Artificial Intelligence
Global Microprocessor and GPU Market (2020 to 2025) – Increase in Adoption of Smart Factories and Industry 4.0 Presents Opportunities
Dublin, Oct. 12, 2020 (GLOBE NEWSWIRE) — The “Microprocessor and GPU Market by Architecture, Functionality, GPU Type, Deployment, Application (Consumer Electronics, Server and Data Center, Automotive, BFSI, Aerospace & Defense, Healthcare, Industrial), and Geography – Global Forecast to 2025” report has been added to ResearchAndMarkets.com’s offering.
The microprocessor and GPU market was valued at USD 83.1 billion in 2019 and is projected to reach USD 112.7 billion by 2025; it is projected to grow at a compound annual growth rate (CAGR) of 7.3% between 2020 and 2025.
The market has a promising growth potential due to several factors, including the increase in demand for consumer electronics and the rise in adoption of Internet of Things (IoT)-enabled devices and equipment. Moreover, the implementation of cloud-based platforms and server environments during the COVID-19 pandemic could play a key role in driving the growth of the microprocessor and GPU market.
In-premise GPU can be implemented for desktop, workstations, and enterprises, and therefore, offers a broad portfolio of products and solutions for end-users.
The on-premise segment is projected to grow at the highest CAGR from 2020 to 2025 for the microprocessor and GPU market, by deployment. In-premise GPU offers developers the advantage of performing unlimited iteration and testing time at a fixed, one-time cost. It can be used for game development, retail, supercomputing, telecommunication, smart cities, transportation, and other industrial applications. The increasing adoption of supercomputers to accelerate the discovery of drugs, predicting the weather, performing scientific discovery, and running simulation programs has also spurred the growth of in-premise GPU solutions.
The real-time systems segment is estimated to have the largest market share in 2025 and register higher CAGR growth during the forecast period.
The real-time systems segment for the microprocessor and GPU market is estimated to have the largest market share in 2025 and register higher CAGR growth during the forecast period, by functionality. Microprocessors used in real-time systems perform dedicated functions, including calculations and word processing within specified time constraints at high speeds through real-time computing capabilities. Some of the applications of real-time system based devices include anti-lock braking systems, process control systems, traffic control systems, simulation systems, network systems, medical systems, fly-by-wire (FBW) systems, among others. The high adoption of application-specific microprocessors and embedded microprocessors for various applications including medical systems, industrial, advanced driver assistance systems (ADAS), and automotive electronics systems is expected to grow the demand for a real-time system.
APAC is projected to become the fastest geographical market between 2020 and 2025.
APAC is projected to grow at the highest CAGR for the microprocessor and GPU market during the forecast period. The region is home to some of the major global semiconductor foundries, such as Taiwan Semiconductor Manufacturing Company, Limited (TSMC) (Taiwan), Samsung Group (South Korea), and United Microelectronics Corporation (UMC) (Taiwan). The presence of these companies, along with many other small-scale foundries in the region, is also expected to contribute to the growth of the microprocessor and GPU market in APAC during the forecast period. The semiconductor & electronics industry is booming in the region due to the high demand for consumer electronics. The availability and demand for low-cost electronic products in APAC countries such as China and India are expected to further contribute to an increased demand for microprocessors in the region. All these factors are expected to contribute to the growth of the microprocessor and GPU market in APAC.
