The automotive LiDAR system-on-chip market is expected to be valued at $29.3 million in 2024, Automotive LiDAR SoC Market which is anticipated to grow at a CAGR of 24.30% and reach $207.5 million by 2033.

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The key business opportunities in the global automotive LiDAR system-on-chip (SoC) market include the growing trend for the development of autonomous vehicles, manufacturing LiDAR system-on-chip at scale, and deployment of LiDAR system-on-chip in other applications such as robotics, industrial automation, etc.

Automotive LiDAR System-on-Chip Market Forecast | BIS Research

The automotive LiDAR system-on-chip market is expected to be valued at $29.3 million in 2024, which is anticipated to grow at a CAGR of 24.30% to reach $207.5 million by 2033 during the forecast period of 2024-2034.

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Teksun Blog- How Does ADAS Work and Why Is It Important? 

Advanced Driver-Assistance Systems (ADAS) are sophisticated technologies that employ computer vision to enhance road safety. By processing visual data through tasks like object recognition and classification, ADAS systems empower vehicles to assist drivers and potentially prevent accidents.  

The ADAS market is experiencing rapid growth, projected to reach USD 65.1 billion by 2030, driven by increasing consumer demand for safer vehicles. ADAS features can be integrated into new vehicles or retrofitted to existing ones, offering varying driver support and customization levels. 

The Importance of Advanced Driver-Assistance Systems (ADAS) 

Advanced Driver-Assistance Systems (ADAS) are revolutionizing road safety by mitigating human error, the leading cause of traffic accidents. These systems enhance the driving experience through automation, providing features like lane departure warnings and automatic emergency braking. 

By reducing the likelihood of collisions and minimizing their severity, ADAS significantly decreases fatalities and injuries.  

Beyond saving lives, ADAS also alleviates the financial burden associated with accidents, reducing insurance claims and property damage. 

Ultimately, ADAS technologies are pivotal in creating safer roadways for drivers, passengers, and pedestrians alike. 

Advantages of ADAS: Enhancing Road Safety and Driving Experience 

Advanced Driver Assistance Systems (ADAS) offer a multitude of benefits that contribute to safer and more convenient driving experiences: 

Enhanced Safety: ADAS systems significantly reduce the risk of accidents by automating critical driving tasks, monitoring the environment, and providing timely alerts. Features like automatic emergency braking, lane departure warning, and blind-spot monitoring actively prevent collisions. 

Improved Driver Assistance: By providing real-time information and alerts, ADAS systems empower drivers to make informed decisions and respond effectively to potential hazards. Adaptive cruise control, traffic sign recognition, and night vision enhance situational awareness and reduce driver fatigue. 

Increased Driving Comfort: ADAS technologies provide a more relaxed and enjoyable driving experience through features like adaptive cruise control, lane-keeping assist, and parking assistance. These systems alleviate stress and reduce driver workload, particularly in congested traffic. 

Fuel Efficiency: Some ADAS features, such as adaptive cruise control, can optimize fuel consumption by maintaining a steady driving speed and reducing unnecessary acceleration and braking. 

Data-Driven Insights: ADAS systems generate valuable data on driving habits and road conditions, which can be used to improve infrastructure, traffic management, and vehicle design. 

By incorporating advanced technologies and intelligent algorithms, ADAS is transforming the automotive industry and making our roads safer for everyone. 

ADAS: The Brain Behind the Wheel 

Advanced Driver Assistance Systems (ADAS) are transforming vehicles into intelligent machines. At the heart of ADAS are sophisticated computing platforms that process data from an array of sensors - cameras, radar, lidar, and ultrasonic - to create a 360-degree perception of the vehicle's surroundings. These systems, often powered by powerful SoCs, enable vehicles to make real-time decisions, assisting or taking over driving tasks to enhance safety and comfort. 

As autonomy advances, the demand for more powerful, energy-efficient, and compact computing solutions grows exponentially. This drives innovation in hardware design, paving the way for a future where vehicles are not just modes of transport but intelligent agents navigating complex environments. 

Types of ADAS: Passive vs. Active 

Advanced Driver Assistance Systems (ADAS) can be categorized into two primary types based on their level of driver involvement: 

Passive ADAS: These systems provide drivers with alerts and warnings, requiring them to take corrective action. Examples include: 

Blind-spot monitoring 

Lane departure warning 

Rear cross-traffic alert 

Forward collision warning 

Active ADAS: These systems provide alerts and intervene to assist or take control of the vehicle in certain situations. Examples include: 

Adaptive cruise control 

Automatic emergency braking 

Lane-keeping assist 

Traffic jam assist 

Parking assist 

While passive ADAS systems enhance driver awareness, active ADAS systems offer a higher level of safety by taking proactive measures to prevent accidents. 

ADAS: Revolutionizing the Driving Experience 

Advanced Driver Assistance Systems (ADAS) are transforming the automotive landscape by enhancing safety, comfort, and convenience. These systems utilize a combination of sensors, cameras, and sophisticated algorithms to assist drivers in various driving scenarios. 

Critical ADAS applications include: 

Adaptive Cruise Control (ACC): Maintains a safe following distance from the vehicle ahead, automatically adjusting speed to traffic conditions. 

Lane Departure Warning (LDW) and Lane Keeping Assist (LKA): These systems detect unintended lane departures and provide visual or tactile warnings or gently steer the vehicle back into its lane. 

Automatic Emergency Braking (AEB): Applies the brakes autonomously to prevent or mitigate collisions with vehicles, pedestrians, or cyclists. 

Blind Spot Detection (BSD): Alerts drivers to vehicles in their blind spots, reducing the risk of accidents when changing lanes. 

Traffic Sign Recognition (TSR): This involves identifying and displaying traffic signs to the driver, enhancing awareness and compliance. 

Driver Monitoring Systems (DMS): Detect driver fatigue, distraction, or inattention and provide alerts to prevent accidents. 

Parking Assist: Uses sensors and cameras to assist with parallel and perpendicular parking. 

Head-Up Display (HUD): Projects essential driving information onto the windshield, improving driver focus and reducing distractions. 

By incorporating these and other advanced features, ADAS systems facilitate a safer, more efficient, and more enjoyable driving experience. 

ADAS Sensors: The Eyes and Ears of the Vehicle 

Human-Machine Interface (HMI): Bridging Driver and Vehicle 

The Human-Machine Interface (HMI) bridges the driver and the vehicle's advanced systems. It ensures that ADAS features are intuitive, informative, and non-distracting. Effective HMI design is crucial for maximizing the benefits of ADAS while minimizing potential risks. 

Key HMI elements include: 

Displays: Dashboards, head-up displays, and in-car infotainment systems provide visual feedback to the driver. 

