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Field Programmable Gate Array Market by technology (EEPROM, Antifuse, SRAM, Flash, and others (EPROM and PROM), by Application (data processing, consumer electronics, industrial, military & aerospace, automotive, telecom, and others), and by Type (high-end, mid-end, and low-end FPGA) - Global Opportunity Analysis and Industry Forecast, 2017-2023

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SE_172320
Pages: 185
Nov 2017 | 2908 Views
 
Author's : Seapee Bajaj
Tables: 71
Charts: 57
 

Field Programmable Gate Array Market Overview:

Field Programmable Gate Arrays (FPGAs) Market are semiconductor devices built around a matrix of configurable logic blocks (CLBs) linked via programmable interconnects. A field programmable gate array (FPGA) is an integrated circuit that can be programed later in the field after manufacturing. Field programmable gate arrays are similar to programmable read-only memory (PROM), but with better potential. The greatest advantage of this chip is that it can be programed and re-programed if there is a necessity for upgrading. This means that users can customize the circuits according to their needs. The greatest advantage of using the chip is that the circuit need not to be changed. This helps reduce the cost involved in buying a new machine with the change in process.

FPGA is flexible, involves reduced development time, and requires low on non-recurrent engineering (NRE) cost. These factors boost the FPGA market growth. There is a great potential for reduction of cost and development of security level using the field programmable gate array, which is expected to provide lucrative opportunity to the FPGA market. However, these arrays are slower than application specific integrated circuits (ASIC) or other equivalent ICs as well as expensive. The design process is complex, which limits the market growth.

Significant players operating in the FPGA market are Achronix Semiconductor Corporation, Altera Corporation, ARM Ltd., Atmel Corporation, Cypress Semiconductors Corporation, Teledyne e2v Ltd., Lattice Semiconductor, Microsemi Corporation, QuickLogic Corporation, and Xilinx Inc.

Segment Overview

The global field programmable gate array market is segmented into technology, application, type, and region. The technology segment covered in this study includes EEPROM, Antifuse, SRAM, Flash, and others (EPROM and PROM). The application segment is divided into data processing, consumer electronics, industrial, military & aerospace, automotive, telecom, and others. Based on type, it is classified into high-end, mid-end, and low-end FPGA. Based on regional study, the FPGA market is analyzed across North America, Europe, Asia-Pacific, and LAMEA.

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Top Impacting Factors

Factors that are expected to impact the global field programmable gate array market during the forecast period are flexible nature, reduced development time, and requirement of low on non-recurrent engineering (NRE) cost. However, the impact of factors, such as slow speed than application specific integrated circuits (ASIC) or other equivalent ICs as well as expensive nature, is expected to diminish during the forecast period.

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Low/no Non-recurring Expenses (NRE)

Application-specific integrated circuit (ASIC) has non-recurring expenses (NRE) associated with it; thus, ASIC tools are highly expensive as compared to FPGA, which do not have NRE. Moreover, FPGA tools are inexpensive and sometimes free of cost. This in turn drives the growth of the global field programmable gate array market.

Reusability

Reusability is the main offered by use of FPGA, which contributes to significant market growth. Prototype of the design can be implemented on FPGA, which could be verified for almost accurate results to implement on an ASIC. If design has faults, one can change the HDL code, generate bit stream, program to FPGA, and test again. Modern FPGAs can be reconfigured both partially and dynamically.

High Power Consumption

Power is a crucial component in the designer’s decision-making process. FPGAs are a popular choice in numerous system designs. A wise selection of FPGAs can significantly help the designer reduce the challenges associated with power consumption. There are traditionally four power components that are vital when considering a design using FPGA products: pre-programmed static (quiescent) device power consumption; Inrush Programming Current, which is the surge current/power required when programming a device until programming is complete; post-programmed static power consumption, which the power being consumed by the device with a “zero MHz” frequency; and dynamic power consumption, which is incremental power consumed by a nonzero frequency component. This power also translates to significant system cost and in turn hampers the market growth.

