Industrial FPGA market

Report Code: ESR 0849 Report Format: PDF + Excel

Industrial FPGA Market Overview:

Industrial FPGA Market size is estimated to reach $5.2 billion by 2030, growing at a CAGR of 13% over the forecast period 2024-2030. FPGAs are versatile semiconductor devices that can be programmed and reprogrammed after manufacturing, making them highly adaptable to various applications. The industrial sector was one of the key areas where FPGAs found extensive use due to their ability to provide customized and efficient solutions for various industrial processes and systems.
A key driver for industrial FPGAs is the expanding need for automation in businesses to boost production processes, increase efficiency, and lower operating costs. FPGAs are excellent for data processing, real-time control, and interacting with sensors and actuators in automated systems.
 

Market Snapshot: 

Industrial FPGA Market - Report Coverage:

The “Industrial FPGA Market Report - Forecast (2024-2030)” by IndustryARC, covers an in-depth analysis of the following segments in the Industrial FPGA Market.
 
Attribute Segment
 

By Technology

 

 

 

  • SRAM

  • Anti Fuse

  • Fuse

  • EEPROM

  • EPROM

  • Others

 

By Type

  • High-End FPGA

  • Mid-End FPGA

  •  Low-End FPGA

 

By Size

  • Less Than 28nm

  • 28nm-90nm

  • More Than 90nm



 

By Functional Blocks

  • Logic Blocks

  • Transistor Pairs

  •  Combinational Gates

  •  N-Input Lookup Tables

  •  Multiplexes

  •  Others

  • Routing

By Memory

  • Distributed Memory

  • Block Memory





 

By Applications

  • Robotics

  • Drivers & Motor Control

  • 3D Printers

  • PLC

  • IoT Gateways and Appliances

  • I/O Modules and Smart Sensors

  • Smart Grid

  • Trains & Railways

  • Human Machine Interface

  • Machine Vision

  • Smart Security

  • Telecommunication

  • Others

                                                                                                       For More Details on This Report -  Request Sample

COVID-19 / Ukraine Crisis - Impact Analysis:  

The pandemic caused disruptions in supply chains across various industries, including semiconductors. This led to delays in the production and delivery of FPGA components, affecting the availability of products for industrial applications. Many industries, including manufacturing and automotive, experienced fluctuations in demand due to lockdowns, reduced consumer spending, and economic uncertainty. This has influenced the demand for industrial automation solutions that utilize FPGAs.
Any crisis between Russia and Ukraine could potentially impact industries and trade relationships, and countries might impose export restrictions on certain technologies, including semiconductors. Russia apparently faces a serious technology shortage, frequently brought on by trade sanctions, and needs access to chips to power missiles and other weaponry for its invasion of Ukraine.
 

Key Takeaways:

  FPGAs: Powering the Robotic Revolution
       The need for Field-Programmable Gate Arrays (FPGAs) in the robotics sector has increased significantly over the past several years, driving a revolutionary wave of innovation and efficiency. FPGAs are used in robotics to provide the processing power, real-time control, and adaptability needed to achieve extraordinary performance in anything from factory automation to autonomous vehicles and cutting-edge medical devices. Robotic systems can quickly process massive volumes of sensor data, make snap judgments, and carry out accurate movements while minimizing delay. FPGAs are leading the way in enabling robots to improve productivity, safety, and their ability to interact seamlessly with people and complicated settings as the robotics landscape continues to change with a focus on collaborative and intelligent systems. 
 
  SRAM is Leading the Market
        SRAM (Static Random-Access Memory) is indeed a fundamental and leading technology in the industrial FPGA (Field-Programmable Gate Array) market. SRAM plays a critical role in FPGAs for configuration storage, as well as for implementing various types of memory elements and logic functions within the FPGA fabric. SRAM-based configuration memory is essential for FPGAs. It allows users to load different configurations onto the FPGA to program the device for specific tasks or applications. This reprogrammability is a key feature of FPGAs.
 
  Fastest Growth of Asia Pacific Region
Asia Pacific region is analyzed to grow with the highest CAGR of 15% in the global industrial FPGA market over the forecast period 2024-2030. The growth in this region was attributed to several factors, including industrialization, technological advancements, increased manufacturing activities, and rising demand in healthcare sectors. The increasing adoption of FPGAs in emerging technologies such as machine learning, artificial intelligence, and 5G is driving the growth of the FPGA market in the Asia Pacific region.
 
  Growing Demand for High performance Computing and Data Intensive Applications
        
The growing demand for high-performance computing (HPC) and data-intensive applications has a significant impact on the industrial FPGA (Field-Programmable Gate Array) market. FPGAs are increasingly sought after to address the requirements of these demanding applications due to their ability to provide hardware acceleration, parallel processing, and real-time data handling. The industrial sector is adopting AI and machine learning for predictive maintenance, quality control, and process optimization. FPGAs, equipped with AI acceleration hardware, offer high-performance inference for edge devices and real-time analytics in manufacturing environments.
 
  Highly Complex Programming
       Highly complex programming in the industrial FPGA (Field-Programmable Gate Array) market refers to the development of intricate and sophisticated FPGA designs to meet the demands of specialized applications. This complexity arises from the need to implement advanced algorithms, signal processing, and real-time control within the FPGA fabric. Complex algorithms, such as digital signal processing (DSP), image and video processing, encryption/decryption, and machine learning, are programmed into FPGAs to achieve high-speed, parallel processing.
 