Controls: Buttons, knobs, touchscreens, and voice commands allow the driver to interact with the ADAS system. 

Haptic Feedback: Tactile sensations can enhance driver awareness and engagement. 

By carefully considering the driver's needs and preferences, ADAS manufacturers can create HMIs that enhance safety, comfort, and overall driving experience. 

ADAS vs. Autonomous Driving: A Comparative Overview 

Advanced Driver Assistance Systems (ADAS) and Autonomous Driving are often used interchangeably, but they represent distinct levels of vehicle automation. 

ADAS: Enhancing the Driving Experience 

ADAS systems are designed to assist drivers by providing features that enhance safety, comfort, and convenience. These technologies include: 

Adaptive Cruise Control (ACC): Maintains a safe following distance from the vehicle ahead. 

Lane Departure Warning (LDW) and Lane Keeping Assist (LKA): Alerts the driver of unintentional lane departures and can apply corrective steering input. 

Automatic Emergency Braking (AEB): Detects potential collisions and automatically applies the brakes. 

Blind Spot Monitoring (BSM): Alerts the driver to vehicles in blind spots. 

Parking Assist: Helps with parallel and perpendicular parking maneuvers. 

Key point: ADAS systems are designed to augment human driving capabilities, not replace them. The driver remains ultimately responsible for vehicle control. 

Autonomous Driving: The Future of Mobility 

Autonomous vehicles, on the other hand, aim to replace the human driver entirely. They rely on complex sensors, cameras, radar, and artificial intelligence to perceive their environment, make decisions, and control the vehicle. 

Levels of Autonomy: The Society of Automotive Engineers (SAE) defines six levels of driving automation, ranging from Level 0 (no automation) to Level 5 (full automation). 

Challenges: Developing fully autonomous vehicles presents significant challenges, including technical, ethical, and legal considerations. 

Key point: While ADAS systems are widely available, achieving full autonomy remains an ongoing research and development effort. 

ADAS focuses on driver assistance, while autonomous driving aims for complete vehicle control. As technology advances, the lines between the two may blur, leading to a future of highly automated and safer transportation. 

Conclusion 

Advanced Driver Assistance Systems (ADAS) are revolutionizing the automotive industry by enhancing safety, comfort, and convenience. While ADAS technology offers significant advancements, it is essential to remember that drivers remain ultimately responsible for vehicle operation. By combining human judgment with technological innovation, ADAS can significantly reduce accidents and improve road safety. 

As ADAS technology continues to evolve, we can expect to see even more sophisticated features and increased levels of automation in the future. 

Please get in touch with our team of experts to explore how Teksun's Telep ADAS solutions can elevate your vehicle's capabilities. 

How Versal AI Edge XA boosts AI engines

AMD declared that it will present automotive innovation at CES 2024 and that the Ryzen Embedded V2000A Series processor and the Versal AI Edge XA adaptable SoC will be the two new products added to its lineup. The gadgets highlight AMD’s strength in automotive technology and are made to cater to important automotive priority areas including infotainment, advanced driver safety, and autonomous driving. AMD will showcase at CES 2024 the wide range of capabilities and uses for these new technologies in automotive solutions that are currently and will be accessible in the future, working with an expanding ecosystem of automotive partners.

With the addition of an advanced AI Engine, Versal AI Edge XA adaptable SoCs allow for further optimization of the devices for a wide range of next-generation advanced automotive systems and applications, such as surround-view, automated parking, LiDAR, 4D radar, forward cameras, and in-cabin monitoring. Versal AI Edge XA adaptable SoCs, which offer enhanced security and protected IP for automotive applications where safety is crucial, are also the first AMD 7nm chip to receive auto-qualification.

The infotainment console, digital cluster, and passenger displays of the next-generation car digital cockpit are all powered by Ryzen Embedded V2000A Series processors. The first x86 auto-qualified processor family to deliver the PC-like experience that consumers have grown accustomed to from home entertainment is now available for in-car use with the AMD Ryzen Embedded V2000A Series extension.

Salil Raje, senior vice president and general manager, Adaptive and Embedded Computing Group, AMD, stated, “Our expanding and highly diversified AMD automotive portfolio presents a significant opportunity to serve this high-growth market while also underscoring the tremendous synergy of our combined automotive teams since the acquisition of Xilinx almost two years ago.” “They are thrilled to showcase their accomplishments working in partnership with ecosystem partners that will advance the future of the automotive industry as they look forward to the Consumer Electronics Show in 2024.”

Versal AI Edge XA: AI Engine Enhancement Versal AI Edge XA adaptable SoCs with AI Engines are very advantageous for signal processing, vision, and AI computation. Versal AI Edge XA adaptable SoCs can be utilized in centralized domain controllers, edge sensors like LiDARs, radars, and cameras, and can even execute AI inference on massive data ingests. Different kinds of AI models, including feature tracking and classification, can be handled by the AI engines. The range of this device portfolio is 5 TOPs to 171 TOPs and 20k LUTs to 521k LUTs. With the same tools, ecosystem, and safety certifications, designers can effortlessly scale their designs across this product line.

Versal AI Edge XA adaptable SoCs offer advanced automotive designs, safety and security features, and the ability to accelerate high-performing AI compute applications. Early in 2024, the first gadgets will be made available, with more releases scheduled for the latter part of the year.

“Automakers will use applications for driverless vehicles to develop their brand identities in the future. Automakers require computation platforms that provide strong and effective AI compute because these applications primarily rely on AI, according to James Hodgson, research director at ABI Research. “Suppliers of heterogeneous SoCs with potent and efficient AI compute, like the AMD Versal AI Edge XA, are poised to benefit from a healthy growth opportunity as the number of highly automated vehicles shipping each year is expected to grow at a CAGR of 41% between 2024 and 2030.”

Improving Driver Experiences in-Car with AMD Ryzen Embedded V2000A Electronics have elevated expectations for in-vehicle experiences. AMD launched the AMD Ryzen Embedded V2000A Series processor because entertainment, communication, office on wheels, and safety are becoming more essential customer aspects. With the help of this auto-grade gadget, automakers may provide infotainment and IVX systems with remarkable performance and multitasking, allowing passengers to stay connected while on the road.

With its “Zen 2” cores, powerful AMD Radeon Vega 7 graphics, and cutting-edge 7nm process technology, the AMD Ryzen Embedded V2000A Series processors set a new benchmark for performance. In addition to supporting Automotive Grade Linux and Android Automotive, it offers high-definition graphics, improved security features, and automotive software enablement through hypervisors.