Key Benefits

  • This study comprises analytical depiction of the global field programmable gate array market with current trends and future estimations to depict the imminent investment pockets.
  • The overall FPGA market potential is determined to understand the profitable trends to gain a stronger foothold.
  • The report presents information related to key drivers, restraints, and opportunities with a detailed impact analysis.
  • The current market is quantitatively analyzed from 2017 to 2023 to highlight the financial competency of the FPGA market.
  • Porter’s Five Forces analysis illustrates the potency of the buyers and suppliers in the industry.

Field Programmable Gate Array Market Key Segments:

By Technology

  • EEPROM
  • Antifuse
  • SRAM
  • Flash
  • Others (EPROM and PROM)

By Application

  • Data processing
  • Consumer Electronics
  • Industrial
  • Military & Aerospace
  • Automotive
  • Telecom
  • Others

By Type

  • High-end FPGA
  • Mid-end FPGA
  • Low-end FPGA

By Region

  • North America
    • U.S.
    • Canada
    • Mexico
  • Europe
    • UK
    • Germany
    • France
    • Rest of Europe
  • Asia-Pacific
    • China
    • Japan
    • India
    • Rest of Asia-Pacific
  • LAMEA
    • Latin America
    • Middle East
    • Africa

Key Market Players Profiled

  • Achronix Semiconductor Corporation
  • Cobham PLC
  • Intel Corporation
  • Taiwan Semiconductor Manufacturing Company Limited (TSMC)
  • United Microelectronics Corporation (UMC)
  • Cypress Semiconductors Corporation
  • Lattice Semiconductor
  • Microsemi Corporation
  • QuickLogic Corporation
  • Xilinx Inc.
 

Chapter: 1 INTRODUCTION

1.1. REPORT DESCRIPTION
1.2. KEY BENEFITS
1.3. KEY MARKET SEGMENTS
1.4. RESEARCH METHODOLOGY

1.4.1. Primary research
1.4.2. Secondary research
1.4.3. Analyst tools and models

Chapter: 2 EXECUTIVE SUMMARY

2.1. CXO PERSPECTIVE

Chapter: 3 MARKET OVERVIEW

3.1. MARKET DEFINITION AND SCOPE
3.2. KEY FINDINGS

3.2.1. Top impacting factors
3.2.2. Top winning strategies

3.2.2.1. Competitive intelligence and strategies of companies

3.2.3. Top investment pockets

3.3. PORTER’S FIVE FORCES

3.3.1. Bargaining power of suppliers
3.3.2. Bargaining power of buyers
3.3.3. Threat of substitutes
3.3.4. Threat of new entrants
3.3.5. Competitive rivalry