Key Market Players: 

Product/Service launches, approvals, patents and events, acquisitions, partnerships and collaborations are key strategies adopted by players in the industrial FPGA Market. The top 10 companies in this industry are listed below:
1. Intel Corporation
2. Xilinx, Inc.
3. Qualcomm Technologies, Inc.
4. NVIDIA Corporation
5. Broadcom
6. AMD, Inc.
7. Quicklogic Corporation
8. Lattice Semiconductor Corporation
9. Achronix Semiconductor Corporation
10. Microchip Technology Inc
 

Scope of Report: 

 
Report Metric Details

Base Year Considered

2023

Forecast Period

2024–2030

CAGR

13%

Market Size in 2030

$5.2 billion

Segments Covered

Technology, Type, Size, Functional Blocks, Memory, Application, and Region




 

Geographies Covered

North America (U.S., Canada and Mexico), Europe (Germany, France, UK, Italy, Spain, Russia and Rest of Europe), Asia-Pacific (China, Japan, South Korea, India, Australia, New Zealand and Rest of Asia-Pacific), South America (Brazil, Argentina, Chile, Colombia and Rest of South America), Rest of the World (Middle East and Africa).




 

Key Market Players

  1. Intel Corporation

  2. Xilinx, Inc.

  3. Qualcomm Technologies, Inc.

  4.  NVIDIA Corporation

  5. Broadcom

  6. AMD, Inc.

  7. Quicklogic Corporation

  8. Lattice Semiconductor Corporation

  9. Achronix Semiconductor Corporation

  10.  Microchip Technology Inc

 
1. Industrial FPGA Market- Overview
2. Industrial FPGA Market- Executive Summary
3. Industrial FPGA Market–Comparative Analysis 
    3.1. Company Benchmarking – Key Companies
    3.2. Financials Analysis–Key Companies
    3.3. Market Share Analysis- Key Companies
    3.4. Patent Analysis - Global
    3.5. Pricing Analysis–Average Pricing
4. Industrial FPGA Market– Startup companies Scenario Premium 
    4.1. Investments
    4.2. Revenue
    4.3. Venture Capital and Funding Scenario
5. Industrial FPGA 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
6. Industrial FPGA Market - Forces
   6.1. Market Drivers
   6.2. Market Constraints & Challenges
   6.3. Porters five force model
        6.3.1. Bargaining power of suppliers
        6.3.2. Bargaining powers of customers
        6.3.3. Threat of new entrants
        6.3.4. Rivalry among existing players
        6.3.5. Threat of substitutes 
7. Industrial FPGA Market- Strategic Analysis 
    7.1. Value Chain Analysis
    7.2. Opportunities Analysis
    7.3. Market Life Cycle Analysis
8. Industrial FPGA Market- By Technology
    8.1. SRAM
    8.2. Anti-Fuse
    8.3. Fuse
    8.4. EEPROM
    8.5. EPROM
    8.6. Others
9. Industrial FPGA Market- By Type
    9.1. High End FPGA
    9.2. Mid End FPGA
    9.3. Low End FPGA
10. Industrial FPGA Market- By Size
    10.1. Less than 28nm
    10.2. 28nm-90nm
    10.3. More than 90nm
11. Industrial FPGA Market- By Functional Blocks
    11.1. Logic Blocks
        11.1.1. Transistor Pairs
        11.1.2. Combinational Gates
        11.1.3. N-Input Look up Tables
        11.1.4. Multiplexes
        11.1.5. Others
    11.2. Routing
12. Industrial FPGA Market- By Memory
    12.1. Distributed memory
    12.2. Block Memory
13. Industrial FPGA Market- By Applications
    13.1. Robotics
    13.2. Drivers & Motor Control
    13.3. 3D Printers
    13.4. PLC
    13.5. IoT Gateways and Appliances
    13.6. I/O Modules & Smart Sensors
    13.7. Smart Grid
    13.8. Trains & Railways
    13.9. Human Machine Interface
    13.10 .Machine Vision 
    13.11 .Smart Security
    13.12 .Others
14. Industrial FPGA Market- By Geography
    14.1. North America
        14.1.1. U.S.
        14.1.2. Canada
        14.1.3. Mexico
    14.2. Europe
        14.2.1. U.K.
        14.2.2. Germany
        14.2.3. France
        14.2.4. Italy
        14.2.5. Spain
        14.2.6. Russia
        14.2.7. Netherlands
        14.2.8. Rest of Europe
    14.3. Asia-Pacific
        14.3.1. China
        14.3.2. Japan
        14.3.3. South Korea
        14.3.4. India
        14.3.5. Australia
        14.3.6. Indonesia
        14.3.7. Malaysia
        14.3.8. Rest of Asia-Pacific
    14.4. South America
        14.4.1. Brazil
        14.4.2. Argentina
        14.4.3. Chile
        14.4.4. Colombia
        14.4.5. Others
    14.5. Rest of the World
        14.5.1. Middle East
        14.5.2. Africa
15. Industrial FPGA Market – Entropy
16. Industrial FPGA Market – Industry/Segment Competition Landscape   
    16.1. Market Share Analysis
        16.1.1. Market Share by Region – Key companies
        16.1.2. Market Share by Countries – Key Companies
    16.2. Competition Matrix
    16.3. Best Practices for Companies
17. Industrial FPGA Market– Key Company List by Country Premium   
18. Industrial FPGA Market Company Analysis (Overview, Financials, Developments, Product Portfolio)
    18.1. Intel Corporation
    18.2. Xilinx, Inc.
    18.3. Qualcomm Technologies, Inc.
    18.4. NVIDIA Corporation
    18.5. Broadcom
    18.6. AMD, Inc.
    18.7. Quicklogic Corporation
    18.8. Lattice Semiconductor Corporation
    18.9. Achronix Semiconductor Corporation
    18.10 .Microchip Technology Inc
 
*Financials would be provided on a best-efforts basis for private companies"
 
Connect with our experts to get customized reports that best suit your requirements. Our reports include global-level data, niche markets and competitive landscape.