Embedded Processor Market Progresses for Huge Profits by 2028

Allied Market Research, titled, “Embedded Processor Market Size By Type and Application: Global Opportunity Analysis and Industry Forecast, 2021–2028”, the global embedded processor market size was valued at $19.36 billion in 2019, and is projected to reach $32.53 billion by 2028, registering a CAGR of 8.2%. Asia-Pacific is expected to be the leading contributor to the global embedded processor market during the forecast period, followed by North America and Europe.

An embedded processor is a type of microprocessor, which is designed for an operating system to control the electrical and mechanical systems of the microprocessor. Embedded processors are usually simple in design and require minimal power requirements for its computational operations. An embedded processor is especially designed for handling the needs of an embedded system and to handle multiple processors in real time. As embedded system requires low power, they are preferred by various industry verticals as they draw less power from the energy sources.

Embedded processors are usually developed to be integrated in the devices, which are required to handle multiple processors in real time. These processors are in the form of a computer chip that are embedded in various microcontrollers and microprocessors to control various electrical and mechanical systems. These processors are also equipped with features such as storing and retrieving data from the memory. Embedded processors commonly work as a part of a computer system along with memory and other input-output devices.

The global embedded processor market is anticipated to witness significant growth during the forecast period. Factors such as rise in space constraints in semiconductors wafers, increase in demand for smart consumer electronics, and emerging usage of embedded processors in the automotive industry boost the growth of the global market. 

However, high implementation cost of embedded processors in different applications acts as a major restraint hampering the embedded processor industry. Furthermore, increase in popularity of IoT, rise in trend toward electric vehicles, and increase in usage of embedded processors in the biomedical sectors offer lucrative opportunities for the embedded processor market growth globally.

The global embedded processor market share is analyzed by type, application, and region. Based on type, the market is analyzed across microprocessor, microcontrollers, digital signal processor, embedded FPGA, and others. On the basis of application, the market is divided into consumer electronics, automotive & transportation, industrial, healthcare, IT & telecom, aerospace & defense, and others.

Region wise, the embedded processor market trends have been analyzed across North America, Europe, Asia-Pacific, and LAMEA. As per the embedded processor market analysis, Asia-Pacific is leading the market and is expected to be the fastest growing regional segment in the near future, with the highest CAGR. With an increase in demand for high voltage operating devices, organizations across verticals are realizing the importance of embedded processors to ensure efficient power management. 

In addition, North America holds the second largest share in the global market, and is expected to witness significant growth during the forecast period, owing to the extensive adoption of advanced technology by the region. The factors such as rise in demand for smart electronics and proliferation of high-end advanced technologies drive the growth of the market in the region.

COVID-19 Impact Analysis

The COVID-19 has impacted severely on the global electronics and semiconductor sector, due to which production facility as well as new projects have stalled which in turn have the significant demand in the industries. The operations of the production and manufacturing industries have been heavily impacted by the outbreak of COVID-19 disease; thereby, leading to slowdown in the growth of the embedded processor market in 2020. 

Key Findings of the Study

The microprocessor segment is projected to be the major IC type during the forecast period followed by microcontrollers. 

APAC and North America collectively accounted for more than 69.01% of the embedded processor market share in 2019.

The healthcare segment is anticipated to witness highest growth rate during the forecast period.

China was the major shareholder in the Asia-Pacific embedded processor market, accounting for approximately 23.52% share in 2019.

The key players profiled in the report include NXP Semiconductors, Broadcom Corporation, STMicroelectronics, Intel Corporation, Infineon Technologies AG, Analog Devices Inc., Renesas Electronics, Microchip Technology Inc., Texas Instruments, and ON Semiconductor. These players have adopted various strategies such as product launch, acquisition, collaboration, and partnership to expand their foothold in the industry.

Automotive Artificial Intelligence Market Size, Share, Analysis, Forecast, Growth 2032: Rising Demand for Driver Assistance Technologies

The Automotive Artificial Intelligence Market was valued at USD 3.44 billion in 2023 and is expected to reach USD 24.29 billion by 2032, growing at a CAGR of 24.30% from 2024-2032.

The Automotive Artificial Intelligence Market is rapidly transforming the global automotive industry by enabling smarter, safer, and more efficient vehicles. With AI-powered features such as advanced driver-assistance systems (ADAS), predictive maintenance, and autonomous driving, automotive manufacturers are integrating cutting-edge intelligence to meet consumer demands for enhanced safety and connectivity. The integration of AI is not only improving the driving experience but also streamlining operations from production to post-sale services. The Automotive Artificial Intelligence Market is also witnessing a significant shift in business models, as companies invest in AI-based solutions for vehicle personalization, fleet management, and traffic pattern optimization. As consumer expectations evolve, OEMs and tech providers are forming strategic alliances to innovate at scale and accelerate the deployment of AI technologies across both passenger and commercial vehicle segments.

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Market Keyplayers:

Aptiv (Advanced Driver Assistance Systems, Automated Driving Solutions)

Cruise LLC (Autonomous Vehicles, Cruise Origin)

Mobileye (EyeQ Chipsets, Roadbook)

NVIDIA Corporation (Drive PX, Drive AGX)

Qualcomm Technologies, Inc. (Snapdragon Automotive Platform, C-V2X Solutions)

Robert Bosch GmbH (ADAS Sensors, Automated Driving Solutions)

Tesla (Autopilot, Full Self-Driving Software)

The Ford Motor Company (Ford Co-Pilot360, FordPass)

TOYOTA RESEARCH INSTITUTE (Guardian System, Platform for Autonomous Vehicles)

Waymo LLC (Waymo Driver, Waymo One)

Alphabet Inc. (Waymo, AI-Driven Transportation)

Intel Corporation (Mobileye, AI for Autonomous Vehicles)

Microsoft Corporation (Azure Cloud for Automotive, AI for Connected Vehicles)

IBM Corporation (Watson AI for Autonomous Driving, IBM Cloud for Automotive)

BMW AG (BMW iX, BMW ConnectedDrive)

Micron Technology (Automotive Memory Solutions, DRAM for AI Applications)

Xilinx Inc. (Adaptive Computing for Autonomous Vehicles, FPGAs for Automotive)

Harman International Industries Inc. (Harman ExP, Harman Connected Services)

Volvo Car Corporation (Volvo Pilot Assist, Volvo On Call)

Audi AG (Audi AI, Audi Virtual Cockpit)

General Motors Company (Super Cruise, OnStar)

Honda Motor Co. Ltd. (Honda Sensing, Honda Connect)

Hyundai Motor Corporation (Hyundai SmartSense, Hyundai Blue Link)

Daimler AG (Mercedes-Benz MBUX, Autonomous Driving Solutions)

Uber Technologies Inc. (Uber Advanced Technologies Group, Uber Freight)

Didi Chuxing (Didi Autonomous Vehicles, AI for Ride-Hailing)

Mitsubishi Electric (Autonomous Driving Systems, In-Vehicle Networking)

Market Analysis The market is being shaped by increasing digital transformation across the automotive value chain and a growing push for semi-autonomous and autonomous vehicles. Governments worldwide are supporting AI adoption through favorable regulations and investments in smart infrastructure. The need for real-time decision-making, improved vehicle diagnostics, and efficient supply chain management has led to the rise in AI adoption in embedded systems and cloud platforms. Emerging economies are also playing a pivotal role in the expansion of this market, driven by rising urbanization and demand for smart mobility solutions.

Market Trends

Rising integration of AI in electric vehicles and connected car platforms

Increased demand for real-time road hazard detection and predictive maintenance

Growing adoption of AI chips and neural networks in automotive hardware

Development of AI-enabled infotainment systems with voice and facial recognition

Strategic collaborations between automotive giants and AI technology firms

Rapid growth of autonomous driving pilot programs and simulations

AI-driven analytics for personalized customer experience and usage-based insurance

Market Scope The scope of the Automotive Artificial Intelligence Market spans across various components such as software, hardware, and services, addressing applications like human–machine interface, semi-autonomous driving, and vehicle health monitoring. AI is transforming the entire lifecycle of the vehicle—from design and manufacturing to operations and post-sale services. Both luxury and economy vehicle manufacturers are exploring AI capabilities to differentiate offerings and meet the demands of tech-savvy consumers. The market’s reach covers passenger vehicles, commercial fleets, and shared mobility platforms globally.