3.4. MARKET SHARE ANALYSIS, 2016 (%)
3.5. MARKET DYNAMICS

3.5.1. Drivers

3.5.1.1. Low/no non-recurring expenses (NRE)
3.5.1.2. Reusability
3.5.1.3. Simple design cycle

3.5.2. Restraint

3.5.2.1. High power consumption

3.5.3. Opportunity

3.5.3.1. Surge in demand of higher bandwidth devices for high-end applications

Chapter: 4 FPGA MARKET, BY TYPE

4.1. OVERVIEW
4.2. HIGH-END FPGA

4.2.1. Key market trends
4.2.2. Key growth factors and opportunities
4.2.3. Market size and forecast

4.3. MID-END FPGA

4.3.1. Key market trends
4.3.2. Key growth factors and opportunities
4.3.3. Market size and forecast

4.4. LOW-END FPGA

4.4.1. Key market trends
4.4.2. Key growth factors and opportunities
4.4.3. Market size and forecast

Chapter: 5 FPGA MARKET, BY TECHNOLOGY

5.1. OVERVIEW
5.2. EEPROM

5.2.1. Key market trends
5.2.2. Key growth factors and opportunities
5.2.3. Market size and forecast

5.3. ANTIFUSE

5.3.1. Key market trends
5.3.2. Key growth factors and opportunities
5.3.3. Market size and forecast

5.4. SRAM

5.4.1. Key market trends
5.4.2. Key growth factors and opportunities
5.4.3. Market size and forecast

5.5. FLASH

5.5.1. Key market trends
5.5.2. Key growth factors and opportunities
5.5.3. Market size and forecast

5.6. OTHERS (EPROM AND PROM)

5.6.1. Key market trends
5.6.2. Key growth factors and opportunities
5.6.3. Market size and forecast

Chapter: 6 FPGA MARKET, BY APPLICATION

6.1. OVERVIEW
6.2. DATA PROCESSING

6.2.1. Key market trends
6.2.2. Key growth factors and opportunities
6.2.3. Market size and forecast

6.3. CONSUMER ELECTRONICS

6.3.1. Key market trends
6.3.2. Key growth factors and opportunities
6.3.3. Market size and forecast

6.4. INDUSTRIAL

6.4.1. Key market trends
6.4.2. Key growth factors and opportunities
6.4.3. Market size and forecast

6.5. MILITARY & AEROSPACE

6.5.1. Key market trends
6.5.2. Key growth factors and opportunities
6.5.3. Market size and forecast

6.6. AUTOMOTIVE

6.6.1. Key market trends
6.6.2. Key growth factors and opportunities
6.6.3. Market size and forecast

6.7. TELECOM

6.7.1. Key market trends
6.7.2. Key growth factors and opportunities
6.7.3. Market size and forecast

6.8. OTHERS (HEALTHCARE, TEST, AND MEASUREMENT & EMULATION)

6.8.1. Key market trends
6.8.2. Key growth factors and opportunities
6.8.3. Market size and forecast

Chapter: 7 FPGA MARKET, BY GEOGRAPHY

7.1. OVERVIEW
7.2. NORTH AMERICA

7.2.1. Key market trends
7.2.2. Key growth factors and opportunities
7.2.3. Market size and forecast, by country
7.2.4. Market size and forecast, by type
7.2.5. U.S.

7.2.5.1. Market size and forecast

7.2.6. Canada

7.2.6.1. Market size and forecast

7.2.7. Mexico

7.2.7.1. Market size and forecast

7.3. EUROPE

7.3.1. Key market trends
7.3.2. Key growth factors and opportunities
7.3.3. Market size and forecast, by country
7.3.4. Market size and forecast, by type
7.3.5. Germany

7.3.5.1. Market size and forecast

7.3.6. UK

7.3.6.1. Market size and forecast

7.3.7. France

7.3.7.1. Market size and forecast

7.3.8. Russia

7.3.8.1. Market size and forecast

7.3.9. Rest of Europe

7.3.9.1. Market size and forecast

7.4. ASIA-PACIFIC

7.4.1. Key market trends
7.4.2. Key growth factors and opportunities
7.4.3. Market size and forecast, by country
7.4.4. Market size and forecast, by type
7.4.5. China

7.4.5.1. Market size and forecast

7.4.6. Japan

7.4.6.1. Market size and forecast

7.4.7. India

7.4.7.1. Market size and forecast

7.4.8. Australia

7.4.8.1. Market size and forecast

7.4.9. Rest of Asia-Pacific

7.4.9.1. Market size and forecast

7.5. LAMEA

7.5.1. Key market trends
7.5.2. Key growth factors and opportunities
7.5.3. Market size and forecast, by country
7.5.4. Market size and forecast, by type
7.5.5. Latin America