Key Topics Covered:
1 Introduction
2 Research Methodology
3 Executive Summary
3.1 Scenario Analysis
3.1.1 Pre-COVID-19 Scenario
3.1.2 Pessimistic Scenario (Post-COVID-19)
3.1.3 Optimistic Scenario (Post-COVID-19)
3.1.4 Realistic Scenario (Post-COVID-19)
4 Premium Insights
4.1 Attractive Growth Opportunities in the Microprocessor and GPU Market
4.2 Microprocessor and GPU Market, by Country
4.3 Microprocessor and GPU Market, by Deployment
4.4 Americas: Microprocessor Market, by Application & Country
5 Market Overview
5.1 Introduction
5.2 Market Dynamics
5.2.1 Drivers
5.2.1.1 Increase in Demand for High Performance and Energy-Efficient Processors and Gpus
5.2.1.2 Rise in the Adoption of Internet of Things (Iot)-Enabled Devices and Equipment
5.2.1.3 Implementation of Cloud-Based Platforms and Server Environments During the COVID-19 Pandemic
5.2.2 Restraints
5.2.2.1 Decrease in Demand for Pcs
5.2.2.2 Rise in Adoption of Alternative Solutions
5.2.3 Opportunities
5.2.3.1 Increase in Demand for Artificial Intelligence (Ai) and Deep Learning-Based Applications, Such as Supercomputers, Amidst COVID-19 Pandemic
5.2.3.2 Increase in Adoption of Smart Factories and Industry 4.0
5.2.3.3 Adoption of Remote Working Practices due to COVID-19 Pandemic
5.2.4 Challenges
5.2.4.1 Instability in the Prices of Gpu
5.2.4.2 Rapid Technological Changes in the Market with High Consumer Demands
5.2.4.3 Short-Term Decrease in Demand for Smartphones and Tablets due to the COVID-19 Pandemic
5.3 Value Chain Analysis
5.4 Ecosystem
5.5 Average Selling Price Trends
5.6 Technology Analysis
5.6.1 Cloud Gpu
5.7 Case Studies
5.8 Regulatory Update
6 Microprocessor Market, by Architecture
6.1 Introduction
6.2 X86
6.2.1 Various Software and Operating System (Os) Such as Dos, Linux, Windows, Solaris, Bsd, and Mac Os Support X86 Based Hardware
6.3 Arm
6.3.1 Easy to Manage, Simple, and Power-Efficient Design of the Arm Architecture Lead to Its High Compatibility with Low-Powered Embedded and Portable Devices
6.4 Sparc
6.4.1 Various Firmware Releases Over the Past Years Have Improved the Performance, Security Capabilities, and Efficiency of These Processors
6.5 Other Architecture Types
6.5.1 High Adaptability Offered by Power Architecture-Based Platform to Integrate Ai Technology and Machine Learning into Its Operations Drive Its Market Growth
7 Graphics Processor Unit (Gpu) Market, by Deployment
7.1 Introduction
7.2 On-Cloud Gpu
7.2.1 Increasing Adoption of Virtual Gpu in Place of Virtual Desktop Infrastructure Driving the Growth of On-Cloud Gpu
7.3 In-Premise Gpu
7.3.1 In-Premise Gpu Benefit from Data Sovereignty and Privacy, Which Makes Them Suitable for Use in the Healthcare and Financial Industries
8 Graphics Processor Unit (Gpu) Market, by Type
8.1 Introduction
8.2 Discrete Gpu
8.2.1 Increasing Demand for Ray Tracing and Cloud Computing Applications Projected to Increase the Use of Discrete Gpu
8.3 Integrated Gpu
8.3.1 Increasing Support for Augmented Reality (Ar) and Virtual Reality (Vr) Applications in Smartphones and Tablets Increasing the Demand for Integrated Gpus
9 Microprocessor Market, by Functionality
9.1 Introduction
9.2 Real-Time Systems
9.2.1 High Adoption of Real-Time Systems Microprocessor for Various Applications Driving Their Market Demand
9.3 Standalone Systems
9.3.1 Use of Standalone Systems in Digital Cameras, Video Game Consoles, Desktops, Workstations, and Information Kiosk
10 Microprocessor and Gpu Market, by Application
10.1 Microprocessor by Application
10.1.1 Introduction
10.1.2 Consumer Electronics
10.1.3 Servers & Datacenters
10.1.4 Automotive
10.1.5 Banking, Financial Services, and Insurance (Bfsi)
10.1.6 Healthcare
10.1.7 Aerospace & Defense
10.1.8 Industrial
10.1.9 Other Applications
10.1.10 Negatively Impacted Application by COVID-19 in the Microprocessor Market
10.1.11 Least Impacted Application by COVID-19
10.2 Gpu by Application
10.2.1 Introduction
10.2.2 Consumer Electronics
10.2.3 Servers & Datacenters
10.2.4 Automotive
10.2.5 Healthcare
10.2.6 Aerospace & Defense
10.2.7 Industrial
10.2.8 Other Applications
10.2.9 Negatively Impacted Application by COVID-19
10.2.10 Least-Impacted Application by COVID-19 in the Gpu Market
11 Geographic Analysis
11.1 Introduction
11.2 Americas
11.3 Europe
11.4 APAC