Market Forecast The market is set for a dynamic growth trajectory as the evolution of AI continues to intersect with mobility and transportation innovation. With the ongoing advancements in machine learning, deep learning, and computer vision, AI applications in automotive systems are expected to become more autonomous, predictive, and self-learning. Strategic investments, increasing R&D efforts, and regulatory support will further fuel innovation and global market penetration. As the industry advances toward Level 4 and Level 5 autonomy, AI will remain a core enabler of futuristic mobility solutions.

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Conclusion As the automotive world shifts gears towards an intelligent future, the Automotive Artificial Intelligence Market is steering innovation, safety, and user-centric design. Businesses that align their strategies with AI-driven trends will be best positioned to lead the transformation.

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Embedded Field-Programmable Gate Array (FPGA) Market Comprehensive Analysis and Future Forecast

The market, valued in 2023, is expected to experience significant growth by 2032, driven by a strong compound annual growth rate (CAGR) from 2024 to 2032.

Analysis of the Market | Research Report [2024-2032] - https://www.globalmarketstatistics.com/market-reports/embedded-field-programmable-gate-array-fpga-market-11493

The "Embedded Field-Programmable Gate Array (FPGA) Market" Research Report provides a comprehensive analysis of industry trends, growth, and opportunities, categorized by types (Eeprom, Antifuse, Sram) and regional outlook. It includes forecasts spanning from 2024 to 2032.

Browse the detailed TOC of the Embedded Field-Programmable Gate Array (FPGA) Market report, featuring comprehensive tables, figures, and charts that offer exclusive data, vital statistics, key trends, and insights into the competitive landscape of this niche sector.

Who is the largest manufacturers of Embedded Field-Programmable Gate Array (FPGA) Market worldwide?

Intel (U.S.)

Xilinx (U.S.)

Lattice Semiconductor (U.S.)

Microchip Technology (U.S.)

Achronix (U.S.)

Flex Logix (U.S.)

Menta (France)

Efinix (Malaysia)

NanoXplore (Canada)

QuickLogic (U.S.)

Market Analysis | Report [2024-2032] @ - https://www.globalmarketstatistics.com/market-reports/embedded-field-programmable-gate-array-fpga-market-11493

Short Description About Embedded Field-Programmable Gate Array (FPGA) Market:

The global Embedded Field-Programmable Gate Array (FPGA) Market market is poised for remarkable growth during the forecast period of 2024 to 2032. After demonstrating steady expansion in 2023, the market is set to accelerate further, driven by the rising adoption of innovative strategies and initiatives by leading industry players, ensuring strong growth momentum throughout the projected timeline.

North America, especially The United States, will still play an important role which cannot be ignored. Any changes from United States might affect the development trend of Rosin Ester. The market in North America is expected to grow considerably during the forecast period. The high adoption of advanced technology and the presence of large players in this region are likely to create ample growth opportunities for the market.

Europe also play important roles in global market, with a magnificent growth in CAGR During the Forecast period 2024-2032.

Embedded Field-Programmable Gate Array (FPGA) Market size is projected to reach Multimillion USD by 2032, In comparison to 2024, at unexpected CAGR during 2024-2032.

Despite the presence of intense competition, due to the global recovery trend is clear, investors are still optimistic about this area, and it will still be more new investments entering the field in the future.

This report focuses on the Embedded Field-Programmable Gate Array (FPGA) Market in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

The report focuses on the Embedded Field-Programmable Gate Array (FPGA) Market size, segment size (mainly covering product type, application, and geography), competitor landscape, recent status, and development trends. Furthermore, the report provides detailed cost analysis, supply chain.

Technological innovation and advancement will further optimize the performance of the product, making it more widely used in downstream applications. Moreover, Consumer behavior analysis and market dynamics (drivers, restraints, opportunities) provides crucial information for knowing the Co-Living market Research Overview | [2024-2032] - https://www.globalmarketstatistics.com/market-reports/embedded-field-programmable-gate-array-fpga-market-11493

What are the types of Embedded Field-Programmable Gate Array (FPGA) Market available in the Market?

Based on Product Types the Market is categorized into Below types that held the largest Embedded Field-Programmable Gate Array (FPGA) Market share In 2023.

Eeprom

Antifuse

Sram

Which regions are leading the Embedded Field-Programmable Gate Array (FPGA) Market?

North America (United States, Canada and Mexico)

Europe (Germany, UK, France, Italy, Russia and Turkey etc.)

Asia-Pacific (China, Japan, Korea, India, Australia, Indonesia, Thailand, Philippines, Malaysia and Vietnam)

South America (Brazil, Argentina, Columbia etc.)

Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Industry Analysis | [2024-2032] - https://www.globalmarketstatistics.com/market-reports/embedded-field-programmable-gate-array-fpga-market-11493

This Embedded Field-Programmable Gate Array (FPGA) Market Research/Analysis Report Contains Answers to your following Questions

What are the global trends in the Embedded Field-Programmable Gate Array (FPGA) Market? Would the market witness an increase or decline in the demand in the coming years?

What is the estimated demand for different types of products in Rosin Ester? What are the upcoming industry applications and trends for Embedded Field-Programmable Gate Array (FPGA) Market?

What Are Projections of Global Embedded Field-Programmable Gate Array (FPGA) Market Industry Considering Capacity, Production and Production Value? What Will Be the Estimation of Cost and Profit? What Will Be Market Share, Supply and Consumption? What about Import and Export?

Where will the strategic developments take the industry in the mid to long-term?

What are the factors contributing to the final price of Rosin Ester? What are the raw materials used for Embedded Field-Programmable Gate Array (FPGA) Market manufacturing?

How big is the opportunity for the Embedded Field-Programmable Gate Array (FPGA) Market? How will the increasing adoption of Embedded Field-Programmable Gate Array (FPGA) Market for mining impact the growth rate of the overall market?

How much is the global Embedded Field-Programmable Gate Array (FPGA) Market worth? What was the value of the market In 2023?

Who are the major players operating in the Embedded Field-Programmable Gate Array (FPGA) Market? Which companies are the front runners?

Which are the recent industry trends that can be implemented to generate additional revenue streams?

What Should Be Entry Strategies, Countermeasures to Economic Impact, and Marketing Channels for Embedded Field-Programmable Gate Array (FPGA) Market Industry?

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Detailed TOC of Global Embedded Field-Programmable Gate Array (FPGA) Market Research Report, 2024-2032

1 Market Overview 1.1 Product Overview and Scope of Rosin Ester 1.2 Classification of Embedded Field-Programmable Gate Array (FPGA) Market by Type 1.2.1 Overview: Global Embedded Field-Programmable Gate Array (FPGA) Market Size by Type: 2017 Versus 2022 Versus 2032 1.2.2 Global Embedded Field-Programmable Gate Array (FPGA) Market Revenue Market Share by Type in 2022 1.3 Global Embedded Field-Programmable Gate Array (FPGA) Market by Application 1.3.1 Overview: Global Embedded Field-Programmable Gate Array (FPGA) Market Size by Application: 2017 Versus 2022 Versus 2032 1.4 Global Embedded Field-Programmable Gate Array (FPGA) Market Size and Forecast 1.5 Global Embedded Field-Programmable Gate Array (FPGA) Market Size and Forecast by Region 1.6 Market Drivers, Restraints and Trends 1.6.1 Embedded Field-Programmable Gate Array (FPGA) Market Drivers 1.6.2 Embedded Field-Programmable Gate Array (FPGA) Market Restraints 1.6.3 Embedded Field-Programmable Gate Array (FPGA) Market Trends Analysis