7.5.5.1. Market size and forecast

7.5.6. The Middle East

7.5.6.1. Market size and forecast

7.5.7. Africa

7.5.7.1. Market size and forecast

Chapter: 8 COMPANY PROFILES

8.1. ACHRONIX SEMICONDUCTOR CORPORATION

8.1.1. Company overview
8.1.2. Company snapshot
8.1.3. Product portfolio

8.2. COBHAM PLC

8.2.1. Company overview
8.2.2. Company snapshot
8.2.3. Operating business segments
8.2.4. Product portfolio
8.2.5. Business performance

8.3. CYPRESS SEMICONDUCTOR CORPORATION

8.3.1. Company overview
8.3.2. Company snapshot
8.3.3. Operating business segments
8.3.4. Product portfolio
8.3.5. Business performance

8.4. INTEL CORPORATION

8.4.1. Company overview
8.4.2. Company snapshot
8.4.3. Operating business segments
8.4.4. Product portfolio
8.4.5. Business performance
8.4.6. Key strategic moves and developments

8.5. QUICKLOGIC CORPORATION

8.5.1. Company overview
8.5.2. Company snapshot
8.5.3. Product portfolio
8.5.4. Business performance
8.5.5. Key strategic moves and developments

8.6. MICROSEMI CORPORATION

8.6.1. Company overview
8.6.2. Company snapshot
8.6.3. Operating business segments
8.6.4. Product portfolio
8.6.5. Business performance
8.6.6. Key strategic moves and developments

8.7. TAIWAN SEMICONDUCTOR MANUFACTURING

8.7.1. Company overview
8.7.2. Company snapshot
8.7.3. Operating business segments
8.7.4. Product portfolio
8.7.5. Business performance

8.8. UNITED MICROELECTRONICS CORPORATION

8.8.1. Company overview
8.8.2. Company snapshot
8.8.3. Operating business segments
8.8.4. Product portfolio
8.8.5. Business performance
8.8.6. Key strategic moves and developments

8.9. XILINX INC.

8.9.1. Company overview
8.9.2. Company snapshot
8.9.3. Operating business segments
8.9.4. Product portfolio
8.9.5. Business performance
8.9.6. Key strategic moves and developments

8.10. LATTICE SEMICONDUCTOR CORPORATION

8.10.1. Company overview
8.10.2. Company snapshot
8.10.3. Operating business segments
8.10.4. Product portfolio
8.10.5. Business performance
8.10.6. Key strategic moves and developments

