For a long time, the cure for diabetes type 1 and type 2 has relied on agonizing insulin shots for patients or insulin infusion via mechanical pumps. Regarding this, experts have been creating artificial pancreatic beta cells with the he…
Market Overview of Global Fpga in Telecom market:
According to our latest research, the global Fpga in Telecom market looks promising in the next 5 years. As of 2022, the global Fpga in Telecom market was estimated at USD 2502.77 million, and it's anticipated to reach USD 5050.37 million in 2028, with a CAGR of 12.41% during the forecast years.
The Field-programmable gate array (FPGA) is an application-specific integrated circuit that is supposed to implement logical functions. To implement custom hardware functionality, the field-programmable gate array uses pre-built programmable routing channels and pre-built logic blocks that ultimately depend upon the system developer. With the help of Hardware Description Language (HDL) such as Verilog and VHDL, a field-programmable gate array is programmed. FGPA is designed to be programmed by customer after manufacturing and have numerous applications within telecom such as optical transport network, packet switching and processing.
Severe disruptions to global markets caused by Russia's war on Ukraine have exposed vulnerabilities to the security of the supply of raw materials critical for industrial production and for the green transition. The Russia-Ukraine war has the potential to exacerbate FPGA supply chain issues and the chip shortage that has impacted the industry for the past two years. These supply chain vulnerabilities are the result of export restrictions, bilateral dependencies, a lack of transparency and persistent market asymmetries, including the concentration of production in just a few countries. For countries affected by supply chain vulnerabilities, there is potential to diversify sourcing through expanded production and accessing known critical raw materials reserves. A collective and coordinated approach among OECD countries can contribute to economic security, while preserving the benefits of open markets and a rules-based international trading system.
Growing demand form telecom industry
In the telecom system, there is a huge need for a field-programmable gate array and its feature of proprietary functionality helps in rising the application of FPGA in the telecom sector. The increasing demand for field-programmable gate array in the FPGA in Telecom Sector Market. It is mainly used in applications which has networking and telecom system like an optical transport network.
Powerful function and benefits of FPGA in telecom
As compared to the other modern microprocessors, FPGA allows higher processing speed and power that gives better response times that further leads to improvement in overall performance. FPGA in Telecom Market can be reused and reprogrammed which makes it more flexible and reliable to use in the telecom sector. One can easily modify it and can use it to create prototypes according to the need of the requirements.
High technical barriers
FPGA is an industry with high technical barriers. Different from general IC design enterprises, FPGA companies usually need to develop EDA software suitable for their own hardware. Because of the complexity of FPGA layout and wiring, it is difficult to design hardware, and with the collaborative development of software and hardware, the difficulty of system engineering is upgraded.
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.
Increase in demand for FPGA security due to telecommunication industry
The telecommunications industry is one of the most promising, with high demand for FPGAs. The global telecom business is rising due to increased investments and developments in communication infrastructure in both developed and developing countries. IoT, Al, and edge computing technologies are driving a paradigm shift in customer needs and preferences, and they are presenting both opportunities and difficulties for telecoms firms.
5G brings opportunities to the industry
Next generation communication relies on standardized protocols, heterogeneous architectures and advanced technologies that are envisioned to bring ubiquitous and seamless connectivity. This evolution of communication will not only improve the performance of the existing networks but will also enables various applications in other fields while integrating different heterogeneous systems.
Region Overview:
In global comparison, a significant portion of the revenue was generated in China (35.49% in 2021).
Company Overview:
Xilinx
Xilinx is the inventor of the FPGA, programmable SoCs, and now, the ACAP. Xilinx, Inc. is an American technology company that is primarily a supplier of programmable logic devices. The company invented the field-programmable gate array (FPGA). It is the semiconductor company that created the first fabless manufacturing model. AMD announced its acquisition of Xilinx in October 2020.