2 Company Profiles 2.1 Company 2.1.1 Company Details 2.1.2 Company Major Business 2.1.3 Company Embedded Field-Programmable Gate Array (FPGA) Market Product and Solutions 2.1.4 Company Embedded Field-Programmable Gate Array (FPGA) Market Revenue, Gross Margin and Market Share (2020,2021,2022, and 2023) 2.1.5 Company Recent Developments and Future Plans

3 Market Competition, by Players 3.1 Global Embedded Field-Programmable Gate Array (FPGA) Market Revenue and Share by Players (2020,2021,2022, and 2023) 3.2 Market Concentration Rate 3.2.1 Top3 Embedded Field-Programmable Gate Array (FPGA) Market Players Market Share in 2022 3.2.2 Top 10 Embedded Field-Programmable Gate Array (FPGA) Market Players Market Share in 2022 3.2.3 Market Competition Trend 3.3 Embedded Field-Programmable Gate Array (FPGA) Market Players Head Office, Products and Services Provided 3.4 Embedded Field-Programmable Gate Array (FPGA) Market Mergers and Acquisitions 3.5 Embedded Field-Programmable Gate Array (FPGA) Market New Entrants and Expansion Plans

4 Market Size Segment by Type 4.1 Global Embedded Field-Programmable Gate Array (FPGA) Market Revenue and Market Share by Type (2017-2023) 4.2 Global Embedded Field-Programmable Gate Array (FPGA) Market Forecast by Type (2023-2031)

5 Market Size Segment by Application 5.1 Global Embedded Field-Programmable Gate Array (FPGA) Market Revenue Market Share by Application (2017-2023) 5.2 Global Embedded Field-Programmable Gate Array (FPGA) Market Forecast by Application (2023-2032)

6 Regions by Country, by Type, and by Application 6.1 Embedded Field-Programmable Gate Array (FPGA) Market Revenue by Type (2017-2032) 6.2 Embedded Field-Programmable Gate Array (FPGA) Market Revenue by Application (2017-2032) 6.3 Embedded Field-Programmable Gate Array (FPGA) Market Size by Country 6.3.1 Embedded Field-Programmable Gate Array (FPGA) Market Revenue by Country (2017-2031) 6.3.2 United States Embedded Field-Programmable Gate Array (FPGA) Market Size and Forecast (2017-2032) 6.3.3 Canada Embedded Field-Programmable Gate Array (FPGA) Market Size and Forecast (2017-2032) 6.3.4 Mexico Embedded Field-Programmable Gate Array (FPGA) Market Size and Forecast (2017-2032)

7 Research Findings and Conclusion

8 Appendix 8.1 Methodology 8.2 Research Process and Data Source 8.3 Disclaimer

9 Research Methodology

10 Conclusion

Continued….

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Unveiling the Future: Projected Trends in the Embedded System Market Through 2032

Over the course of the projected period, it is predicted that the market for embedded systems will grow at a CAGR of 5.8%. By 2022 and 2032, it is projected that the market will be worth US$ 86,450.3 million and US$ 1,52,544.6 million, respectively.

The embedded system is quickly gaining popularity on a global scale because it is widely utilised in manufacturing for a range of functions, including temperature control, driving, networking machinery, managing the speed of assembly lines, and other activities.

The fact that an embedded system is often used for managing, monitoring, and assisting machinery, plant, and equipment operations may be the reason for this.

The term “embedded system market” describes the market for computer systems that are created to carry out certain tasks within bigger systems, such as machinery or electronic gadgets. Embedded systems are designed for low power consumption, small size, and real-time operation and often include a microprocessor or microcontroller along with other hardware and software components.

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The growing demand for smart and connected devices across numerous industries, including automotive, healthcare, industrial automation, and consumer electronics, is what propels the market for embedded systems. These sectors make use of embedded systems to increase productivity and performance while enabling features like communication, control, and monitoring.

Based on the hardware components employed, such as microcontrollers, digital signal processors (DSPs), field programmable gate arrays (FPGAs), and application-specific integrated circuits (ASICs), the embedded system market can be divided into many groups. The most often utilized embedded system components are microcontrollers because they provide an affordable and adaptable solution for a variety of applications.

Competitive Landscape

Key Players Revolutionizing the Embedded Systems Market

The market is consolidated by key players present all around the region. These players play a vital role in the growth of the market by applying various marketing strategies to acquire maximum revenue. Some of the common methodologies are product launches, mergers, and collaborations.

Recent Developments in the Embedded System Market

In December 2019, a company named NXP Semiconductors acquired Marvell Company’s Wi-Fi and Bluetooth connectivity for US$ 1.8 Billion. The deal was taken place to improve the connectivity and scalable processing to their consumers.

In November 2019, STMicroelectronics launches its new product STM32WB, which is a wireless microcontroller that can support 5.0 technology Bluetooth. It provides high security and is affordable.

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Key Segments in the Embedded Systems Market

By Type:

Embedded Hardware

Embedded Software

By End Use Industry:

Automotive

Industrial

Healthcare

Consumer Electronics

Energy

Communication

Aerospace & Defence

By Region:

North America

Latin America

Asia Pacific

Middle East and Africa (MEA)

Europe

FPGA Industry worth $25.8 billion by 2029

The report "FPGA Market by Configuration (Low-end FPGA, Mid-range FPGA, High-end FPGA), Technology (SRAM, Flash, Antifuse), Node Size (≤16 nm, 20-90 nm, >90 nm), Vertical (Telecommunications, Data Center & Computing, Automotive) & Region - Global Forecast to 2029" The FPGA market is projected to grow from USD 12.1 billion in 2024 and is estimated to reach USD 25.8 billion by 2029; it is expected to grow at a Compound Annual Growth Rate (CAGR) of 16.4% from 2024 to 2029.

The growth of the FPGA market is driven by the growing utilization of Artificial Intelligence (AI) and Internet of Things (IoT) technologies across diverse applications, incorporating FPGAs into advanced driver assistance systems (ADAS), and the rising count of data centers and facilities for high-performance computing (HPC).

By node size, the ≤16 nm is projected to grow at a high CAGR of the FPGA market during the forecast period.

The high growth of the ≤16 nm FPGA can be attributed to its compact size and speedy processing abilities. FPGAs with ≤16 nm node size boast higher logic density than conventional FPGA devices. These FPGAs are tailored to handle high-bandwidth workloads such as high-performance computing (HPC), artificial intelligence (AI), and machine learning. In addition, these FPGAs can eliminate the standard performance issues that affect traditional FPGA devices available in the market. These FPGAs come at a higher cost and have a more limited supply chain. They boast features such as high-speed transceivers and specialized IP cores.

Flash technology in the FPGA market is expected to have the highest CAGR during the forecast period.

Flash-based FPGAs utilize non-volatile flash memory for configuration data storage, ensuring resilience and data retention during power cycling. Their advantages include non-volatility, lower power consumption, increased reliability, and inherent security features like encryption. Flash-based FPGAs find applications in embedded systems with infrequent reprogramming needs, cost-sensitive applications, low-power devices, and security-critical scenarios. Their cost-effectiveness and security features make them attractive for various applications, ranging from industrial controllers to security-sensitive environments.

Data Center & Computing segment will account for highest CAGR during the forecast period.

The data center & computing is projected to be the fastest-growing vertical from 2023 to 2028. This growth is attributed to the increasing number of data center facilities worldwide. For instance, in May 2023, Scala Data Centers (Brazil) launched the second-largest vertical data center in Latin America, the 6MW IT SGRUTB05, located in the Tamboré Campus, São Paulo state, Brazil. The facility demonstrated Scala's strategy to accommodate significant IT infrastructure growth securely. FPGAs are ideal for compute-intensive workloads in data center applications. As a result, establishing new data centers will provide market opportunities for FPGA providers in the future.

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Asia Pacific is poised to have significant growth in the FPGA market by 2029.