LIST OF TABLES

TABLE 1. GLOBAL FPGA MARKET, BY TYPE, 2017-2023 ($MILLION)
TABLE 2. FPGA MARKET FOR HIGH-END FPGA, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 3. FPGA MARKET FOR MID-END FPGA, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 4. FPGA MARKET FOR LOW-END FPGA, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 5. GLOBAL FPGA MARKET, BY TECHNOLOGY, 2017-2023 ($MILLION)
TABLE 6. FPGA MARKET FOR EEPROM TECHNOLOGY, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 7. FPGA MARKET FOR ANTIFUSE TECHNOLOGY, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 8. FPGA MARKET FOR SRAM TECHNOLOGY, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 9. FPGA MARKET FOR FLASH TECHNOLOGY, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 10. FPGA MARKET FOR OTHER TECHNOLOGIES, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 11. GLOBAL FPGA MARKET, BY APPLICATION, 2017-2023 ($MILLION)
TABLE 12. FPGA MARKET FOR DATA PROCESSING APPLICATION, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 13. FPGA MARKET FOR CONSUMER ELECTRONICS APPLICATION, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 14. FPGA MARKET FOR INDUSTRIAL APPLICATION, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 15. FPGA MARKET FOR MILITARY & AEROSPACE APPLICATION, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 16. FPGA MARKET FOR AUTOMOTIVE APPLICATION, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 17. FPGA MARKET FOR TELECOM APPLICATION, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 18. FPGA MARKET FOR OTHER APPLICATIONS, BY GEOGRAPHY, 2017-2023 ($MILLION)
TABLE 19. FPGA MARKET, BY GEOGRAPHY, 2016-2023 ($MILLION)
TABLE 20. NORTH AMERICA FPGA MARKET, BY TYPE, 2016-2023 ($MILLION)
TABLE 21. NORTH AMERICA FPGA MARKET, BY COUNTRY, 2016-2023 ($MILLION)
TABLE 22. U.S. FPGA MARKET, 2016-2023 ($MILLION)
TABLE 23. CANADA FPGA MARKET, 2016-2023 ($MILLION)
TABLE 24. MEXICO FPGA MARKET, 2016-2023 ($MILLION)
TABLE 25. EUROPE FPGA MARKET, BY TYPE, 2016-2023 ($MILLION)
TABLE 26. EUROPE FPGA MARKET, BY COUNTRY, 2016-2023 ($MILLION)
TABLE 27. GERMANY FPGA MARKET, 2016-2023 ($MILLION)
TABLE 28. UK FPGA MARKET, 2016-2023 ($MILLION)
TABLE 29. FRANCE FPGA MARKET, 2016-2023 ($MILLION)
TABLE 30. RUSSIA FPGA MARKET, 2016-2023 ($MILLION)
TABLE 31. REST OF EUROPE FPGA MARKET, 2016-2023 ($MILLION)
TABLE 32. ASIA-PACIFIC FPGA MARKET, BY TYPE, 2016-2023 ($MILLION)
TABLE 33. ASIA-PACIFIC FPGA MARKET, BY COUNTRY, 2016-2023 ($MILLION)
TABLE 34. CHINA FPGA MARKET, 2016-2023 ($MILLION)
TABLE 35. JAPAN FPGA MARKET , 2016-2023 ($MILLION)
TABLE 36. INDIA FPGA MARKET, 2016-2023 ($MILLION)
TABLE 37. AUSTRALIA FPGA MARKET, 2016-2023 ($MILLION)
TABLE 38. REST OF ASIA-PACIFIC FPGA MARKET, 2016-2023 ($MILLION)
TABLE 39. LAMEA FPGA MARKET, BY TYPE, 2016-2023 ($MILLION)
TABLE 40. LAMEA FPGA MARKET, BY REGION, 2016-2023 ($MILLION)
TABLE 41. LATIN AMERICA FPGA MARKET, 2016-2023 ($MILLION)
TABLE 42. MIDDLE EAST FPGA MARKET, 2016-2023 ($MILLION)
TABLE 43. AFRICA FPGA MARKET, 2016-2023 ($MILLION)
TABLE 44. ACHRONIX SEMICONDUCTOR CORPORATION: COMPANY SNAPSHOT
TABLE 45. ACHRONIX SEMICONDUCTORS CORPORATION: PRODUCT PORTFOLIO
TABLE 46. COBHAM: COMPANY SNAPSHOT
TABLE 47. COBHAM: OPERATING SEGMENTS
TABLE 48. COBHAM: PRODUCT PORTFOLIO
TABLE 49. CYPRESS: COMPANY SNAPSHOT
TABLE 50. CYPRESS: OPERATING SEGMENTS
TABLE 51. CYPRESS: PRODUCT PORTFOLIO
TABLE 52. INTEL CORPORATION: COMPANY SNAPSHOT
TABLE 53. INTEL CORPORATION: OPERATING SEGMENTS
TABLE 54. INTEL CORPORATION: PRODUCT PORTFOLIO
TABLE 55. QUICKLOGIC CORPORATION: COMPANY SNAPSHOT
TABLE 56. QUICKLOGIC CORPORATION: PRODUCT PORTFOLIO
TABLE 57. MICROSEMI: COMPANY SNAPSHOT
TABLE 58. MICROSEMI: OPERATING SEGMENTS
TABLE 59. MICROSEMI: PRODUCT PORTFOLIO
TABLE 60. TSMC: COMPANY SNAPSHOT
TABLE 61. TSMC: OPERATING SEGMENTS
TABLE 62. TSMC: PRODUCT PORTFOLIO
TABLE 63. UMC: COMPANY SNAPSHOT
TABLE 64. UMC: OPERATING SEGMENTS
TABLE 65. UMC: PRODUCT PORTFOLIO
TABLE 66. XILINX: COMPANY SNAPSHOT
TABLE 67. XILINX: OPERATING SEGMENTS
TABLE 68. XILINX: PRODUCT PORTFOLIO
TABLE 69. LATTICE: COMPANY SNAPSHOT
TABLE 70. LATTICE: OPERATING SEGMENTS
TABLE 71. LATTICE: PRODUCT PORTFOLIO