Intel Corporation
Intel Corporation is an American multinational corporation and technology company headquartered in Santa Clara, California, in Silicon Valley. Intel supplies microprocessors for computer system manufacturers such as Lenovo, HP, and Dell. Intel also manufactures motherboard chipsets, network interface controllers and integrated circuits, flash memory, graphics chips, embedded processors and other devices related to communications and computing.
Xilinx is one of the major players operating in the Fpga in Telecom market, holding a share of 43.51% in 2022.
Segmentation Overview:
SRAM Programmed FPGA
SRAM programming involves a small static RAM bit for each programming element. Writing the bit with a zero turns off a switch, while writing with a one turns on a switch. Another method involves an antifuse that consists of a microscopic structure that, unlike a regular fuse, normally makes no connection. A large amount of current during programming of the device causes the two sides of the antifuse to connect. A third and relatively new method uses flash EPROM bits for each programming element. The advantages of SRAM-based FPGAs - the most common programming technology by far - is that they use a standard fabrication process that chip fabrication plants are always optimizing for better performance. Since the SRAMs are reprogrammable, the FPGAs can be reprogrammed any number of times, even while they are in the system, just like writing to a normal SRAM. SRAM devices can easily use the internal SRAMs as small memories in the design.
Antifuse Programmed FPGA
The advantages of antifuse FPGAs are that they are non-volatile and the delays due to routing are very small, so they tend to be faster. Antifuse FPGAs tend to require lower power and they are better for keeping your design information out of the hands of competitors because they do not require an external device to program them upon power-up as SRAM devices do. The disadvantages are that they require a complex fabrication process, they require an external programmer to program them, and once they are programmed, they cannot be changed.
EEPROM Programmed FPGA
The Electrically Erasable Programmable Read-Only Memory (EEPROM)-based FPGAs are likely to witness sluggish growth over the forecast period owing to rapid increase in usage of newer technologies such as SRAM and Flash. The slow growth over the next few years could be attributed to unceasing improvements in the new technologies, which are nonvolatile in nature, more flexible with respect to application requirements, and less power consuming.
Among different product types, SRAM Programmed FPGA segment is anticipated to contribute the largest market share in 2027.
Application Overview:
Commercial
The commercial sector accounted for the largest revenue share in 2021 and is anticipated to maintain its dominance over the forecast period. Vast usage of field programmable gate arrays in wireless communication and telecommunication sectors for several applications such as data packet switching, packet processing, and optical transport network is propelling the FPGA market growth.
Defense/Aerospace
The defense/aerospace segment is expected to grow at a substantial rate over the forecast period. Emergence of embedded field programmable gate array has particularly favored the defense/aerospace industry by offering even better integration, reliability, and low power option over the traditional FPGAs. FPGA manufacturers are innovating and developing state-of-the-art products for the growing need of this sector.
By application, the Commercial segment occupied the biggest share from 2018 to 2022.
This report covers a research time span from 2018 to 2028, and presents a deep and comprehensive analysis of the global Fpga in Telecom market, with a systematical description of the status quo and trends of the whole market, a close look into the competitive landscape of the major players, and a detailed elaboration on segment markets by type, by application and by region.
Key Takeaways from the Global Fpga in Telecom Market Report:
Market Size Estimates: Fpga in Telecom market size estimation in terms of value and sales volume from 2018-2028
Market Trends and Dynamics: Fpga in Telecom market drivers, opportunities, challenges, and risks
Macro-economy and Regional Conflict: Influence of global inflation and Russia & Ukraine War on the Fpga in Telecom market
Segment Market Analysis: Fpga in Telecom market value and sales volume by type and by application from 2018-2028
Regional Market Analysis: Fpga in Telecom market situations and prospects in North America, Asia Pacific, Europe, Latin America, Middle East, Africa
Country-level Studies on the Fpga in Telecom Market: Revenue and sales volume of major countries in each region
Fpga in Telecom Market Competitive Landscape and Major Players: Analysis of 10-15 leading market players, sales, price, revenue, gross, gross margin, product profile and application, etc.
Trade Flow: Import and export volume of the Fpga in Telecom market in major regions.