The FPGA market in the Asia Pacific region is experiencing significant growth, primarily fueled by the telecommunications sector's rapid advancement in 5G technology. China and Japan are leading in 5G deployment, closely followed by India, driving the demand for FPGAs. The APAC market is driven by the telecom sector's high-speed internet needs and the increasing demand for advanced network infrastructure. With their reprogrammable nature, FPGAs are well-suited for the complex data processing tasks associated with 5G applications, making them crucial in this evolving landscape. As per GSMA's "The Mobile Economy Asia Pacific 2023" report, the anticipated economic contribution of 5G to the Asia Pacific region in 2030 stands at a significant USD 133 billion, comprising over 13% of the total economic influence of mobile technology.

Key Players

Key companies operating in the FPGA market are Advanced Micro Devices, Inc. (Formerly Xilinx, Inc.) (US), Intel Corporation (US), Microchip Technology Inc., (US), Lattice Semiconductor Corporation (US), Achronix Semiconductor Corporation (US), QuickLogic Corporation (US), and FlexLogix (US), among others.

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AMD Kria K24 SOM Edge Tech

Innovation with AMD’s Kria K24 SOM

The most recent additions to the Kria lineup of adaptive System-on-Modules (SOMs) and development kits are the AMD Kria K24 System-on-Module (SOM) and KD240 Drives Starter Kit. The AMD Kria K24 SOM is aimed for cost-concerned industrial and commercial edge applications and provides power-efficient computation in a compact form factor. The K24 uses half the power1 of the bigger, connector-compatible Kria K26 SOM despite being half the size of a credit card thanks to advanced InFO (Integrated Fan-Out) packaging.

For powering electric motors and motor controllers used in compute-intensive digital signal processing (DSP) applications at the edge, the K24 SOM offers excellent determinism and low latency. Electric motor systems, robotics for industrial automation, power generation, elevators and trains, surgical robots, medical equipment like MRI beds, and EV charging stations are a few examples of important uses.

The products provide a smooth route to production deployment with the K24 SOM when used in conjunction with the KD240 Drives Starter Kit, a motor control-based development platform that is ready to use right out of the box. Users don’t need to be experts in FPGA programming to rapidly get up and running, accelerating time to market for motor control and DSP applications.

“The AMD Kria K24 SOM and KD240 development platform build on the breakthrough design experience introduced by the Kria SOM portfolio, offering solutions for robotics, control, vision AI, and DSP applications,” stated Hanneke Krekels, corporate vice president, Core Vertical Markets, AMD. “System developers must balance cutting costs with addressing the rising expectations for performance and power efficiency. For a quick time to market, the K24 SOM contains the essential parts of an embedded processing system on a single production-ready board while yet delivering outstanding performance per watt.

In many companies, robotic equipment that powers assembly lines and other machinery is powered by hundreds of motors. According to estimates, electric motors and motor-driven systems account for over 70% of all the electrical energy used globally by the industrial sector. Therefore, even a 1% increase in a drive system’s efficiency may have a big influence on operating costs and the environment.

Greg Needel, CEO of Rev Robotics, said: “The AMD Kria SOM portfolio has helped make reliable hardware for robotics and industrial edge applications accessible to the masses and we’re excited to see the portfolio extended with the new K24 SOM and KD240 Starter Kit.” “With Kria SOMs, we’re able to adapt to changing software and hardware requirements, simplify the development of even advanced control loop algorithms, and build really cool things for both commercial and STEM educational customers.”

Accelerated Design Cycles and Simplicated DSP Development

The K24 SOM has a specially created Zynq UltraScale+ MPSoC chip, and the accompanying KD240 starting kit is an FPGA-based motor control kit that costs less than $400. In contrast to previous processor-based control kits, the KD240 offers simple access for entry-level developers, allowing them to start at a more advanced stage in the design cycle.

The K24 SOM supports more design processes than any previous version and is certified for usage in industrial applications. Included in this are well-known design tools like Matlab Simulink and programming languages like Python, which has a broad ecosystem that supports the PYNQ framework. Additionally supported are Docker and Ubuntu. The AMD Vitis motor control libraries are also available to software developers, preserving compatibility for conventional development processes.

AMD launched the first App Store for edge apps with the Kria K26 SOM launch. With the release of the KD240 Starter Kit, AMD becomes the first company to provide pre-built motor control software, enabling customers to develop industrial solutions that are dependable, accessible, and equipped with cutting-edge security features.

For an improved ramp-up experience for developers, the KD240 is supported by an optional Motor Accessory Pack (MACCP), with more motor kits coming out in the future that may be ordered separately.

A Family of Scalable SOMs is available

By using Kria SOMs, developers may concentrate on offering unique, value-added functionality rather than spending time and resources on extensive design work around the chosen silicon device.

System architects may easily switch between the K24 and K26 SOM without changing boards thanks to connector compatibility, which allows power, performance, space, and cost to be balanced for systems that are energy-efficient.

K24 SOMs are designed for 10-year industrial lifecycles and are available in both commercial and industrial variants. The industrial-grade SOM incorporates ECC-protected LPDDR4 memory for high-reliability systems in addition to compatibility for wider temperature ranges.

Orders for the K24 SOM (commercial and industrial variants) and KD240 Drives Starter Kit may be made directly via the manufacturers’ website or through distributors all around the globe. The K24 industrial version is anticipated to launch in Q4, while the commercial version is already shipping.

Embedded Computing Market to Scale New Heights as Market Players Focus on Innovations 2022 – 2027

Latest business intelligence report released on Global Embedded Computing Market, covers different industry elements and growth inclinations that helps in predicting market forecast. The report allows complete assessment of current and future scenario scaling top to bottom investigation about the market size, % share of key and emerging segment, major development, and technological advancements. Also, the statistical survey elaborates detailed commentary on changing market dynamics that includes market growth drivers, roadblocks and challenges, future opportunities, and influencing trends to better understand Embedded Computing market outlook.

List of Key Players Profiled in the study includes market overview, business strategies, financials, Development activities, Market Share and SWOT analysis are Atmel Corporation (United States),Microchip Technology, Inc. (United States),Intel Corporation (United States),Renesas Electronics Corporation (Japan),Fujitsu Limited (Japan),Arm Holdings Plc. (United Kingdom),International Business Machines Corporation (United States),Microsoft Corporation (United States),Qualcomm Incorporated (United States),Texas Instruments Incorporated (United States),SSI Embedded Systems Programming, Inc. (United States),Linux Tech Inc. (United States),Infineon Technologies AG (Germany)

An embedded computing system is a combination of software and hardware aimed to perform specific functions in electronic equipment. Some of the major features of the embedded computing system are low energy consumption, high speed, reliability, adaptability, reusability, and others. Further, it includes the serial communication part, storage, timers, and system application circuits. Embedded computing market is growing owing to increasing digitization in healthcare & industrial automation with the integration of artificial intelligence and the internet of things (IoT). Key Market Trends: Development in the Internet of Things (IoT)

Emphasizing On Automation of Processes among Numerous Industries

Opportunities: Technological Advancement in Embedded Computing Solutions

Increasing Demand from the Automotive, Healthcare, and Defense Sector

Market Growth Drivers: The emergence of Artificial Intelligence in Embedded Computing

Increasing Applications of Embedded Computing In Smart Appliances

Challenges: Complexity Involved in the Design and Process Configuration of Embedded Computing

The Global Embedded Computing Market segments and Market Data Break Down by Type (Hardware, Software, Others), Hardware (Microprocessor, Microcontroller, Digital Signal Processor, ASIC & FPGA, Others), End User (Automotive, Industrial, Healthcare, Energy, Communications, Banking, Transport, Government, Robotics, Defense, Others)

Presented By

AMA Research & Media LLP

Top 5 Emerging Trends in Embedded Systems 2023

Embedded systems are evolving as businesses are pressured to innovate more quickly than ever. Its applications spread across various industries like automobiles, healthcare, household appliances, interactive kiosks, and other end-user devices. The market size of embedded systems was worth more than USD 140 billion in 2022 and is estimated to witness a sharp growth of USD 250 billion by the year 2032 according to the industry statistics of Global Market Insights (GMI).