LIST OF FIGURES

FIGURE 1. MARKET SEGMENTATION
FIGURE 2. EXECUTIVE SUMMARY
FIGURE 3. TOP IMPACTING FACTORS
FIGURE 4. TOP WINNING STRATEGIES, 2016-2023 (%)
FIGURE 5. TOP COMPANIES AND THEIR STRATEGIES
FIGURE 6. TOP INVESTMENT POCKETS (2016)
FIGURE 7. HIGH BARGAINING POWER OF SUPPLIERS
FIGURE 8. LOW-TO-MODERATE BARGAINING POWER OF BUYERS
FIGURE 9. MODERATE-TO-HIGH THREAT OF SUBSTITUTES
FIGURE 10. MODERATE-TO-HIGH THREAT OF NEW ENTRANTS
FIGURE 11. MODERATE COMPETITIVE RIVALRY
FIGURE 12. MARKET SHARE ANALYSIS OF FPGA COMPANIES, 2016 (%)
FIGURE 13. GLOBAL FPGA MARKET, BY TYPE
FIGURE 14. GLOBAL FPGA MARKET FOR HIGH-END FPGA, 2015-2023 (%)
FIGURE 15. GLOBAL FPGA MARKET FOR MID-END FPGA, 2015-2023 (%)
FIGURE 16. GLOBAL FPGA MARKET FOR LOW-END FPGA, 2015-2023 ($)
FIGURE 17. GLOBAL FPGA MARKET, BY TECHNOLOGY, 2015-2023 (%)
FIGURE 18. GLOBAL FPGA MARKET FOR EEPROM TECHNOLOGY, 2015-2023 (%)
FIGURE 19. GLOBAL FPGA MARKET FOR ANTIFUSE TECHNOLOGY, 2015-2023 (%)
FIGURE 20. GLOBAL FPGA MARKET FOR SRAM TECHNOLOGY, 2015-2023 (%)
FIGURE 21. FPGA MARKET FOR FLASH TECHNOLOGY, 2015-2023 (%)
FIGURE 22. FPGA MARKET FOR OTHER TECHNOLOGIES, 2017-2023 ($MILLION)
FIGURE 23. GLOBAL FPGA MARKET FOR DATA PROCESSING, 2015-2023 (%)
FIGURE 24. GLOBAL FPGA MARKET FOR CONSUMER ELECTRONICS APPLICATION, 2017-2023 (%)
FIGURE 25. GLOBAL FPGA MARKET FOR INDUSTRIAL APPLICATION, 2017-2023 (%)
FIGURE 26. GLOBAL FPGA MARKET FOR MILITARY & AEROSPACE APPLICATION, 2017-2023 ($MILLION)
FIGURE 27. GLOBAL FPGA MARKET FOR AUTOMOTIVE APPLICATION, 2017-2023 ($MILLION)
FIGURE 28. GLOBAL FPGA MARKET FOR TELECOM APPLICATION, 2017-2023 ($MILLION)
FIGURE 29. GLOBAL FPGA MARKET FOR OTHER APPLICATIONS, 2017-2023 (%)
FIGURE 30. NORTH AMERICA FPGA MARKET SHARE, BY COUNTRY, 2015-2023 (%)
FIGURE 31. EUROPE FPGA MARKET SHARE, BY COUNTRY, 2016-2023 (%)
FIGURE 32. ASIA-PACIFIC FPGA MARKET SHARE, BY COUNTRY, 2016-2023 (%)
FIGURE 33. LAMEA FPGA MARKET SHARE, BY REGION, 2016-2023 (%)
FIGURE 34. COBHAM: NET SALES, 2014-2016 ($MILLION)
FIGURE 35. COBHAM: REVENUE SHARE BY SEGMENT, 2016 (%)
FIGURE 36. COBHAM: REVENUE SHARE BY GEOGRAPHY, 2016 (%)
FIGURE 37. CYPRESS: NET SALES, 2014-2016 ($MILLION)
FIGURE 38. CYPRESS: REVENUE SHARE BY SEGMENT, 2016 (%)
FIGURE 39. CYPRESS: REVENUE SHARE BY GEOGRAPHY, 2016 (%)
FIGURE 40. INTEL: REVENUE, 2014-2016 ($MILLION)
FIGURE 41. INTEL: REVENUE SHARE BY SEGMENT, 2016 (%)
