
3.5.1.1 FCC certification
3.5.1.2 Certification (47 CFR Section 2.907)
3.5.1.3 Supplier’s Declaration of Conformity (SDoC)
3.5.1.4 Ultra-Wideband (UWB-GPR)
3.5.1.4.1 U.S. UWB-GPR
3.5.1.4.2 Canada UWB-GPR
3.5.1.5 Underwriters Laboratories (UL) or Canadian Standards Association (CSA) certification
3.5.2 Europe
3.5.2.1 Conformité Européene (CE)
3.5.2.2 EU Medical device directive or 93/42/EEC (EU 1993)
3.5.2.1 ISO 1996-22007
3.5.2.2 TR CU Certificate in Russia
3.5.3 Asia Pacific
3.5.3.1 Technical Regulations for Radio Equipment in Japan
3.5.3.2 Bharat stage emission standards in India
3.5.3.3 The China Certification and Accreditation Administration (CNCA)
3.5.4 Latin America
3.5.4.1 EPA's ENERGY STAR
3.5.5 Middle East & Africa (MEA)
3.5.5.1 Saudi Arabia food & drug authority
3.6 Industry impact forces
3.6.1 Growth drivers
3.6.1.1 Growth of Internet of Things (IoT)
3.6.1.2 Increasing usage of FPGAs (Field Programmable Gate Arrays) in data centers
3.6.1.3 Growing smartphone demand in India and South-East Asia
3.6.1.4 Rising penetration in industrial and commercial environments in Asia Pacific
3.6.1.5 Increasing demand for smart sensors in monitoring and diagnostics applications
3.6.1.6 Growing demand for miniaturized products
3.6.1.7 Growth of electric (EVs) and hybrid vehicles (HEVs) in North America and Asia Pacific
3.6.2 Industry pitfalls and challenges
3.6.2.1 Complexity and technical issues
3.6.2.2 Unorganized sector and Intellectual Property (IP) issues in Asia Pacific
3.7 Growth potential analysis
3.8 Porter’s analysis
3.9 Competitive landscape, 2016
3.9.1 Strategy dashboard (new product development, M&A, R&D)
3.10 PESTEL analysis
Chapter 4 Computer Engineering Market, By Product Functionality
4.1 Computer engineering market share, by product functionality, 2016 & 2024
4.2 Personal computer
4.2.1 Market estimates, by region, 2013 - 2016
4.2.2 Market forecast, by region, 2017 - 2024
4.3 Server computer hardware
4.3.1 Market estimates, by region, 2013 - 2016
4.3.2 Market forecast, by region, 2017 - 2024
4.4 Supercomputers
4.4.1 Market estimates, by region, 2013 - 2016
4.4.2 Market forecast, by region, 2017 - 2024
4.5 Built-in computer
4.5.1 Market estimates, by region, 2013 - 2016
4.5.2 Market forecast, by region, 2017 - 2024
4.6 Mobile computer hardware
4.6.1 Market estimates, by region, 2013 - 2016
4.6.2 Market forecast, by region, 2017 - 2024
4.7 Microelectronic components
4.7.1 Market estimates, by region, 2013 - 2016
4.7.2 Market forecast, by region, 2017 - 2024
Chapter 5 Computer Engineering Market, By Application
5.1 Computer engineering market share, by application, 2016 & 2024
5.2 Automotive
5.2.1 Market estimates, by region, 2013 - 2016
5.2.2 Market forecast, by region, 2017 – 2024
5.3 Communication system
5.3.1 Market estimates, by region, 2013 - 2016
5.3.2 Market forecast, by region, 2017 - 2024
5.4 Industrial
5.4.1 Market estimates, by region, 2013 - 2016
5.4.2 Market forecast, by region, 2017 - 2024
5.5 Medicine
5.5.1 Market estimates, by region, 2013 - 2016
5.5.2 Market forecast, by region, 2017 - 2024
5.6 Consumer computer equipment
5.6.1 Market estimates, by region, 2013 - 2016
5.6.2 Market forecast, by region, 2017 - 2024
Chapter 6 Computer Engineering Market, By Region
6.1 Computer engineering market share by region, 2016 & 2024
6.2 North America