With the inception of IoT and IIoT, embedded systems have become the catalyst for a rapidly expanding world of smart and intelligent network ecosystems. The popularity of embedded system technology can be attributed to its broad diversity in functions and flexibility and its recent evolution in performing functions faster, more productive, and cheaper.      

The development of microcontrollers set the path for the emergence of the embedded system sector, which is advancing rapidly to enable better machine control and monitoring. Embedded system devices are typically powered by software integrated with hardware, such as systems on a chip (SoC), field-programmable gate arrays (FPGA), an IC specifically designed to be programmed by embedded developers for specific functions, and other firmware variations.

There are some emerging trends in embedded systems that would alter the way technology is used in the future. For a better understanding, let's dig in a little deeper.

1. AUTOMOBILES

With the rise of hybrid electric vehicles (HEV) and electric vehicles (EV), embedded systems are clearly the ways and means of achieving multiple objectives in the automotive segment ranging from infotainment systems, fuel management, engine control unit, car-area-network, and safety systems. It is the heart of a vehicle’s electronic system because of its versatility and flexibility. Today, an average car has 25 to 35 microcontrollers, while some premium cars have 60 to 70.

An automobile on the road has computer-controlled electronic systems, and the most commonly used embedded systems in a vehicle include Airbags, adaptive cruise control, drive-by-wire, anti-lock braking system, black box, telematics, satellite radio, traction control, automatic parking, emission control, in-vehicle entertainment systems, night vision, heads up display, tyre pressure monitor, back up collision sensors, navigational systems, and climate control. Traffic management and prediction systems are being developed for large cities which are supported by M2M or V2V communication networks that make ad-hoc networks, gather data from multiple sources, and combine to take decisions for car users and traffic managers. The real-time management of this system is possible only by having seamless embedded software development services for computing and communication.

2.  AUTOMATION

From manufacturing to the automobile industry, automation is transforming many different sectors of the economy. Automation aims to speed up production and other operations while lowering the possibility of human error and increasing operator safety. Embedded systems are employed extensively for automation purposes, as they allow devices to be compact, agile, and quick-moving.  The majority of embedded systems used in automation applications use single-level cell (SLC) flash memory to survive the shock, vibration, and severe temperatures seen in manufacturing environments.

The embedded OPC-UA technology has made it possible for industrial equipment to interact in a standard, scalable, and secure format, making it one of the major enablers for smart manufacturing. In order to monitor and control HMIs, vision, PLCs, and motion solutions, efficient embedded software development services use machine learning, artificial intelligence, and data analytics. They also provide recommendations for improving performance, enhanced embedded system logic, control, and scalability.

3.  HEALTHCARE

Electronic medical devices with the convergence of embedded systems, biotech, nanotech, and sensor technologies are making breathtaking transformations in healthcare delivery and establishing new healthcare paradigms.  Bio-medical devices such as home monitoring and diagnostic devices, telemetry, and diagnostic imaging applications solve a wide variety of analytical problems including medicine, surgery, and drug discovery.

It's interesting how wireless communication and sensors came together to develop the BAN, or body area network, which is used to track vital signs like blood pressure, temperature, and oxygen levels.  A clip device attached to the headband can be used to detect sleep disturbances as well. These tiny, powerful chips and processors have the ability to link to a network-based diagnostic process and monitor the patient's health.

4.  ARTIFICIAL INTELLIGENCE

Artificial intelligence (AI) and its practical application are steadily gaining momentum as more embedded designs have constantly been developed for the advancement of the economy. AI influences a wide industrial spectrum ranging from health care, retail, e-commerce, autonomous driving, manufacturing, supply chain, and banking.

For instance, a smart factory with IoT and AI can significantly boost productivity by monitoring the operation in real-time and allowing AI to make decisions that can prevent operational failures.  Embedded software development solutions are anticipated to enhance the AI potential as the cost of AI hardware continues to decline.

5.  IOT SECURITY

The Internet of Things (IoT) and digital embedded security are no more an option but a necessity as it is very critical for more transactions happening over embedded devices as front ends. Due to the rapid increase of digital users and remote working environment post-pandemic, cyber security is under greater threat than before. Implementing IoT security solutions along with embedded devices like AI and Robots helps to make decisions on data and their safety to avoid vulnerabilities. IoT security solutions will also protect confidential data from the hands of cyber-attacks efficiently and protect the applications from malicious hackers and ransomware.

Conclusion

Regardless of the global economic turbulence, there would be continued investments in developing more innovative and efficient solutions in the embedded domain to cater to the above-mentioned trends. In order to succeed in the embedded market, companies need to constantly develop and innovate new ideas, and approaches that can provide efficient, quick, low-power, cost-effective solutions to consumers. The coming years tend to surprise us with the most advanced innovations in embedded system technology.

Are you looking for a technological partner to build your embedded software? You can count on Team TA to provide you with expert process guidance and assistance.

Field Programmable Gate Array (FPGA) Market Analysis By Political, Legal, Economic & Technological Factor

The global field programmable gate array (FPGA) market is expected to value at USD 14.2 billion by 2024. The field programmable gate array industry is subject to witness a substantial growth due to the increasing demand for field programmable gate array (FPGA) in various end-user industries. Applications of the field programmable gate array ranges from military & aerospace to consumer electronics sector, thus propelling market demand for the product in the recent years.

Increasing adoption of field programmable gate array (FPGA) from automotive industry for product differentiation are expected to drive the growth of field programmable gate array market over the forecast period. Globally, the field programmable gate array (FPGA) industry is predicted to grow at higher CAGR the forecast period, providing numerous opportunities for market players to invest for research and development in the market.

Growing preference towards field programmable gate array over the application specific integrated circuit (ASIC) owing to its higher reliability that allows manufacture to widen their market reach in different industry verticals such as mixed signal designs and system on chip (SoC).

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FPGA is a type of embedded device that is designed only for a particular application or function. In comparison with application-specific integrated circuit (ASIC), the standard field programmable gate array (FPGA) are faster and provide high level of functionality. Field programmable gate arrays (FPGAs) are non-volatile in nature thus allowing high computation speed and superior operational capability. A field programmable gate array are compact in nature and require less operating power. However, field programmable gate array (FPGA) highly expensive and complex for manufacture and design respectively. These factors are expected to limit market growth to a certain extent.

The FPGA market is broadly categorized into five major segments based on the application type such as consumer electronics sector, automotive sector, industrial sector, data processing industry and military & aerospace sector. The consumer electronics sector is considered as one of the fastest growing segment in the with substantial revenue generation in the last few years. Growing popularity of field programmable gate array (FPGA) in the consumer electronics segment is attributed to the growing preference over application specific integrated circuit (ASIC) products. The military & aerospace sector segment has also witnessed substantial growth owing to the increasing demand for high-end technology aerospace sector and modernization of military.

The FPGA industry is divided by region as North America, Europe, Asia-Pacific, Latin America and Africa. North America has shown major growth in recent years owing to the rise in the implementation of latest technologies in consumer electronic sector, increase in the number of research & development activities in the region and existence of well-established industrial infrastructure. Asia-Pacific region is predicted to hold major market share in the field programmable gate array market with massive growth in forecast period. Countries such as India, China and Singapore are leading the Asia-Pacific market with rapid industrialization, growing manufacturing activities in the region, and significant investment by leading industry players considering potential growth opportunities in the region. The key players in the field programmable gate array (FPGA) industry are Maxim Integrated Products Inc., Qualcomm Inc., Altera Co., and Xilinx Inc.