According to Peter Cirino, Chief Operating Officer of ECARX, “Since introducing the ECARX Makalu digital cockpit using AMD Ryzen Embedded processors, they have proven to be key for powering the ECARX automotive solutions that require advanced compute power with visual graphic rendering capabilities.” “ECARX looks forward to expanding the capabilities of the next-generation digital cockpit solutions for software-defined vehicles in 2024 and beyond with the Ryzen Embedded V2000A Series processor.”

AMD at CES advancing automotive With ecosystem partners, AMD will be showcasing a wide spectrum of automotive solutions. In-car experiences, AI-optimized real-time multi-sensor object detection, automated parking, display expansion, LiDAR, 3D surround view, driver monitoring, and more are among the demonstrations that are being given. BlackBerry, Cognata, ECARX, Hesai, Luxoft, QNX, QT, Robosense, SEYOND, Tanway, Visteon, and XYLON are among the automotive ecosystem partners that are taking part.

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NXP and Zendar Inc. accelerate development of high-resolution radar

【Lansheng Technology News】November 8, 2023 - NXP Semiconductors recently announced its investment and cooperation in software startup Zendar Inc. Zendar is committed to transforming automotive autonomous driving systems through high-resolution radar. The investment is designed to accelerate and advance high-resolution radar solutions for autonomous driving and advanced driver assistance systems, further complementing NXP’s leading scalable radar portfolio.

NXP and Zendar will collaborate to develop enhanced high-resolution radar systems for automotive applications based on distributed aperture radar. DAR is a technology developed by Zendar to simplify system solutions. This investment consolidates NXP’s technology leadership position in the automotive radar market, strengthens the ecosystem, and represents another step towards improving road safety.

Both AD and ADAS applications require high-resolution sensing to ensure vehicles operate safely on the road. DAR provides a smart path to this, improving the resolution of high-performance radar systems while eliminating the need for thousands of antenna channels. DAR collaboratively fuses information from multiple radar sensors on the vehicle to form a larger-scale effective antenna, thereby achieving previously unachievable sensing resolution.

The technology enables high angular resolution of less than 0.5°, providing LiDAR-like performance, which is critical for accurately mapping the environment, whereas traditional radar sensors typically have resolutions between 2° and 4°. In addition, DAR's flexible mounting technology offers the potential to further increase resolution.

The radar solution will be based on NXP's widely adopted S32R radar processor platform and RFCMOS SAF8x single-chip SoC. It is customized to cover the increasingly diverse automotive architectures of automotive OEMs and will help accelerate the transition to distributed architectures. Automakers and Tier 1 suppliers will benefit from a high-resolution system that significantly simplifies standard radar, has lower thermal complexity, takes up less space, and is flexible and easy to install.

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Automotive SoC Market Size Forecast to Reach $16.8 Billion by 2026

The Automotive SoC Market size is forecast to reach $16.8 billion by 2026, growing at a CAGR of 7.2% for the period 2021-2026. The Automotive SoC is a designed purpose-built system-on-chip (SoC) for developing highly autonomous cars, integrated with breakthrough cyber security identification, monitor, and investigation systems. The Automotive SoC market is largely driven by the introduction of a plethora of computer-based systems in car, growing popularity of Advanced driving assistance systems, along with the successful launches of electric and hybrid vehicles around the world. The impressive performance of high-end automotive SoCs is influencing the automotive industry to integrate ADAS applications and other tailored artificial intelligence (AI) for enabling operations such as LiDAR point cloud mapping, integrated circuit, real-time 3D mapping and many more. In fact, the potential investment towards modern-age smart cars & vehicles, with integrated circuit solution and automobile connectivity chips, along with high competition in the worldwide automotive industry and rising disposable incomes across the globe is estimated to contribute to the growth of the Automotive SoC Industry. In addition, the growing need for a seamless driving experience and other specific safety mechanism technologies to improve transportation are accelerating the demand for Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Vehicle Type

By Vehicle type, the Automotive SoC Market is segmented into Passengers Cars and Commercial Vehicles. The passenger car segment is analyzed to register the highest share in 2020, and grow at a CAGR of 9.3% in the forecast period due to the breakthrough automotive solution to provide safety critical applications and automated driving solution. The growing demand for higher bandwidth and other connectivity elements for denoting Advanced Driver Assistance Systems drive the market growth. In December 2020, a premier supplier of advanced semiconductor solutions, Renesas Electronics Corporation unveiled the R-Car V3U. The R-Car V3U is an exclusive ASIL D system on chip (SoC) that offers advanced driver assistance systems (ADAS) and automated driving (AD) systems. Hence, the increasing demand for enhanced functional safety and other potential development for automated driving are estimated to drive the Automotive SoC Market.

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Automotive SoC Market Segment Analysis - By Application

By Application, the Automotive SoC Market is segmented into Infotainment Systems, Advanced driver-assistance systems (ADAS), Intelligent Transport System, Connected Vehicle Platform and Others. The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models. In July 2020, Pioneer India, a leading Auto-infotainment system provider launched 3 Car AV receivers with Alexa built-in, for car infotainment. Thus, the growing advancement of automotive infotainment, and the incorporation of latest designs to serve several application bases are estimated to drive the Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Geography

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, followed by Asia-Pacific, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions. Furthermore, the growing consumer demand for luxurious cars and next-generation automobiles, embedded with ADAS, speech recognition, enhanced security, GPS and other feature-rich infotainment systems are driving the growth of the market, specifically in the U.S.A. In August 2020, Qualcomm Technologies, Inc. collaborated with Automotive technology company, Veoneer, Inc. to deliver scalable Advanced Driver Assistance Systems (ADAS). In order to address the impending complexities related with designing advanced driver-assistance systems (ADAS), such as SoC platform, graphics processing unit and other safety compliance, this strategic partnership aims to address the respective concerns across every vehicle tiers. In February 2021, Tata Consultancy Services (TCS), the major IT service provider launched a Neural Automotive and Industrial Experience Center in Troy, Michigan. This Centre offers customers and partners with an automotive garage set-up that further provide access to the advanced technologies to experiment, co-innovate, build prototypes, and launch solutions in an agile way. Therefore, the significant acquisitions among leading manufacturers and investment to deliver next-generation technology is estimated to drive the Automotive SoC Market in this region.