6.2.1 Market estimates by product functionality, 2013 - 2016
6.2.2 Market forecast by product functionality, 2017 - 2024
6.2.3 Market estimates by application, 2013 - 2016
6.2.4 Market forecast by application, 2017 - 2024
6.2.5 U.S.
6.2.5.1 Market estimates by product functionality, 2013 - 2016
6.2.5.2 Market forecast by product functionality, 2017 - 2024
6.2.5.3 Market estimates by application, 2013 - 2016
6.2.5.4 Market forecast by application, 2017 - 2024
6.2.6 Canada
6.2.6.1 Market estimates by product functionality, 2013 - 2016
6.2.6.2 Market forecast by product functionality, 2017 - 2024
6.2.6.3 Market estimates by application, 2013 - 2016
6.2.6.4 Market forecast by application, 2017 - 2024
6.3 Europe
6.3.1 Market estimates by product functionality, 2013 - 2016
6.3.2 Market forecast by product functionality, 2017 - 2024
6.3.3 Market estimates by application, 2013 - 2016
6.3.4 Market forecast by application, 2017 - 2024
6.3.5 Germany
6.3.5.1 Market estimates by product functionality, 2013 - 2016
6.3.5.2 Market forecast by product functionality, 2017 - 2024
6.3.5.3 Market estimates by application, 2013 - 2016
6.3.5.4 Market forecast by application, 2017 - 2024
6.3.6 UK
6.3.6.1 Market estimates by product functionality, 2013 - 2016
6.3.6.2 Market forecast by product functionality, 2017 - 2024
6.3.6.3 Market estimates by application, 2013 - 2016
6.3.6.4 Market forecast by application, 2017 - 2024
6.3.7 France
6.3.7.1 Market estimates by product functionality, 2013 - 2016
6.3.7.2 Market forecast by product functionality, 2017 - 2024
6.3.7.3 Market estimates by application, 2013 - 2016
6.3.7.4 Market forecast by application, 2017 - 2024
6.3.8 Italy
6.3.8.1 Market estimates by product functionality, 2013 - 2016
6.3.8.2 Market forecast by product functionality, 2017 - 2024
6.3.8.3 Market estimates by application, 2013 - 2016
6.3.8.4 Market forecast by application, 2017 - 2024
6.3.9 Russia
6.3.9.1 Market estimates by product functionality, 2013 - 2016
6.3.9.2 Market forecast by product functionality, 2017 - 2024
6.3.9.3 Market estimates by application, 2013 - 2016
6.3.9.4 Market forecast by application, 2017 - 2024
6.4 Asia Pacific
6.4.1 Market estimates by product functionality, 2013 - 2016
6.4.2 Market forecast by product functionality, 2017 - 2024
6.4.3 Market estimates by application, 2013 - 2016
6.4.4 Market forecast by application, 2017 - 2024
6.4.5 China
6.4.5.1 Market estimates by product functionality, 2013 - 2016
6.4.5.2 Market forecast by product functionality, 2017 - 2024
6.4.5.3 Market estimates by application, 2013 - 2016
6.4.5.4 Market forecast by application, 2017 - 2024
6.4.6 India
6.4.6.1 Market estimates by product functionality, 2013 - 2016
6.4.6.2 Market forecast by product functionality, 2017 - 2024
6.4.6.3 Market estimates by application, 2013 - 2016
6.4.6.4 Market forecast by application, 2017 - 2024
6.4.7 Japan
6.4.7.1 Market estimates by product functionality, 2013 - 2016
6.4.7.2 Market forecast by product functionality, 2017 - 2024
6.4.7.3 Market estimates by application, 2013 - 2016
6.4.7.4 Market forecast by application, 2017 - 2024
6.4.8 South Korea
6.4.8.1 Market estimates by product functionality, 2013 - 2016
6.4.8.2 Market forecast by product functionality, 2017 - 2024
6.4.8.3 Market estimates by application, 2013 - 2016
6.4.8.4 Market forecast by application, 2017 - 2024
6.5 Latin America