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FPGA Market with COVID-19 Impact Analysis by Configuration (Low-End FPGA, Mid-Range FPGA, High-End FPGA), Technology (SRAM, Flash, Antifuse), Node Size (≤16 nm, 22/28–90 nm, and >90 nm), Vertical, and Region - Global - Forecast to 2026 published on

https://www.sandlerresearch.org/fpga-market-with-covid-19-impact-analysis-by-configuration-low-end-fpga-mid-range-fpga-high-end-fpga-technology-sram-flash-antifuse-node-size-%e2%89%a416-nm-22-28-90-nm-and-90-nm.html

FPGA Market with COVID-19 Impact Analysis by Configuration (Low-End FPGA, Mid-Range FPGA, High-End FPGA), Technology (SRAM, Flash, Antifuse), Node Size (≤16 nm, 22/28–90 nm, and >90 nm), Vertical, and Region - Global - Forecast to 2026

 “The incorporation of FPGA for automotive applications such as ADAS, and rising need of FPGA hardware verification in avionics are among the factors driving the growth of the FPGA market.”

The global FPGA market is projected to reach USD 9.1 billion by 2026 from an estimated USD 6.2 billion in 2021, at a CAGR of 7.8% from 2021 to 2026.  The incorporation of FPGA for automotive applications such as ADAS, and rising need of FPGA hardware verification in avionics are among the factors driving the growth of the FPGA market.

“The market for low-end FPGA segment is expected to grow at the highest CAGR during the forecast period.”

The market for low-end FPGA segment is expected to grow at the highest CAGR during the forecast period. The growth is attributed to the rising adoption of low-end FPGAs due to their low cost, and compact size. These compact semiconductor devices offers high performance and low power consumption. They carry out a range of advanced functionalities. Globally, many customers prefer these low-end FPGAs over application-specific integrated circuits (ASIC), standard-cell application-specific standard products (ASSPs), or systems installed on printed circuits boards (PCBs) that offer discrete functionalities. These FPGAs are designed with low logic density and complexity per chip.

“The 22/28–90 nm segment held the major share of the FPGA market in 2020, and this trend is expected to continue during the forecast period.”

In 2020, 22/28–90 nm held the largest size of the FPGA market, and a similar trend is likely to be observed during the forecast period. The growth can be attributed to significant demand for high-performing and flexible FPGAs with 22/28–90 nm node size. FPGAs with node size ranging from 22/28 nm to 90 nm offer high-temperature tolerance, consume less power and act as digital signal processing (DSP) solutions. They have embedded multipliers and offer high density, increased memory, and ease of packaging.

“The flash segment of the FPGA market is projected to record the highest CAGR during the forecast period.”

The flash segment of the FPGA market is projected to record the highest CAGR during the forecast period. Many ecosystem players are developing their portfolio of flash-based FPGAs to cater to the growing application base of flash technology. In comparison to other FPGA technology, flash consumes less power. Flash-based FPGAs are resistant to radiation, making them ideal for control and interfacing applications, where limited logic is required.

“The telecommunications vertical held the largest share of the FPGA market, and this trend is expected to continue during the forecast period.”

The telecommunications vertical held the largest size of the FPGA market in 2020 and a similar trend is likely to be observed during the forecast period. Increasing mobile data traffic and rising adoption of 5G network infrastructure across the world have also contributed significantly to the growth of this segment of the market. The use of FPGAs in telecom and networking applications is increasing rapidly and will continue to grow over the years. Several devices enable interfacing and control functionality and the integration of IPs for processing and common interface has increased the efficacy of FPGAs. The introduction of silicon technology has also increased the count of logic elements.

“Based on region, APAC is expected to account for the highest CAGR of the FPGA market by 2026”

In 2026, the FPGA market in APAC is expected to grow at the highest CAGR during the forecast period. The telecommunications, industrial, automotive, consumer electronics, and computing sectors are expected to drive the growth of the FPGA market in APAC. The telecommunications industry is rapidly growing; South Korea, China, and Japan play a significant role in the 5G market and have the maximum 5G penetration rate. The increased adoption of industrial automation in APAC is also driving the demand for FPGAs in the region. With the advent of IoT and machine-to-machine (M2M), the growth of the automotive and the consumer electronics industries in APAC is expected to be high, thereby contributing to the growth of the FPGA market in the region.

In-depth interviews have been conducted with chief executive officers (CEOs), marketing managers, and other executives from various key organizations operating in the FPGA marketplace.

By Company Type: Tier 1 – 25%, Tier 2 – 35%, and Tier 3 – 40%

By Designation: C-level Executives – 35%, Managers – 25%, and Others – 40%

By Region: North America – 25%, Europe – 42%, APAC – 21%, and RoW – 12%

Xilinx, Inc. (US); Intel Corporation (US);  Microchip Technology Inc. (US); Lattice Semiconductor Corporation (US); QuickLogic Corporation (US); Efinix Inc. (US); Flex Logix Technologies (US); GOWIN Semiconductor Corporation (US); Achronix Semiconductor Corporation (US); and S2C, Inc. (US); are some of the key players in the FPGA market.

The study includes an in-depth competitive analysis of these key players in the FPGA market, with their company profiles, recent developments, and key market strategies.

Research Coverage

The report defines, describes, and forecasts the FPGA market based on configuration, node size, technology, vertical, and region. It provides detailed information regarding factors such as drivers, restraints, opportunities, and challenges influencing the growth of the FPGA market. It also analyzes product launches, expansions, partnerships, collaborations, contracts, and merger and acquisitions, carried out by the key players to grow in the market.

Key Benefits of Buying the Report

This report will help market leaders/new entrants in this industry with information on the closest approximations of the revenue numbers for the overall FPGA market and the sub segments. The report will help stakeholders understand the competitive landscape and gain more insights to better position their businesses and plan suitable go-to-market strategies. The report will also help stakeholders to understand the pulse of the market and provide them with information on key market drivers, restraints, challenges, and opportunities.

Static Random-Access Memory (Sram) Market Latest Innovation And Technology By Forecast 2027

Summary:

 A new study title “Static Random-Access Memory (SRAM) market size, status and forecast 2027” has been featured on market research future.

 Market Overview:

Static random-access memory (SRAM) is a random-access memory that stores data in a static form only when power is applied across the chip. SRAM stores this data on four transistors with the help of two cross-coupled inverters. It is one of the simplest types of memory that can be integrated with an FPGA-based embedded system. Since the memory can be implemented on the FPGA itself, there is no requirement of external connections on the circuit board. This reduces the cost of wiring in the circuitry and also helps in the miniaturization of the overall device. SRAM is integrated with silicon along with CPUs, FPGAs, ASICs, and SoCs. In November 2017, Cypress Semiconductor Corp. partnered with United Microelectronics Corporation (UMC), one of the global semiconductor foundries, for the manufacture of next-generation, QML-V-certified, and high-density asynchronous SRAM devices. These devices have been manufactured at UMC’s Fab 12A using Cypress’ 65nm and 40nm technology platforms.

The global static random-access memory (SRAM) market has been segmented on the basis of type, memory size, application, and region.

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 Key Players:

The key players in the static random-access memory (SRAM) market are identified across all the major regions based on their country of origin, presence across different regions, recent key developments, product diversification, and industry expertise. Some of them are GSI Technology, Inc. (US), AMIC Technology Corporation (US), Maxwell Technologies (US), Integrated Silicon Solution Inc. (US), Cypress Semiconductor (US), Pyramid Semiconductor Corporation (US), Integrated Device Technology, Inc. (US), Lyontek Inc. (Taiwan), Jeju Semiconductor (JSC) (South Korea), Microchip Technology Inc. (US), Renesas Electronics Corporation (Japan), Alliance Memory, Inc. (US), ON Semiconductor (US), SemiLEDS Corporation (Taiwan), and Chiplus Semiconductor Corp. (Taiwan). The companies are focused on innovating in their existing product portfolio as well as innovate new products by investing in research and development to analyze the changing market trends.

 Segments:

The SRAM Market has been segmented on the basis of type, memory size, application, and region.