11.5 Rest of the World (RoW)
12 Competitive Landscape
12.1 Overview
12.2 Key Players in the Microprocessor and Gpu Market
12.3 Company Evaluation Matrix
12.3.1 Star
12.3.2 Pervasive
12.3.3 Emerging Leader
12.3.4 Participant
12.4 Strength of Product Portfolio (For 25 Companies)
12.5 Business Strategy Excellence (For 25 Companies)
12.6 Competitive Scenario
12.6.1 Product Launches & Developments
12.6.2 Partnerships, Collaborations, & Joint Ventures
12.6.3 Acquisitions & Expansions
13 Company Profiles
13.1 Introduction
13.2 Key Players
13.2.1 Intel
13.2.2 Qualcomm
13.2.3 Samsung
13.2.4 Nvidia
13.2.5 Amd
13.2.6 Broadcom
13.2.7 Mediatek
13.2.8 Texas Instruments
13.2.9 Marvell
13.2.10 Ibm
13.3 Right to Win
13.4 5 Year Company Revenue Analysis
13.5 Other Companies
13.5.1 Nxp Semiconductors
13.5.2 Apple
13.5.3 Huawei
13.5.4 Unisoc Communications
13.5.5 Allwinner Technology
13.5.6 Fujitsu
13.5.7 Xilinx
13.5.8 Renesas
13.5.9 Via Technologies
13.5.10 Imagination Technologies
14 Appendix
For more information about this report visit https://www.researchandmarkets.com/r/ng8q8r
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Artificial Intelligence
Elevate Your Virtual Reality Experience with KIWI design RGB Vertical Stand, Now Available on Meta’s Website
LOS ANGELES, May 11, 2024 /PRNewswire/ — Top-tier VR accessories provider KIWI design has launched its latest product, the RGB Vertical Stand. This Meta-authorized accessory, designed to deepen users’ immersion in the metaverse, is now available on the official Meta website.
“KIWI design’s commitment to pushing the boundaries of virtual reality accessories takes another leap forward with the introduction of our new products,” said Ray,the CEO of KIWI design. “We are always dedicated to bringing innovative upgrades to VR device accessories, with the goal of enriching users’ virtual reality experiences.”
The newly launched RGB Vertical Stand features a user-friendly modular design with push-in assembly, making it easy to set up and use. It is compatible with Meta Quest 3, Quest 2, and Quest Pro, ensuring widespread usability. With a magnetic USB Type-C connector, it provides an effortless way to charge and display your headset. Users can also customize their display with 16 pre-set ambient multicolor RGB light options.
With VR technology constantly evolving, users are seeking more immersive experiences. As a leading manufacturer of VR accessories, KIWI design is committed to enhancing the user experience, through unique product designs. Since its establishment in 2015, KIWI design has acquired over 100 patents and has a diverse product lineup, including head straps, facial interfaces, VR stands, charging accessories, and controller grip covers.
KIWI design has also actively participated in the Made for Meta program, which is provided by Meta to strengthen its partnerships with leading brands to deliver accessories that enhance Meta products with more choice and a richer experience for everyone. KIWI design’s participation in this program validates its high-quality design standards.
The RGB Vertical Stand for Meta Quest 3, Quest 2, and Quest Pro and another specially designed authorized charging dock for the Meta Oculus Quest 2 are now available for purchase on both KIWI design’s website and Amazon. For more information about our brand and products, please visit our website and follow KIWI design on Facebook, Instagram, X, YouTube and TikTok.
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Artificial Intelligence
WIO Taps Gracenote to Revolutionize Television Broadcast Reporting
LOS ANGELES, May 11, 2024 /PRNewswire/ — WIO LLC, parent company of the global TV broadcast airings platform, WIOpro™, has announced a new strategic agreement with Gracenote, the global content data business unit of Nielsen, to address the longstanding challenge of accurately tracking and collecting music royalties generated by broadcast television and digital programming, With this agreement, WIO will integrate Gracenote TV program metadata and show airings into its WIOpro™ (“When’s It On – Professional”) platform enabling performance rights organizations, copyright management organizations and other entities to better monitor broadcast schedules and identify when royalties have been earned.