6.5.1 Market estimates by product functionality, 2013 - 2016
6.5.2 Market forecast by product functionality, 2017 - 2024
6.5.3 Market estimates by application, 2013 - 2016
6.5.4 Market forecast by application, 2017 - 2024
6.5.5 Brazil
6.5.5.1 Market estimates by product functionality, 2013 - 2016
6.5.5.2 Market forecast by product functionality, 2017 - 2024
6.5.5.3 Market estimates by application, 2013 - 2016
6.5.5.4 Market forecast by application, 2017 - 2024
6.5.6 Mexico
6.5.6.1 Market estimates by product functionality, 2013 - 2016
6.5.6.2 Market forecast by product functionality, 2017 - 2024
6.5.6.3 Market estimates by application, 2013 - 2016
6.5.6.4 Market forecast by application, 2017 - 2024
6.6 MEA
6.6.1 Market estimates by product functionality, 2013 - 2016
6.6.2 Market forecast by product functionality, 2017 - 2024
6.6.3 Market estimates by application, 2013 - 2016
6.6.4 Market forecast by application, 2017 - 2024
6.6.5 KSA
6.6.5.1 Market estimates by product functionality, 2013 - 2016
6.6.5.2 Market forecast by product functionality, 2017 - 2024
6.6.5.3 Market estimates by application, 2013 - 2016
6.6.5.4 Market forecast by application, 2017 - 2024
6.6.6 UAE
6.6.6.1 Market estimates by product functionality, 2013 - 2016
6.6.6.2 Market forecast by product functionality, 2017 - 2024
6.6.6.3 Market estimates by application, 2013 - 2016
6.6.6.4 Market forecast by application, 2017 - 2024
6.6.7 South Africa
6.6.7.1 Market estimates by product functionality, 2013 - 2016
6.6.7.2 Market forecast by product functionality, 2017 - 2024
6.6.7.3 Market estimates by application, 2013 - 2016
6.6.7.4 Market forecast by application, 2017 - 2024
Chapter 7 Developer & Manufacturer Profiles
7.1 Advantest Corporation
7.1.1 Business Overview
7.1.2 Financial Data
7.1.3 Product Landscape
7.1.4 Strategic Outlook
7.1.5 SWOT Analysis
7.2 Advint, LLC (Advanced Integration, LLC)
7.2.1 Business Overview
7.2.2 Financial Data
7.2.3 Product Landscape
7.2.4 SWOT Analysis
7.3 Ansys, Inc.
7.3.1 Business Overview
7.3.2 Financial Data
7.3.3 Product Landscape
7.3.4 Strategic Outlook
7.3.5 SWOT Analysis
7.4 ARM Holdings PLC
7.4.1 Business Overview
7.4.2 Financial Data
7.4.3 Product Landscape
7.4.4 Strategic Outlook
7.4.5 SWOT Analysis
7.5 Astronics Corporation
7.5.1 Business Overview
7.5.2 Financial Data
7.5.3 Product Landscape
7.5.4 Strategic Outlook
7.5.5 SWOT Analysis
7.6 Autodesk, Inc.
7.6.1 Business Overview
7.6.2 Financial Data
7.6.3 Product Landscape
7.6.4 Strategic Outlook
7.6.5 SWOT Analysis
7.7 Averna Technologies, Inc.
7.7.1 Business Overview
7.7.2 Financial Data
7.7.3 Product Landscape
7.7.4 Strategic Outlook
7.7.5 SWOT Analysis
7.8 Cadence Design Systems, Inc.
7.8.1 Business Overview
7.8.2 Financial Data
7.8.3 Product Landscape
7.8.4 Strategic Outlook
7.8.5 SWOT Analysis
7.9 Cavium, Inc.
7.9.1 Business Overview
7.9.2 Financial Data
7.9.3 Product Landscape
7.9.4 Strategic Outlook
7.9.5 SWOT Analysis
7.10 Cobham PLC
7.10.1 Business Overview
7.10.2 Financial Data
7.10.3 Product Landscape
7.10.4 Strategic Outlook
7.10.5 SWOT Analysis
7.11 Cypress Semiconductor Corporation
7.11.1 Business Overview
7.11.2 Financial Data
7.11.3 Product Landscape
7.11.4 Strategic Outlook
7.11.5 SWOT Analysis
7.12 Dassault Systemes S.A.
7.12.1 Business Overview
7.12.2 Financial Data
7.12.3 Product Landscape
7.12.4 Strategic Outlook
7.12.5 SWOT Analysis