Automotive SoC Market Drivers

Growing prominence of Electric Vehicle market

The growing electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market. In addition, the sensitivity towards cleaner and greener environment across the globe accelerates the sale of the electric vehicles. In February 2020, Mahindra & Mahindra launched the KUV100 electric SUV at the Auto Expo 2020. The new eKUV100 is India’s most affordable electric car that is designed with a 40kW electric motor to deliver 53bhp of power with a peak of 120Nm. In addition, the increasing needs to design sustainable and clean energy pathways, most automakers are collaborating to develop enhanced EV battery technology and other indispensable infrastructure for EV models. In December 2020, the NextEra Energy Resources, LLC, today acquired eIQ Mobility, the leading software provider of mobility planning solutions based in Oakland, California. The acquisition helps the customers to identify varied economic operational ways while selecting suitable electric vehicles and associated charging infrastructure. As the investments from automakers are growing, Royal Dutch Shell acquired Ubitricity, in January 2021, the owner of one of the largest electric vehicle (EV) charging networks in the United Kingdom (UK). Royal Dutch Shell signed this strategic acquisition due to the decision made by the Ubitricity to increase the investments in next-generation EV cars. Thus, all these factors play a major role to formulate the growth of Automotive SoC Market.

Rising demand for Advanced Driver Assistance System (ADAS) Cars

The significant rise in the demand for Advanced Driver Assistance System (ADAS) Cars among consumers due to intelligent speed assistance, advanced safety systems, parking assistance and other automated technology are contributed to promote the growth of the Automotive SoC Market. In January 2020, Samsung launched Digital Cockpit 2020, which utilizes 5G to connection features inside and outside the vehicle, which offers improved connected experiences and safe driving support for drivers and passengers. Hence, the growing awareness about vehicle safety and other real-time monitoring systems to deliver robust opportunities are estimated to drive the growth of Automotive SoC Market.

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Automotive SoC Market Challenges

Growing vulnerability leading to data breaches

With all the advantages of the Automotive SoC system that lead to strong market growth, there is a major concern that is associated with security impediment. The security threat landscape is growing enormously to create possibility of hacking, and thus, it directly impact on humans safety. There are several well-publicized security breaches recently that raise severe concern for designing a complete autonomous driving system, which resulting a key restraining factor for the growth of the Automotive SoC Market.

Market Landscape

Product launches, acquisitions, and R&D activities are key strategies adopted by players in the Automotive SoC Market. The Automotive SoC Market top 10 companies include Infineon Technologies AG, Intel Corporation, NEC Corporation, NVIDIA Corporation, NXP Semiconductors N.V., Qualcomm  Incorporated, Renesas Electronics Corporation, STMicroelectronics N.V., Texas Instruments Incorporated, Telechips, Inc. OmniVision Technologies Inc. and among others.

Partnerships/Product Launches/Contracts

In November 2020, Hyundai Motor Group collaborated with NVIDIA Corporation and launched NVIDIA DRIVE ‘connected car’ infotainment and AI platform, which enables Hyundai Motor Group’s IVI systems to combine with audio, video, navigation, connectivity and artificial intelligence (AI)-based ‘connected car’ services.

In May 2020, a leading developer of advanced digital imaging solutions, OmniVision Technologies, Inc. launched 1.3MP OX01E10 SoC, an automotive SoC for entry-level rear view Cameras with industry's best low-light performance, lowest Power consumption and compact size.

Key Takeaways

The growing Electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market.

The The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models.

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions.

Related Reports

A.Advanced Driver Assistance Systems (ADAS) Market

https://www.industryarc.com/Report/20/advanced-driver-assistance-systems-market.html

B.Automotive Artificial Intelligence Market

https://www.industryarc.com/Report/18530/automotive-artificial-intelligence-market-research-report.html

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Automotive SoC Market Size Forecast to Reach $16.8 Billion by 2026

The Automotive SoC Market size is forecast to reach $16.8 billion by 2026, growing at a CAGR of 7.2% for the period 2021-2026. The Automotive SoC is a designed purpose-built system-on-chip (SoC) for developing highly autonomous cars, integrated with breakthrough cyber security identification, monitor, and investigation systems. The Automotive SoC market is largely driven by the introduction of a plethora of computer-based systems in car, growing popularity of Advanced driving assistance systems, along with the successful launches of electric and hybrid vehicles around the world. The impressive performance of high-end automotive SoCs is influencing the automotive industry to integrate ADAS applications and other tailored artificial intelligence (AI) for enabling operations such as LiDAR point cloud mapping, integrated circuit, real-time 3D mapping and many more. In fact, the potential investment towards modern-age smart cars & vehicles, with integrated circuit solution and automobile connectivity chips, along with high competition in the worldwide automotive industry and rising disposable incomes across the globe is estimated to contribute to the growth of the Automotive SoC Industry. In addition, the growing need for a seamless driving experience and other specific safety mechanism technologies to improve transportation are accelerating the demand for Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Vehicle Type

By Vehicle type, the Automotive SoC Market is segmented into Passengers Cars and Commercial Vehicles. The passenger car segment is analyzed to register the highest share in 2020, and grow at a CAGR of 9.3% in the forecast period due to the breakthrough automotive solution to provide safety critical applications and automated driving solution. The growing demand for higher bandwidth and other connectivity elements for denoting Advanced Driver Assistance Systems drive the market growth. In December 2020, a premier supplier of advanced semiconductor solutions, Renesas Electronics Corporation unveiled the R-Car V3U. The R-Car V3U is an exclusive ASIL D system on chip (SoC) that offers advanced driver assistance systems (ADAS) and automated driving (AD) systems. Hence, the increasing demand for enhanced functional safety and other potential development for automated driving are estimated to drive the Automotive SoC Market.

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Report Price: $ 5900 (Single User License)

Automotive SoC Market Segment Analysis - By Application

By Application, the Automotive SoC Market is segmented into Infotainment Systems, Advanced driver-assistance systems (ADAS), Intelligent Transport System, Connected Vehicle Platform and Others. The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models. In July 2020, Pioneer India, a leading Auto-infotainment system provider launched 3 Car AV receivers with Alexa built-in, for car infotainment. Thus, the growing advancement of automotive infotainment, and the incorporation of latest designs to serve several application bases are estimated to drive the Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Geography

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, followed by Asia-Pacific, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions. Furthermore, the growing consumer demand for luxurious cars and next-generation automobiles, embedded with ADAS, speech recognition, enhanced security, GPS and other feature-rich infotainment systems are driving the growth of the market, specifically in the U.S.A. In August 2020, Qualcomm Technologies, Inc. collaborated with Automotive technology company, Veoneer, Inc. to deliver scalable Advanced Driver Assistance Systems (ADAS). In order to address the impending complexities related with designing advanced driver-assistance systems (ADAS), such as SoC platform, graphics processing unit and other safety compliance, this strategic partnership aims to address the respective concerns across every vehicle tiers. In February 2021, Tata Consultancy Services (TCS), the major IT service provider launched a Neural Automotive and Industrial Experience Center in Troy, Michigan. This Centre offers customers and partners with an automotive garage set-up that further provide access to the advanced technologies to experiment, co-innovate, build prototypes, and launch solutions in an agile way. Therefore, the significant acquisitions among leading manufacturers and investment to deliver next-generation technology is estimated to drive the Automotive SoC Market in this region.