By type, the static random-access memory (SRAM) market has been segmented into laser asynchronous SRAM, pseudo SRAM, serial SRAM, synchronous SRAM, and others.

By memory size, the static random-access memory (SRAM) market has been segmented into 8 Kb–256 Kb, 256Kb–2 MB, and above 2 Mb.

Based on application, the static random-access memory (SRAM) market has been segmented into automotive, industrial, aerospace & defense, consumer electronics, IT & telecommunication, and others.

By region, the static random-access memory (SRAM) market has been segmented into North America, Europe, Asia-Pacific, the Middle East & Africa, and Central & South America.

 Regional Analysis:

The market for static random-access memory (SRAM) is estimated to witness a significant growth during the forecast period from 2019 to 2025. The geographic analysis of static random-access memory (SRAM) market has been conducted for North America, Europe, Asia-Pacific, the Middle East & Africa, and Central & South America. According to MRFR analysis, the Asia-Pacific region dominated the global static random-access memory (SRAM) market in 2018 and is expected to maintain its dominance during the forecast period. Presence of major semiconductor manufacturing facilities in China and Taiwan, low labor costs, and increasing demand for portable consumer electronics has attributed to the growth of the SRAM market in this region. On the other hand, the North American region is estimated to witness the fastest growth in the overall SRAM market during the forecast period 2019–2025. The demand for SRAM in automotive applications such as ADAS and infotainment systems has attributed to the growth of the SRAM market in the North American region.

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 About Us:

Market Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.

We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.

 Media Contact:

Market Research Future

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Static Random-Access Memory (SRAM) Market 2021: Share, Trend, Segmentation and Forecast

Market Research Future published a research report on “Static Random-Access Memory (SRAM) Market Research Report - Global Forecast to 2025” – Market Analysis, Scope, Stake, Progress, Trends and Forecast to 2025.

Market Overview:

Static random-access memory (SRAM) is a random-access memory that stores data in a static form only when power is applied across the chip. SRAM stores this data on four transistors with the help of two cross-coupled inverters. It is one of the simplest types of memory that can be integrated with an FPGA-based embedded system. Since the memory can be implemented on the FPGA itself, there is no requirement of external connections on the circuit board. This reduces the cost of wiring in the circuitry and also helps in the miniaturization of the overall device.

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SRAM is integrated with silicon along with CPUs, FPGAs, ASICs, and SoCs. In November 2017, Cypress Semiconductor Corp. partnered with United Microelectronics Corporation (UMC), one of the global semiconductor foundries, for the manufacture of next-generation, QML-V-certified, and high-density asynchronous SRAM devices. These devices have been manufactured at UMC’s Fab 12A using Cypress’ 65nm and 40nm technology platforms.

Key Players

The key players in the Static Random-Access Memory Market are identified across all the major regions based on their country of origin, presence across different regions, recent key developments, product diversification, and industry expertise. Some of them are GSI Technology, Inc. (US), AMIC Technology Corporation (US), Maxwell Technologies (US), Integrated Silicon Solution Inc. (US), Cypress Semiconductor (US), Pyramid Semiconductor Corporation (US), Integrated Device Technology, Inc. (US), Lyontek Inc. (Taiwan), Jeju Semiconductor (JSC) (South Korea), Microchip Technology Inc. (US), Renesas Electronics Corporation (Japan), Alliance Memory, Inc. (US), ON Semiconductor (US), SemiLEDS Corporation (Taiwan), and Chiplus Semiconductor Corp. (Taiwan). The companies are focused on innovating in their existing product portfolio as well as innovate new products by investing in research and development to analyze the changing market trends.

Global Static Random Access Memory (SRAM) Market – Segmentations

The global static random-access memory (SRAM) market has been segmented on the basis of type, memory size, application, and region.

By Type, the global static random-access memory (SRAM) market has been segmented into laser asynchronous SRAM, pseudo SRAM, serial SRAM, synchronous SRAM, and others.

By Memory Size, the global static random-access memory (SRAM) market has been segmented into 8 Kb–256 Kb, 256Kb–2 MB, and above 2 Mb.

Based On Application, the global static random-access memory (SRAM) market has been segmented into automotive, industrial, aerospace & defense, consumer electronics, IT & telecommunication, and others.

By Region, the global static random-access memory (SRAM) market has been segmented into North America, Europe, Asia-Pacific, the Middle East & Africa, and Central & South America.

Global Static Random Access Memory (SRAM) Market – Regional Analysis

The market for static random-access memory (SRAM) is estimated to witness a significant growth during the forecast period from 2019 to 2025. The geographic analysis of static random-access memory (SRAM) market has been conducted for North America, Europe, Asia-Pacific, the Middle East & Africa, and Central & South America. According to MRFR analysis, the Asia-Pacific region dominated the global static random-access memory (SRAM) market in 2018 and is expected to maintain its dominance during the forecast period. Presence of major semiconductor manufacturing facilities in China and Taiwan, low labor costs, and increasing demand for portable consumer electronics has attributed to the growth of the SRAM market in this region. On the other hand, the North American region is estimated to witness the fastest growth in the overall SRAM market during the forecast period 2019–2025. The demand for SRAM in automotive applications such as ADAS and infotainment systems has attributed to the growth of the SRAM market in the North American region.

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About Us:

Market Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.

We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.

Media Contact:

Market Research Future

Office No. 528, Amanora Chambers

Magarpatta Road, Hadapsar,

Pune - 411028

Maharashtra, India

+1 646 845 9312

Email: [email protected]

Field Programmable Gate Array (FPGA) Market Trends, Opportunities, Size, Share, Growth, Analysis and Forecast till 2024

August 17, 2021: The global field programmable gate array (FPGA) market is expected to value at USD 14.2 billion by 2024. The field programmable gate array industry is subject to witness a substantial growth due to the increasing demand for field programmable gate array (FPGA) in various end-user industries. Applications of the field programmable gate array ranges from military & aerospace to consumer electronics sector, thus propelling market demand for the product in the recent years.

Increasing adoption of field programmable gate array (FPGA) from automotive industry for product differentiation are expected to drive the growth of field programmable gate array market over the forecast period. Globally, the field programmable gate array (FPGA) industry is predicted to grow at higher CAGR the forecast period, providing numerous opportunities for market players to invest for research and development in the market.

Growing preference towards field programmable gate array over the application specific integrated circuit (ASIC) owing to its higher reliability that allows manufacture to widen their market reach in different industry verticals such as mixed signal designs and system on chip (SoC).

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FPGA is a type of embedded device that is designed only for a particular application or function. In comparison with application-specific integrated circuit (ASIC), the standard field programmable gate array (FPGA) are faster and provide high level of functionality. Field programmable gate arrays (FPGAs) are non-volatile in nature thus allowing high computation speed and superior operational capability. A field programmable gate array are compact in nature and require less operating power. However, field programmable gate array (FPGA) highly expensive and complex for manufacture and design respectively. These factors are expected to limit market growth to a certain extent.

The FPGA market is broadly categorized into five major segments based on the application type such as consumer electronics sector, automotive sector, industrial sector, data processing industry and military & aerospace sector. The consumer electronics sector is considered as one of the fastest growing segment in the with substantial revenue generation in the last few years. Growing popularity of field programmable gate array (FPGA) in the consumer electronics segment is attributed to the growing preference over application specific integrated circuit (ASIC) products. The military & aerospace sector segment has also witnessed substantial growth owing to the increasing demand for high-end technology aerospace sector and modernization of military.

The FPGA industry is divided by region as North America, Europe, Asia-Pacific, Latin America and Africa. North America has shown major growth in recent years owing to the rise in the implementation of latest technologies in consumer electronic sector, increase in the number of research & development activities in the region and existence of well-established industrial infrastructure. Asia-Pacific region is predicted to hold major market share in the field programmable gate array market with massive growth in forecast period. Countries such as India, China and Singapore are leading the Asia-Pacific market with rapid industrialization, growing manufacturing activities in the region, and significant investment by leading industry players considering potential growth opportunities in the region.