By integrating Gracenote historical program data into WIOpro’s new LookBack™ feature, WIO is enhancing its reporting capabilities and empowering Collection Societies, Rights Management Companies and the royalty-earning community to more easily monitor and export broadcast airings and better understand collections opportunities.
“At WIO, we are committed to empowering collection societies and copyright holders around the world with our platform tools and unprecedented access to the best and most accurate television broadcast and streaming data available,” said Shawn Pierce, Co-Founder and CEO of WIO LLC. “We have enjoyed an incredible relationship with Gracenote for 10 years. With the solidification of this agreement, we are able to deliver an unrivaled dataset to the royalty and residual community in a way that has not been offered before.” said Adam Shafron, Co-Founder and CTO of WIO LLC.
“WIO’s platform developed to solve the difficult matter of royalty tracking only becomes more powerful based on the integration of accurate, timely and comprehensive Gracenote metadata,” said Scott Monahan, Director, Strategic Partnerships, Gracenote. “We look forward to the combination of WIOpro’s technology and Gracenote’s program metadata delivering on the promise of transforming music royalty collection so that rights holders can be fairly compensated for use of their work.”
WIO and Gracenote will be at the MusicBiz 2024 conference in Nashville, TN May 13 – 16. Contact Dave Pelman, COO of WIO LLC at [email protected] for media queries or to book an appointment for a product demonstration.
About WIO:WIO is a technology company dedicated to providing broadcast television and digital programming data tailored specifically for the royalty and residual collection industry. Through its platform WIOpro (wiopro.com), users obtain access to real-time broadcast insights, reporting and curated data delivery.
About Gracenote:Gracenote is the content data business unit of Nielsen providing entertainment metadata, connected IDs and related offerings to the world’s leading creators, distributors and platforms. Gracenote enables advanced content navigation and discovery capabilities helping individuals easily connect to the TV shows, movies, music, podcasts and sports they love while delivering powerful content analytics making complex business decisions simpler.
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Artificial Intelligence
IDTechEx Explores Printed Electronics in Electrified and Autonomous Mobility
BOSTON, May 10, 2024 /PRNewswire/ — Electrification, autonomy, and vehicle ownership saturation are causing a technological revolution in the automotive sector. These automotive meta-trends are driving drastic changes in electronic component requirements and present a high-volume opportunity for printed electronics to capitalize on.
Historically, printed electronics technologies have nurtured a close relationship with the automotive sector, with printed force sensors pioneering passenger safety through seat occupancy and seatbelt detection. As such, the automotive sector continues to represent the lion’s share of the global printed and flexible sensor market, which IDTechEx’s report on the topic evaluates as worth US$421M in 2024. However, if the automotive sector is to continue to be a reliable revenue stream, printed electronics technology providers must adapt to address the emerging technical challenges facing future mobility.
Augmenting autonomous vehicles with printed electronics
As vehicle autonomy levels advance, the increasing number and distribution of spatial mapping sensors required will need continuous performance improvements to ensure passenger safety. Emerging printed electronics technologies can augment these sensors, extending detection bandwidth and maximizing reliability during operation.
Transparent conductive films (TCFs) are being developed to heat and defog LiDAR sensor panels, ensuring the function is unperturbed by external environmental conditions. Properties such as high transparency and low haze are important for defogging. These properties can be easily tuned using the wide variety of material options available for TCFs, including carbon nanotubes and silver nanowires.
IDTechEx identifies printed heating as a leading application of transparent conductive films. This is attributed to diminishing growth prospects in capacitive touch sensing applications. Innovations in thin film coating techniques have enabled indium tin oxide (ITO) to dominate touch sensing applications, all but displacing TCFs completely.