Automotive SoC Market Drivers

Growing prominence of Electric Vehicle market

The growing electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market. In addition, the sensitivity towards cleaner and greener environment across the globe accelerates the sale of the electric vehicles. In February 2020, Mahindra & Mahindra launched the KUV100 electric SUV at the Auto Expo 2020. The new eKUV100 is India’s most affordable electric car that is designed with a 40kW electric motor to deliver 53bhp of power with a peak of 120Nm. In addition, the increasing needs to design sustainable and clean energy pathways, most automakers are collaborating to develop enhanced EV battery technology and other indispensable infrastructure for EV models. In December 2020, the NextEra Energy Resources, LLC, today acquired eIQ Mobility, the leading software provider of mobility planning solutions based in Oakland, California. The acquisition helps the customers to identify varied economic operational ways while selecting suitable electric vehicles and associated charging infrastructure. As the investments from automakers are growing, Royal Dutch Shell acquired Ubitricity, in January 2021, the owner of one of the largest electric vehicle (EV) charging networks in the United Kingdom (UK). Royal Dutch Shell signed this strategic acquisition due to the decision made by the Ubitricity to increase the investments in next-generation EV cars. Thus, all these factors play a major role to formulate the growth of Automotive SoC Market.

Rising demand for Advanced Driver Assistance System (ADAS) Cars

The significant rise in the demand for Advanced Driver Assistance System (ADAS) Cars among consumers due to intelligent speed assistance, advanced safety systems, parking assistance and other automated technology are contributed to promote the growth of the Automotive SoC Market. In January 2020, Samsung launched Digital Cockpit 2020, which utilizes 5G to connection features inside and outside the vehicle, which offers improved connected experiences and safe driving support for drivers and passengers. Hence, the growing awareness about vehicle safety and other real-time monitoring systems to deliver robust opportunities are estimated to drive the growth of Automotive SoC Market.

Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=507943

Automotive SoC Market Challenges

Growing vulnerability leading to data breaches

With all the advantages of the Automotive SoC system that lead to strong market growth, there is a major concern that is associated with security impediment. The security threat landscape is growing enormously to create possibility of hacking, and thus, it directly impact on humans safety. There are several well-publicized security breaches recently that raise severe concern for designing a complete autonomous driving system, which resulting a key restraining factor for the growth of the Automotive SoC Market.

Market Landscape

Product launches, acquisitions, and R&D activities are key strategies adopted by players in the Automotive SoC Market. The Automotive SoC Market top 10 companies include Infineon Technologies AG, Intel Corporation, NEC Corporation, NVIDIA Corporation, NXP Semiconductors N.V., Qualcomm  Incorporated, Renesas Electronics Corporation, STMicroelectronics N.V., Texas Instruments Incorporated, Telechips, Inc. OmniVision Technologies Inc. and among others.

Partnerships/Product Launches/Contracts

In November 2020, Hyundai Motor Group collaborated with NVIDIA Corporation and launched NVIDIA DRIVE ‘connected car’ infotainment and AI platform, which enables Hyundai Motor Group’s IVI systems to combine with audio, video, navigation, connectivity and artificial intelligence (AI)-based ‘connected car’ services.

In May 2020, a leading developer of advanced digital imaging solutions, OmniVision Technologies, Inc. launched 1.3MP OX01E10 SoC, an automotive SoC for entry-level rear view Cameras with industry's best low-light performance, lowest Power consumption and compact size.

Key Takeaways

The growing Electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market.

The The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models.

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions.

Related Reports

A.Advanced Driver Assistance Systems (ADAS) Market

https://www.industryarc.com/Report/20/advanced-driver-assistance-systems-market.html

B.Automotive Artificial Intelligence Market

https://www.industryarc.com/Report/18530/automotive-artificial-intelligence-market-research-report.html

For more Information and Communications Technology Market reports, please click here

Asphalt modifiers market size is forecast to reach US$4.8 billion by 2026, after growing at a CAGR of 5.7% during 2021-2026.

The Automotive SoC Market size is forecast to reach $16.8 billion by 2026, growing at a CAGR of 7.2% for the period 2021-2026. The Automotive SoC is a designed purpose-built system-on-chip (SoC) for developing highly autonomous cars, integrated with breakthrough cyber security identification, monitor, and investigation systems. The Automotive SoC market is largely driven by the introduction of a plethora of computer-based systems in car, growing popularity of Advanced driving assistance systems, along with the successful launches of electric and hybrid vehicles around the world. The impressive performance of high-end automotive SoCs is influencing the automotive industry to integrate ADAS applications and other tailored artificial intelligence (AI) for enabling operations such as LiDAR point cloud mapping, integrated circuit, real-time 3D mapping and many more. In fact, the potential investment towards modern-age smart cars & vehicles, with integrated circuit solution and automobile connectivity chips, along with high competition in the worldwide automotive industry and rising disposable incomes across the globe is estimated to contribute to the growth of the Automotive SoC Industry. In addition, the growing need for a seamless driving experience and other specific safety mechanism technologies to improve transportation are accelerating the demand for Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Vehicle Type

By Vehicle type, the Automotive SoC Market is segmented into Passengers Cars and Commercial Vehicles. The passenger car segment is analyzed to register the highest share in 2020, and grow at a CAGR of 9.3% in the forecast period due to the breakthrough automotive solution to provide safety critical applications and automated driving solution. The growing demand for higher bandwidth and other connectivity elements for denoting Advanced Driver Assistance Systems drive the market growth. In December 2020, a premier supplier of advanced semiconductor solutions, Renesas Electronics Corporation unveiled the R-Car V3U. The R-Car V3U is an exclusive ASIL D system on chip (SoC) that offers advanced driver assistance systems (ADAS) and automated driving (AD) systems. Hence, the increasing demand for enhanced functional safety and other potential development for automated driving are estimated to drive the Automotive SoC Market.