7.13 Future Technology Devices International Ltd. (FTDI Chip)
7.13.1 Business Overview
7.13.2 Financial Data
7.13.3 Product Landscape
7.13.4 Strategic Outlook
7.13.5 SWOT Analysis
7.14 Infineon Technologies
7.14.1 Business Overview
7.14.2 Financial Data
7.14.3 Product Landscape
7.14.4 Strategic Outlook
7.14.5 SWOT Analysis
7.15 Intel Corporation
7.15.1 Business Overview
7.15.2 Financial Data
7.15.3 Product Landscape
7.15.4 Strategic Outlook
7.15.5 SWOT Analysis
7.16 Lattice Semiconductor Corporation
7.16.1 Business Overview
7.16.2 Financial Data
7.16.3 Product Landscape
7.16.4 Strategic Outlook
7.16.5 SWOT Analysis
7.17 Marvin Test Solutions, Inc.
7.17.1 Business Overview
7.17.2 Financial Data
7.17.3 Product Landscape
7.17.4 Strategic Outlook
7.17.5 SWOT Analysis
7.18 Maxim Integrated Products, Inc.
7.18.1 Business Overview
7.18.2 Financial Data
7.18.3 Product Landscape
7.18.4 Strategic Outlook
7.18.5 SWOT Analysis
7.19 Mentor Graphics Corporation
7.19.1 Business Overview
7.19.2 Financial Data
7.19.3 Product Landscape
7.19.4 Strategic Outlook
7.19.5 SWOT Analysis
7.20 Microchip Technology, Inc.
7.20.1 Business Overview
7.20.2 Financial Data
7.20.3 Product Landscape
7.20.4 Strategic Outlook
7.20.5 SWOT Analysis
7.21 Microsemi Corporation
7.21.1 Business Overview
7.21.2 Financial Data
7.21.3 Product Landscape
7.21.4 Strategic Outlook
7.21.5 SWOT Analysis
7.22 National Instruments Corporation
7.22.1 Business Overview
7.22.2 Financial Data
7.22.3 Product Landscape
7.22.4 Strategic Outlook
7.22.5 SWOT Analysis
7.23 NVidia Corporation
7.23.1 Business Overview
7.23.2 Financial Data
7.23.3 Product Landscape
7.23.4 Strategic Outlook
7.23.5 SWOT Analysis
7.24 NXP Semiconductor N.V.
7.24.1 Business Overview
7.24.2 Financial Data
7.24.3 Product Landscape
7.24.4 Strategic Outlook
7.24.5 SWOT Analysis
7.25 PTC Inc.
7.25.1 Business Overview
7.25.2 Financial Data
7.25.3 Product Landscape
7.25.4 S
Related Reports
- Casual AI Market Size - By Offering (Platform [ Deployment {Cloud, On-premises}], Services [Consulting, Deployment & Int...
- Metaverse for Automotive Market Size - By Component (Hardware, Software, Services), By Technology (Virtual Reality, Augm...
- SVOD Market Size - By Content (General Entertainment, Niche Content, Original Programming), By Pricing Model (Premium, A...
- Multimodal AI Market Size - By Component (Solution, Service), By Technology (Machine Learning, Natural Language Processi...
- AVOD Market Size - By Content (Movies, TV Shows, Original Series, News, Sports, User-generated Content), By Platform (S...
- Premium Finance Market - By Type (Life Insurance, Non-life Insurance), By Interest Rate (Fixed Interest Rate, Floating I...
Table of Content
Will be Available in the sample /Final Report. Please ask our sales Team.
List Tables Figures
Will be Available in the sample /Final Report. Please ask our sales Team.
FAQ'S
For a single, multi and corporate client license, the report will be available in PDF format. Sample report would be given you in excel format. For more questions please contact:
Within 24 to 48 hrs.
You can contact Sales team (sales@marketinsightsresearch.com) and they will direct you on email
You can order a report by selecting payment methods, which is bank wire or online payment through any Debit/Credit card, Razor pay or PayPal.
Discounts are available.
Hard Copy