FIGURE 42. INTEL: REVENUE SHARE BY GEOGRAPHY, 2016 (%)
FIGURE 43. QUICKLOGIC CORPORATION: NET SALES, 2014-2016 ($MILLION)
FIGURE 44. QUICKLOGIC CORPORATION: REVENUE SHARE BY BUSINESS ACTIVITY, 2016 (%)
FIGURE 45. QUICKLOGIC CORPORATION: REVENUE SHARE BY GEOGRAPHY, 2016 (%)
FIGURE 46. MICROSEMI: NET SALES, 2014-2016 ($MILLION)
FIGURE 47. MICROSEMI: REVENUE BY END MARKETS, 2016 (%)
FIGURE 48. MICROSEMI: REVENUE BY GEOGRAPHY, 2016 (%)
FIGURE 49. TSMC: NET SALES, 2014-2016 ($MILLION)
FIGURE 50. TSMC: REVENUE SHARE BY GEOGRAPHY, 2016 (%)
FIGURE 51. UMC: NET SALES, 2014-2016 ($MILLION)
FIGURE 52. UMC: REVENUE BY SEGMENT, 2016 (%)
FIGURE 53. UMC: REVENUE BY GEOGRAPHY, 2016 (%)
FIGURE 54. XILINX: NET SALES, 2014-2016 ($MILLION)
FIGURE 55. XILINX: REVENUE BY GEOGRAPHY, 2016 (%)
FIGURE 56. LATTICE: NET SALES, 2014-2016 ($MILLION)
FIGURE 57. LATTICE: REVENUE SHARE BY GEOGRAPHY, 2016 (%)

 

The global field programmable gate array (FPGA) market is expected to witness high growth rate as it is flexible, involves reduced development time, and requires low on non-recurrent engineering (NRE) cost. However, these arrays are slower than application specific integrated circuits (ASIC) or other equivalent ICs as well as expensive which impedes the market growth.
A field programmable gate array (FPGA) is an integrated circuit that can be programed later in the field after production. Field programmable gate arrays are similar to programmable read-only memory (PROM); however, they possess wider and vast potential.

The field programmable gate array market signifies a promising picture for the semiconductor industry. The current business scenario has witnessed an increase in the demand for FPGAs, particularly in the telecommunications and industrial applications. Market players are adopting innovative techniques in an effort to provide customers with advanced and innovative product offerings.

Achronix Semiconductor Corporation, Cobham PLC, Intel Corporation, Taiwan Semiconductor Manufacturing Company Limited (TSMC), United Microelectronics Corporation (UMC), Cypress Semiconductors Corporation, Lattice Semiconductor, Microsemi Corporation, QuickLogic Corporation, and     Xilinx Inc. are key market players that occupy a significant revenue share in the FPGA market.

 

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