Request for Sample Report  @ https://www.industryarc.com/pdfdownload.php?id=507943

Report Price: $ 5900 (Single User License)

Automotive SoC Market Segment Analysis - By Application

By Application, the Automotive SoC Market is segmented into Infotainment Systems, Advanced driver-assistance systems (ADAS), Intelligent Transport System, Connected Vehicle Platform and Others. The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models. In July 2020, Pioneer India, a leading Auto-infotainment system provider launched 3 Car AV receivers with Alexa built-in, for car infotainment. Thus, the growing advancement of automotive infotainment, and the incorporation of latest designs to serve several application bases are estimated to drive the Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Geography

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, followed by Asia-Pacific, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions. Furthermore, the growing consumer demand for luxurious cars and next-generation automobiles, embedded with ADAS, speech recognition, enhanced security, GPS and other feature-rich infotainment systems are driving the growth of the market, specifically in the U.S.A. In August 2020, Qualcomm Technologies, Inc. collaborated with Automotive technology company, Veoneer, Inc. to deliver scalable Advanced Driver Assistance Systems (ADAS). In order to address the impending complexities related with designing advanced driver-assistance systems (ADAS), such as SoC platform, graphics processing unit and other safety compliance, this strategic partnership aims to address the respective concerns across every vehicle tiers. In February 2021, Tata Consultancy Services (TCS), the major IT service provider launched a Neural Automotive and Industrial Experience Center in Troy, Michigan. This Centre offers customers and partners with an automotive garage set-up that further provide access to the advanced technologies to experiment, co-innovate, build prototypes, and launch solutions in an agile way. Therefore, the significant acquisitions among leading manufacturers and investment to deliver next-generation technology is estimated to drive the Automotive SoC Market in this region.

Automotive SoC Market Drivers

Growing prominence of Electric Vehicle market

The growing electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market. In addition, the sensitivity towards cleaner and greener environment across the globe accelerates the sale of the electric vehicles. In February 2020, Mahindra & Mahindra launched the KUV100 electric SUV at the Auto Expo 2020. The new eKUV100 is India’s most affordable electric car that is designed with a 40kW electric motor to deliver 53bhp of power with a peak of 120Nm. In addition, the increasing needs to design sustainable and clean energy pathways, most automakers are collaborating to develop enhanced EV battery technology and other indispensable infrastructure for EV models. In December 2020, the NextEra Energy Resources, LLC, today acquired eIQ Mobility, the leading software provider of mobility planning solutions based in Oakland, California. The acquisition helps the customers to identify varied economic operational ways while selecting suitable electric vehicles and associated charging infrastructure. As the investments from automakers are growing, Royal Dutch Shell acquired Ubitricity, in January 2021, the owner of one of the largest electric vehicle (EV) charging networks in the United Kingdom (UK). Royal Dutch Shell signed this strategic acquisition due to the decision made by the Ubitricity to increase the investments in next-generation EV cars. Thus, all these factors play a major role to formulate the growth of Automotive SoC Market.

Rising demand for Advanced Driver Assistance System (ADAS) Cars

The significant rise in the demand for Advanced Driver Assistance System (ADAS) Cars among consumers due to intelligent speed assistance, advanced safety systems, parking assistance and other automated technology are contributed to promote the growth of the Automotive SoC Market. In January 2020, Samsung launched Digital Cockpit 2020, which utilizes 5G to connection features inside and outside the vehicle, which offers improved connected experiences and safe driving support for drivers and passengers. Hence, the growing awareness about vehicle safety and other real-time monitoring systems to deliver robust opportunities are estimated to drive the growth of Automotive SoC Market.

Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=507943

Automotive SoC Market Challenges

Growing vulnerability leading to data breaches

With all the advantages of the Automotive SoC system that lead to strong market growth, there is a major concern that is associated with security impediment. The security threat landscape is growing enormously to create possibility of hacking, and thus, it directly impact on humans safety. There are several well-publicized security breaches recently that raise severe concern for designing a complete autonomous driving system, which resulting a key restraining factor for the growth of the Automotive SoC Market.

Market Landscape

Product launches, acquisitions, and R&D activities are key strategies adopted by players in the Automotive SoC Market. The Automotive SoC Market top 10 companies include Infineon Technologies AG, Intel Corporation, NEC Corporation, NVIDIA Corporation, NXP Semiconductors N.V., Qualcomm  Incorporated, Renesas Electronics Corporation, STMicroelectronics N.V., Texas Instruments Incorporated, Telechips, Inc. OmniVision Technologies Inc. and among others.

Partnerships/Product Launches/Contracts

In November 2020, Hyundai Motor Group collaborated with NVIDIA Corporation and launched NVIDIA DRIVE ‘connected car’ infotainment and AI platform, which enables Hyundai Motor Group’s IVI systems to combine with audio, video, navigation, connectivity and artificial intelligence (AI)-based ‘connected car’ services.

In May 2020, a leading developer of advanced digital imaging solutions, OmniVision Technologies, Inc. launched 1.3MP OX01E10 SoC, an automotive SoC for entry-level rear view Cameras with industry's best low-light performance, lowest Power consumption and compact size.

Key Takeaways

The growing Electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market.

The The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models.

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions.

Related Reports

A.Advanced Driver Assistance Systems (ADAS) Market

https://www.industryarc.com/Report/20/advanced-driver-assistance-systems-market.html

B.Automotive Artificial Intelligence Market

https://www.industryarc.com/Report/18530/automotive-artificial-intelligence-market-research-report.html

For more Information and Communications Technology Market reports, please click here

Automotive SoC Market Size Forecast to Reach $16.8 Billion by 2026

The Automotive SoC Market size is forecast to reach $16.8 billion by 2026, growing at a CAGR of 7.2% for the period 2021-2026. The Automotive SoC is a designed purpose-built system-on-chip (SoC) for developing highly autonomous cars, integrated with breakthrough cyber security identification, monitor, and investigation systems. The Automotive SoC market is largely driven by the introduction of a plethora of computer-based systems in car, growing popularity of Advanced driving assistance systems, along with the successful launches of electric and hybrid vehicles around the world. The impressive performance of high-end automotive SoCs is influencing the automotive industry to integrate ADAS applications and other tailored artificial intelligence (AI) for enabling operations such as LiDAR point cloud mapping, integrated circuit, real-time 3D mapping and many more. In fact, the potential investment towards modern-age smart cars & vehicles, with integrated circuit solution and automobile connectivity chips, along with high competition in the worldwide automotive industry and rising disposable incomes across the globe is estimated to contribute to the growth of the Automotive SoC Industry. In addition, the growing need for a seamless driving experience and other specific safety mechanism technologies to improve transportation are accelerating the demand for Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Vehicle Type

By Vehicle type, the Automotive SoC Market is segmented into Passengers Cars and Commercial Vehicles. The passenger car segment is analyzed to register the highest share in 2020, and grow at a CAGR of 9.3% in the forecast period due to the breakthrough automotive solution to provide safety critical applications and automated driving solution. The growing demand for higher bandwidth and other connectivity elements for denoting Advanced Driver Assistance Systems drive the market growth. In December 2020, a premier supplier of advanced semiconductor solutions, Renesas Electronics Corporation unveiled the R-Car V3U. The R-Car V3U is an exclusive ASIL D system on chip (SoC) that offers advanced driver assistance systems (ADAS) and automated driving (AD) systems. Hence, the increasing demand for enhanced functional safety and other potential development for automated driving are estimated to drive the Automotive SoC Market.