Looking towards the future, printed electronics technologies could play a more active role in advanced autonomous driving. Emerging semiconductive materials, such as quantum dots, printed directly onto conventional silicon image sensor arrays can extend detection range and sensitivity deeper into the infrared region. Augmenting existing image sensor technology with enhanced spectral range could facilitate the competition of hybrid silicon sensors with established InGaAs detectors.
Printed sensors promise granularized battery health monitoring
Vehicle electrification is driving the sustained development and evolution of electronic management systems, particularly in the battery and electric drivetrain. A strong market pull exists for technologies that increase vehicle efficiency, range, and lifetime while reducing recharge times.
Printed pressure and temperature sensors measure battery cell swelling and thermal profiles, providing granularized physical data that can be used to optimize battery deployment and recharging. Moreover, hybrid printed sensors that combine integrated printed heating elements promise a solution to actively address battery temperature. IDTechEx estimates that printed sensor-enabled battery deployment and charging optimizations could be worth up to US$3000 in savings per vehicle.
There remains uncertainty about whether electrification trends will correspond to increased demand for physical sensors in electric vehicle batteries, owing to the utility of existing electronic readouts for managing deployment. Virtual sensors also pose a threat, where AI-enabled software models interpret data to predict and emulate physical sensor functions without the need for discreet components. However, emerging regulations regarding safety and sensor redundancy will likely favor measurable metrics and see automotive makers continue to adopt physical sensors. IDTechEx predicts that virtual sensors are unlikely to displace their physical counterparts – so long as low-cost sensors remain widely available.
Embedding printed electronics in the car of the future
IDTechEx predicts that global car sales will saturate over the next decade, with automakers increasingly looking for premium features and technical innovations to differentiate themselves from the competition. In-cabin technologies will be highly desirable – as the location where passengers reside and interact with the vehicle the most.
Lighting elements are emerging as a prominent differentiator, described as “the new chrome” by Volkswagen’s chief designer. The use of in-mold structural electronics (IMSE) enables the integration of embedded lighting elements using existing manufacturing processes. 3D electronics technologies are intrinsically attractive for automotive integration, as functional layers are conformable and lightweight while easily embedded within existing aesthetic elements.
Despite strong tailwinds, the adoption of in-mold electronics within automotive interiors has been sluggish. This is attributed to the challenges of meeting automotive qualification requirements, as well as stiff competition with less sophisticated alternatives such as applying functional films to thermoformed parts. Nevertheless, momentum is building, with technology providers like Tactotek partnering with Mercedes-Benz and Stallantis to progress the automotive validation of IMSE to TRL5.
Outlook for printed electronics in automotive applications
Just as printed force sensors heralded early passenger safety systems, printed electronics technology is poised to underpin next-generation innovations for the car of the future. But this time, the competition will be stiff. Critical cost requirements must be met, while desirable new functionality must address existing challenges faced by manufacturers. Printed electronics can play a role in supporting emerging electrified and autonomous mobility, such as augmenting LiDAR sensors or optimizing electric battery deployment. Demand for technologies that enhance passenger experience and vehicle aesthetics will continue to grow, and printed electronics can supply low-power, lightweight lighting solutions for these.
Sustained engagement from tier suppliers and manufacturers continues to make the automotive sector key to printed sensor market growth opportunities – a total market IDTechEx predicts will reach US$960M by 2034. Strong partnerships between material providers and printed electronics technology providers are complementary to those of the highly vertically integrated automotive value chains between tier suppliers and OEMs. Leveraging printing techniques to provide solutions that slot into existing manufacturing processes and designs will be crucial. In the medium term, the printed electronics technologies most likely to realize revenue potential are those that can adapt to service emerging challenges already known to the automotive industry.
For more information on IDTechEx’s research on this topic, please see their report, “Printed and Flexible Sensors 2024-2034: Technologies, Players, Markets”. Downloadable sample pages are available for this report.
For the full portfolio of printed and flexible electronics market research from IDTechEx, please visit www.IDTechEx.com/Research/PE.
About IDTechEx:
IDTechEx provides trusted independent research on emerging technologies and their markets. Since 1999, we have been helping our clients to understand new technologies, their supply chains, market requirements, opportunities and forecasts. For more information, contact [email protected] or visit www.IDTechEx.com.
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