Field Programmable Gate Array (FPGA) Market Outlook – 2030
The global field programmable gate array market was valued at $7.18 billion in 2020, and is projected to reach $15.89 billion by 2030, registering a CAGR of 8.4% from 2021 to 2030.
Field programmable gate array architecture (FPGA) is a semiconductor device that is built around a matrix of configurable logic blocks (CLBs) linked via programmable interconnects. FPGA is an integrated circuit that can be programed later in the field after manufacturing. Field programmable logic array is 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 in reducing the cost involved in buying a new machine with the change in process.
FPGA is flexible, efficient, requires less power than microprocessor, needs less development time, and incurs low on non-recurrent engineering (NRE) cost. These factors boost the 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 field programmable gate array market forecast. However, these arrays are expensive and slower than application specific integrated circuits (ASIC) or other equivalent ICs. The design process is complex, which limits the field programmable gate array market trends.
The design cycle of the FPGA is simple and attributable to the software that handles much of the placement, routing, and timing. In addition, the required manual intervention is less. Moreover, FPGA design flow eliminates the complex and time-consuming floor planning, place & route, and time analysis, which accelerates the global FPGA market analysis.
The value chain of field programmable gate array market includes various stakeholders such as manufacturers of components, semiconductor manufacturers, original equipment manufacturers and service providers. Each of these players share a specific value at their point of operation, which, in turn, contributes to the competitive value of the product. The R&D activities, innovations, marketing strategies, and aesthetics concerns enhance the overall value associated with the end-deliverable by each of the market players.
Segment Overview
The field programmable gate array market is segmented into technology, application, type, and region. On the basis of technology, it is segmented into EEPROM, Antifuse, SRAM, flash, and others (EPROM and PROM). By application, it is segmented into data processing, consumer electronics, industrial, military & aerospace, automotive, telecom, and others. By type, it is classified into high-end, mid-end, and low-end FPGA. Region wise, the market is analyzed across North America, Europe, Asia-Pacific, and LAMEA.
Top Impacting Factors
The significant impacting factors for the growth of the field programmable gate array industry include low/no non-recurring expenses, reusability, simple design cycle, high power consumption, and surge in demand for higher bandwidth devices for high-end applications. These factors are anticipated to either drive or hamper the market.
By Type
Low End FPGA segment is projected as one of the most lucrative segments.
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.
By Technology
Flash segment is projected as one of the most lucrative segments.
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 aid the designer in reducing 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 power required when programming a device until programming is complete; post-programmed static power consumption, which is the power being consumed by the device with a “zero MHz” frequency; and dynamic power consumption, which is the incremental power consumed by a nonzero frequency component. This power also translates to significant system cost and, in turn, hampers the field programmable gate array market growth.
By Application
Consumser Electronics segment is projected as one of the most lucrative segments.
Reduced Power Consumption And Higher Bandwidth Requirement In High-end Applications
Reduction in power consumption and higher bandwidth are the two dominant requirements in designing next-generation high-end applications. The global trend across multiple markets is for higher bandwidth in the same footprint at the same or lower power and cost. Numerous factors need to be considered while planning a new FPGA family to ensure that new devices can address the power and performance requirements of the targeted applications in various market segments. Such factors include designing the right architecture, selecting the right process technology, applying the right software power optimization, and enabling easier and power-efficient system-level design. Thus, designing next-generation FPGAs to address the current trend of higher bandwidth and reduced power consumption present lucrative opportunities for field programmable gate array industry.
By Region
Asia-Pacific would exhibit the highest CAGR of 10.9% during 2020-2030
Competitive Analysis
The key players mentioned in the report 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. These key players have adopted strategies, such as product portfolio expansion, mergers & acquisitions, agreements, geographical expansion, and collaborations to enhance their market penetration.
Key Benefits for Stakeholders
- This study comprises analytical depiction of the field programmable gate array market size, opportunity, current trends, and future estimations to depict imminent investment pockets.
- The overall the field programmable gate array market analysis is determined to understand profitable trends to gain a stronger foothold.
- The report presents information related to key drivers, restraints, the field programmable gate array market size, and opportunities with a detailed impact analysis.
- The field programmable gate array market outlook forecast is quantitatively analyzed from 2020 to 2030 to benchmark the financial competency.
- The Porter’s five forces analysis illustrates potency of buyers and the market share of key vendors.
- The report includes the market trends and the field programmable gate array market share of key vendors.
Field Programmable Gate Array Market Report Highlights
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Analyst Review
According to the insights of the CXOs of leading companies, 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. So far, high-end FPGAs held a major share of the total market. Among the technologies, the SRAM exhibited the highest revenue in 2020, while the telecommunication application dominated the global market among other applications. Region wise, Asia-Pacific exhibits the highest revenue in the market. On the other hand, LAMEA is expected to grow at highest CAGR during the forecast period predicting a lucrative market growth for FPGAs.
Asia-Pacific region will dominate the market by the end of 2030.
The field programmable gate array market is projected to reach $15.89 billion by 2030.
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The field programmable gate array market is estimated to grow at a CAGR of 8.4% from 2021 to 2030.
Great potential for reduction of cost and development of security level using the field programmable gate array.
On the basis of top growing big corporations, we select top 10 players.
The field programmable gate array market is segmented on the basis of technology, application, type, and region.
The key growth strategies of FPGA market players include product portfolio expansion, mergers & acquisitions, agreements, geographical expansion, and collaborations.
The key players profiled in the report include Achronix Semiconductor Corporation, Altera Corporation, ARM Ltd., Atmel Corporation, and many more.
Low End FPGA segment would grow at a highest CAGR of 9.3% during the forecast period.
The field programmable gate array market is estimated to grow at a CAGR of 8.4% from 2021 to 2030.
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