Request for Sample Report  @ https://www.industryarc.com/pdfdownload.php?id=507943

Report Price: $ 5900 (Single User License)

Automotive SoC Market Segment Analysis - By Application

By Application, the Automotive SoC Market is segmented into Infotainment Systems, Advanced driver-assistance systems (ADAS), Intelligent Transport System, Connected Vehicle Platform and Others. The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models. In July 2020, Pioneer India, a leading Auto-infotainment system provider launched 3 Car AV receivers with Alexa built-in, for car infotainment. Thus, the growing advancement of automotive infotainment, and the incorporation of latest designs to serve several application bases are estimated to drive the Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Geography

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, followed by Asia-Pacific, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions. Furthermore, the growing consumer demand for luxurious cars and next-generation automobiles, embedded with ADAS, speech recognition, enhanced security, GPS and other feature-rich infotainment systems are driving the growth of the market, specifically in the U.S.A. In August 2020, Qualcomm Technologies, Inc. collaborated with Automotive technology company, Veoneer, Inc. to deliver scalable Advanced Driver Assistance Systems (ADAS). In order to address the impending complexities related with designing advanced driver-assistance systems (ADAS), such as SoC platform, graphics processing unit and other safety compliance, this strategic partnership aims to address the respective concerns across every vehicle tiers. In February 2021, Tata Consultancy Services (TCS), the major IT service provider launched a Neural Automotive and Industrial Experience Center in Troy, Michigan. This Centre offers customers and partners with an automotive garage set-up that further provide access to the advanced technologies to experiment, co-innovate, build prototypes, and launch solutions in an agile way. Therefore, the significant acquisitions among leading manufacturers and investment to deliver next-generation technology is estimated to drive the Automotive SoC Market in this region.

Automotive SoC Market Drivers

Growing prominence of Electric Vehicle market

The growing electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market. In addition, the sensitivity towards cleaner and greener environment across the globe accelerates the sale of the electric vehicles. In February 2020, Mahindra & Mahindra launched the KUV100 electric SUV at the Auto Expo 2020. The new eKUV100 is India’s most affordable electric car that is designed with a 40kW electric motor to deliver 53bhp of power with a peak of 120Nm. In addition, the increasing needs to design sustainable and clean energy pathways, most automakers are collaborating to develop enhanced EV battery technology and other indispensable infrastructure for EV models. In December 2020, the NextEra Energy Resources, LLC, today acquired eIQ Mobility, the leading software provider of mobility planning solutions based in Oakland, California. The acquisition helps the customers to identify varied economic operational ways while selecting suitable electric vehicles and associated charging infrastructure. As the investments from automakers are growing, Royal Dutch Shell acquired Ubitricity, in January 2021, the owner of one of the largest electric vehicle (EV) charging networks in the United Kingdom (UK). Royal Dutch Shell signed this strategic acquisition due to the decision made by the Ubitricity to increase the investments in next-generation EV cars. Thus, all these factors play a major role to formulate the growth of Automotive SoC Market.

Rising demand for Advanced Driver Assistance System (ADAS) Cars

The significant rise in the demand for Advanced Driver Assistance System (ADAS) Cars among consumers due to intelligent speed assistance, advanced safety systems, parking assistance and other automated technology are contributed to promote the growth of the Automotive SoC Market. In January 2020, Samsung launched Digital Cockpit 2020, which utilizes 5G to connection features inside and outside the vehicle, which offers improved connected experiences and safe driving support for drivers and passengers. Hence, the growing awareness about vehicle safety and other real-time monitoring systems to deliver robust opportunities are estimated to drive the growth of Automotive SoC Market.

Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=507943

Automotive SoC Market Challenges

Growing vulnerability leading to data breaches

With all the advantages of the Automotive SoC system that lead to strong market growth, there is a major concern that is associated with security impediment. The security threat landscape is growing enormously to create possibility of hacking, and thus, it directly impact on humans safety. There are several well-publicized security breaches recently that raise severe concern for designing a complete autonomous driving system, which resulting a key restraining factor for the growth of the Automotive SoC Market.

Market Landscape

Product launches, acquisitions, and R&D activities are key strategies adopted by players in the Automotive SoC Market. The Automotive SoC Market top 10 companies include Infineon Technologies AG, Intel Corporation, NEC Corporation, NVIDIA Corporation, NXP Semiconductors N.V., Qualcomm  Incorporated, Renesas Electronics Corporation, STMicroelectronics N.V., Texas Instruments Incorporated, Telechips, Inc. OmniVision Technologies Inc. and among others.

Partnerships/Product Launches/Contracts

In November 2020, Hyundai Motor Group collaborated with NVIDIA Corporation and launched NVIDIA DRIVE ‘connected car’ infotainment and AI platform, which enables Hyundai Motor Group’s IVI systems to combine with audio, video, navigation, connectivity and artificial intelligence (AI)-based ‘connected car’ services.

In May 2020, a leading developer of advanced digital imaging solutions, OmniVision Technologies, Inc. launched 1.3MP OX01E10 SoC, an automotive SoC for entry-level rear view Cameras with industry's best low-light performance, lowest Power consumption and compact size.

Key Takeaways

The growing Electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market.

The The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models.

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions.

Related Reports

A.Advanced Driver Assistance Systems (ADAS) Market

https://www.industryarc.com/Report/20/advanced-driver-assistance-systems-market.html

B.Automotive Artificial Intelligence Market

https://www.industryarc.com/Report/18530/automotive-artificial-intelligence-market-research-report.html

For more Information and Communications Technology Market reports, please click here

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Automotive SoC Market Size Forecast to Reach $16.8 Billion by 2026

The Automotive SoC Market size is forecast to reach $16.8 billion by 2026, growing at a CAGR of 7.2% for the period 2021-2026. The Automotive SoC is a designed purpose-built system-on-chip (SoC) for developing highly autonomous cars, integrated with breakthrough cyber security identification, monitor, and investigation systems. The Automotive SoC market is largely driven by the introduction of a plethora of computer-based systems in car, growing popularity of Advanced driving assistance systems, along with the successful launches of electric and hybrid vehicles around the world. The impressive performance of high-end automotive SoCs is influencing the automotive industry to integrate ADAS applications and other tailored artificial intelligence (AI) for enabling operations such as LiDAR point cloud mapping, integrated circuit, real-time 3D mapping and many more. In fact, the potential investment towards modern-age smart cars & vehicles, with integrated circuit solution and automobile connectivity chips, along with high competition in the worldwide automotive industry and rising disposable incomes across the globe is estimated to contribute to the growth of the Automotive SoC Industry. In addition, the growing need for a seamless driving experience and other specific safety mechanism technologies to improve transportation are accelerating the demand for Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Vehicle Type