The key players in the field programmable gate array (FPGA) industry are Maxim Integrated Products Inc., Qualcomm Inc., Altera Co., and Xilinx Inc.

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Market Segment:

FPGA Technology Outlook (Revenue, USD Million; 2014 - 2024)

• SRAM

• EEPROM

• Antifuse

• Flash

• Others (Fuse, EPROM, PROM)

FPGA Application Outlook (Revenue, USD Million; 2014 - 2024)

• Consumer Electronics

• Automotive

• Industrial

• Data Processing

• Military & Aerospace

• Telecom

• Others

FPGA Regional Outlook (Revenue, USD Million; 2014 - 2024)

• North America

• U.S.

• Canada

• Mexico

• Europe

• UK

• Germany

• Asia Pacific

• China

• India

• Japan

• South America

• Brazil

• Middle East & Africa (MEA)

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Automotive Embedded Systems Market Size to Surpass US$ 30.40 Billion by 2027

Automotive Embedded Systems Market is valued at USD 20.90 Billion in 2018 and expected to reach USD 30.40 Billion by 2025 with the CAGR of 5.5% over the forecast period.

Automotive Embedded Systems Market: Global Size, Trends, Competitive, Historical & Forecast Analysis, 2020-2025.  Increasing focus of customers on vehicle safety features, growing demand for automation and rising trend of vehicle electrification in automobile industry are some of the primary factors driving the growth of global automotive embedded system market.

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Scope of Automotive Embedded Systems Market-

An embedded system is a computer system a combination of a computer processor, computer memory, and input/output peripheral devices that has a devoted function within a larger mechanical or electrical system. It is embedded as part of a complete device often with electrical or electronic hardware and mechanical parts. Because an embedded system usually controls physical operations of the machine that it is embedded within, it often has real-time computing constraints. An automotive embedded system is a computer system that is embedded into a car to control various functionalities. It is a computer system for electronic devices, built with the intent to control the mechanism of data and services. Software is an important aspect of the automotive embedded system. This system comprises single chip microcontroller such as cortex, advanced RISC machines (ARM), microprocessors, field programmable gate arrays (FPGAs), digital signal processor (DSPs), and application-specific integrated circuit (ASICs).

Automotive embedded systems market report is segmented on the basis of product type, application and by regional & country level. Based upon product type, automotive embedded systems market is classified into embedded hardware and embedded software. Based upon application, automotive embedded systems market is classified into electrical and electronics, infotainment and telematics and powertrain and chassis and advanced driver assistance systems.

The regions covered in this Automotive Embedded Systems market report are North America, Europe, Asia-Pacific and Rest of the World. On the basis of country level, market of Automotive Embedded Systems is sub divided into U.S., Mexico, Canada, U.K., France, Germany, Italy, China, Japan, India, South East Asia, GCC, Africa, etc.

Automotive Embedded Systems Companies:

Automotive embedded systems market report covers prominent players are,

Robert Bosch GmbH

Panasonic Corporation

Toshiba

Continental AG

Denso Corporation

Mitsubishi Electric Corporation

Delphi Automotive LLP

Texas Instruments Incorporated

Infineon Technologies AG

Harman International

NXP Semiconductors N.V. 

Johnson Electric.

Panasonic Acquired All Shares of German Software Company OpenSynergy

News: Aug 09, 2016, Panasonic Corporation and OpenSynergy GmbH declared that Panasonic has acquired all the unresolved shares of the German software business to make it a subsidiary on July 22. OpenSynergy is a high-tech business focusing in embedded automotive software for cockpit solutions. Panasonic positions its automotive business as a high growth area, and expects the business to contribute in the area of "comfort", "safety", and "environment".

Automotive Embedded Systems Market Dynamics –

The global automotive embedded systems market is witnessing substantial growth due to increasing demand of automation, consumers growing demand towards electric vehicles and rising trend of vehicle electrification in automobile industry. According to the IEA report, Electric car deployment has been growing rapidly over the past ten years, with the global stock of electric passenger cars passing 5 million in 2018, and growth of 63% from the previous year. About 45% of electric cars on the road in 2018 were in China – a total of 2.3 million – compared to 39% in 2017. However, the life span of electronic systems is usually low, power requirements are high and the system design is very complicated. The making of an electronic system requires complex level of software algorithms, which indirectly results in high battery utilization. These factors are hindering the market growth. Furthermore, automotive embedded systems assure the end user requirements in terms of safety, comfort and even costs. Changes in system architecture, modifications in software development and enhancement of integrated services would bring new major opportunities in the Automotive Embedded Systems market.

Automotive Embedded Systems Market Regional Analysis –

North America is dominating the automotive embedded systems market with the potential rate due to increasing focus on vehicle safety features, adoption of advanced automation and rising trend of vehicle electrification in automobile industry. According to the International Federation of Robotics report, one of the most visible ways that automation impacts jobs is the ever-increasing reliance on robots for industrial work. In 2016, the number of manufacturing robots was 1.83 million. Experts expect that number to grow to 3.05 million in 2020. The figures indicate that new improvements are speeding up this trend, and that we are very likely going to see an even more drastic yearly increase in the robot workforce.

The Asia Pacific is expected to emerge as the fastest-growing regional market over the forecast period due to the increasing vehicle production in many countries of this region, improving socio-economy condition, and growing demand for electric vehicles, especially in China. According to PwC’s automotive analyst group report, Auto facts, global production is set to rise by 22.3m units between 2014 and 2021, at an annual compounded growth rate (CAGR) of 3.4%.1 Whilst the BRIC markets have previously led global growth, car sales have dipped 20% to date since December last year, due to slowing growth in China and declining sales. One of these growth areas is Southeast Asia (SEA). Total vehicle sales in the country reached 212,000 units in 20143, and are forecast to hit 310,000 this year. In fact, car sales reached a highest of 19,731 units in March 2015 compared to last year’s 15,292 units in the same month.

Key Benefits for Automotive Embedded Systems Market Reports –

Global Market report covers in depth historical and forecast analysis.

Global Market research report provides detail information about Market Introduction, Market Summary, Global market Revenue (Revenue USD), Market Drivers, Market Restraints, Market opportunities, Competitive Analysis, Regional and Country Level.

Global Market report helps to identify opportunities in market place.

Global Market report covers extensive analysis of emerging trends and competitive landscape.

Automotive Embedded Systems Market Segmentation –

By Product Type: Embedded Hardware, Embedded Software

By Application: Electrical and Electronics, Infotainment and Telematics, Powertrain and Chassis, Advanced Driver Assistance Systems

Regional & Country Analysis North America, U.S., Mexico, Canada , Europe, UK, France, Germany, Italy , Asia Pacific, China, Japan, India, Southeast Asia, South America, Brazil, Argentina, Columbia, The Middle East and Africa, GCC, Africa, Rest of Middle East and Africa

Table of Content

1. Chapter - Report Methodology

1.1. Research Process

1.2. Primary Research

1.3. Secondary Research

1.4. Market Size Estimates

1.5. Data Triangulation

1.6. Forecast Model

1.7. USP’s of Report

1.8. Report Description

2. Chapter – Global Automotive Embedded Systems Market Overview: Qualitative Analysis

2.1. Market Introduction

2.2. Executive Summary

2.3. Global Automotive Embedded Systems Market Classification

2.4. Market Drivers

2.5. Market Restraints

2.6. Market Opportunity

2.7. Automotive Embedded Systems Market: Trends

2.8. Porter’s Five Forces Analysis

2.9. Market Attractiveness Analysis

3. Chapter - Global Automotive Embedded Systems Market Overview: Quantitative Analysis

4. Chapter – Global Automotive Embedded Systems Market Analysis: Segmentation By Type

5. Chapter – Global Automotive Embedded Systems Market Analysis: Segmentation By Application

Full Research Report @ https://brandessenceresearch.com/automotive-and-transport/automotive-embedded-systems-market-industry-analysis

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