Fpga in Telecom Industry Value Chain: Fpga in Telecom market raw materials & suppliers, manufacturing process, distributors, downstream customers
Fpga in Telecom Industry News, Policies & Regulations
Key players in the global Fpga in Telecom market are covered in Chapter 12:
Intel Corporation
Achronix
Lattice Semiconductor
Microchip Technology
Xilinx Inc.
In Chapter 2 and Chapter 15.1, based on types, the Fpga in Telecom market from 2018 to 2028 is primarily split into:
SRAM Programmed FPGA
Antifuse Programmed FPGA
EEPROM Programmed FPGA
In Chapter 3 and Chapter 15.2, based on applications, the Fpga in Telecom market from 2018 to 2028 covers:
Commercial
Defense/Aerospace
Others
Geographically, the detailed analysis of consumption, revenue, market share and growth rate of the following regions are covered in Chapter 7, 8, 9, 10, 11, 15.3, 15.4:
North America (Covered in Chapter 7)
United States
Canada
Asia-Pacific (Covered in Chapter 8)
China
Japan
India
South Korea
Southeast Asia
Australia
Others
Europe (Covered in Chapter 9)
Germany
France
UK
Italy
Spain
Russia
Poland
Others
Latin America (Covered in Chapter 10)
Mexico
Brazil
Argentina
Others
Middle East and Africa (Covered in Chapter 11)
GCC Countries
Africa
Others
The data of this research report is mainly obtained from industry associations, magazines, press releases, national customs, annual reports of enterprises, expert interviews, paid databases and other channels with authority. It also provides scientific forecasts of the industry's core development indicators through professional analysis and forecasting models.
In short, whatever role you take in this industry value chain, this report will help you or your company to acquire a systematic and in-depth understanding of the industry.
Chapter Outline
This report consists of 16 chapters. Below is a brief guideline to help you quickly grasp the main contents of each chapter:
Chapter 1 starts the report with an overview of the Fpga in Telecom market, as well as the definitions of the target market and the subdivisions. Through the presented global market size, regional market sizes, and segment market shares, you will be able to draw an overall and comprehensive picture of the market situation. Meanwhile, the research method and data source will be shared in this chapter.
Chapter 2 and Chapter 3 breaks down the market by different types and applications, with historic data presented in metrics of sales volume, revenue, market share and growth rate.
Chapter 4 elaborates on market dynamics and future trends in the industry, which contains an in-depth analysis of market drivers, opportunities, challenges, and risks. Other essential factors that will have a major impact on the market, i.e., industry news and policies in recent years, global inflation, and regional conflict, are also taken into consideration.
Chapter 5 compares the sales volume and revenue of the major regions across the globe, which enables the readers to understand the regional competitive pattern.
Chapter 6 is the analysis of the trade flow. Import volume and export volume are revealed on a regional level.
Chapters 7-11 focus on country-level studies. Data from the major countries in each region are provided, showing the current development of the industry in different countries. Besides, you will also find qualitative trends analysis under global inflation under each of the 6 regions.
Chapter 12 first up presents the competitive landscape by displaying and comparing the revenues, sales volumes, and market shares of the top players in the market, followed by a company-by-company analysis of all the major market participants with introductions of their products, product applications, company profiles, and business overview. In addition, their competitiveness is manifested through numbers of sales volume, revenue, price, gross and gross margin.
Chapter 13 looks into the whole market industrial chain, ranging from the upstream key raw materials and their suppliers to midstream distributors and downstream customers, with influences of global inflation taken into consideration.
Chapter 14 is perfect for those who wish to develop new projects in the industry. This chapter sheds a light on industry entry barriers and gives suggestions on new project investments.
Chapter 15 forecasts the future trend of the market from the perspective of different types, applications, and major regions.
Chapter 16 is the conclusion of the report which helps the readers sum up the main findings and insights.
Years considered for this report:
Historical Years: 2018-2022
Base Year: 2022
Estimated Year: 2023
Forecast Period: 2023-2028