By Vehicle type, the Automotive SoC Market is segmented into Passengers Cars and Commercial Vehicles. The passenger car segment is analyzed to register the highest share in 2020, and grow at a CAGR of 9.3% in the forecast period due to the breakthrough automotive solution to provide safety critical applications and automated driving solution. The growing demand for higher bandwidth and other connectivity elements for denoting Advanced Driver Assistance Systems drive the market growth. In December 2020, a premier supplier of advanced semiconductor solutions, Renesas Electronics Corporation unveiled the R-Car V3U. The R-Car V3U is an exclusive ASIL D system on chip (SoC) that offers advanced driver assistance systems (ADAS) and automated driving (AD) systems. Hence, the increasing demand for enhanced functional safety and other potential development for automated driving are estimated to drive the Automotive SoC Market.

Request for Sample Report  @ https://www.industryarc.com/pdfdownload.php?id=507943

Report Price: $ 5900 (Single User License)

Automotive SoC Market Segment Analysis - By Application

By Application, the Automotive SoC Market is segmented into Infotainment Systems, Advanced driver-assistance systems (ADAS), Intelligent Transport System, Connected Vehicle Platform and Others. The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models. In July 2020, Pioneer India, a leading Auto-infotainment system provider launched 3 Car AV receivers with Alexa built-in, for car infotainment. Thus, the growing advancement of automotive infotainment, and the incorporation of latest designs to serve several application bases are estimated to drive the Automotive SoC Market.

Automotive SoC Market Segment Analysis – By Geography

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, followed by Asia-Pacific, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions. Furthermore, the growing consumer demand for luxurious cars and next-generation automobiles, embedded with ADAS, speech recognition, enhanced security, GPS and other feature-rich infotainment systems are driving the growth of the market, specifically in the U.S.A. In August 2020, Qualcomm Technologies, Inc. collaborated with Automotive technology company, Veoneer, Inc. to deliver scalable Advanced Driver Assistance Systems (ADAS). In order to address the impending complexities related with designing advanced driver-assistance systems (ADAS), such as SoC platform, graphics processing unit and other safety compliance, this strategic partnership aims to address the respective concerns across every vehicle tiers. In February 2021, Tata Consultancy Services (TCS), the major IT service provider launched a Neural Automotive and Industrial Experience Center in Troy, Michigan. This Centre offers customers and partners with an automotive garage set-up that further provide access to the advanced technologies to experiment, co-innovate, build prototypes, and launch solutions in an agile way. Therefore, the significant acquisitions among leading manufacturers and investment to deliver next-generation technology is estimated to drive the Automotive SoC Market in this region.

Automotive SoC Market Drivers

Growing prominence of Electric Vehicle market

The growing electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market. In addition, the sensitivity towards cleaner and greener environment across the globe accelerates the sale of the electric vehicles. In February 2020, Mahindra & Mahindra launched the KUV100 electric SUV at the Auto Expo 2020. The new eKUV100 is India’s most affordable electric car that is designed with a 40kW electric motor to deliver 53bhp of power with a peak of 120Nm. In addition, the increasing needs to design sustainable and clean energy pathways, most automakers are collaborating to develop enhanced EV battery technology and other indispensable infrastructure for EV models. In December 2020, the NextEra Energy Resources, LLC, today acquired eIQ Mobility, the leading software provider of mobility planning solutions based in Oakland, California. The acquisition helps the customers to identify varied economic operational ways while selecting suitable electric vehicles and associated charging infrastructure. As the investments from automakers are growing, Royal Dutch Shell acquired Ubitricity, in January 2021, the owner of one of the largest electric vehicle (EV) charging networks in the United Kingdom (UK). Royal Dutch Shell signed this strategic acquisition due to the decision made by the Ubitricity to increase the investments in next-generation EV cars. Thus, all these factors play a major role to formulate the growth of Automotive SoC Market.

Rising demand for Advanced Driver Assistance System (ADAS) Cars

The significant rise in the demand for Advanced Driver Assistance System (ADAS) Cars among consumers due to intelligent speed assistance, advanced safety systems, parking assistance and other automated technology are contributed to promote the growth of the Automotive SoC Market. In January 2020, Samsung launched Digital Cockpit 2020, which utilizes 5G to connection features inside and outside the vehicle, which offers improved connected experiences and safe driving support for drivers and passengers. Hence, the growing awareness about vehicle safety and other real-time monitoring systems to deliver robust opportunities are estimated to drive the growth of Automotive SoC Market.

Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=507943

Automotive SoC Market Challenges

Growing vulnerability leading to data breaches

With all the advantages of the Automotive SoC system that lead to strong market growth, there is a major concern that is associated with security impediment. The security threat landscape is growing enormously to create possibility of hacking, and thus, it directly impact on humans safety. There are several well-publicized security breaches recently that raise severe concern for designing a complete autonomous driving system, which resulting a key restraining factor for the growth of the Automotive SoC Market.

Market Landscape

Product launches, acquisitions, and R&D activities are key strategies adopted by players in the Automotive SoC Market. The Automotive SoC Market top 10 companies include Infineon Technologies AG, Intel Corporation, NEC Corporation, NVIDIA Corporation, NXP Semiconductors N.V., Qualcomm  Incorporated, Renesas Electronics Corporation, STMicroelectronics N.V., Texas Instruments Incorporated, Telechips, Inc. OmniVision Technologies Inc. and among others.

Partnerships/Product Launches/Contracts

In November 2020, Hyundai Motor Group collaborated with NVIDIA Corporation and launched NVIDIA DRIVE ‘connected car’ infotainment and AI platform, which enables Hyundai Motor Group’s IVI systems to combine with audio, video, navigation, connectivity and artificial intelligence (AI)-based ‘connected car’ services.

In May 2020, a leading developer of advanced digital imaging solutions, OmniVision Technologies, Inc. launched 1.3MP OX01E10 SoC, an automotive SoC for entry-level rear view Cameras with industry's best low-light performance, lowest Power consumption and compact size.

Key Takeaways

The growing Electric Vehicle market due to advanced electric infrastructure, strong government initiative and increasing demand for zero-emission vehicles is fueling the growth of the Automotive SoC Market.

The The Infotainment Systems segment is analyzed to register the highest share in 2020, and grow at a CAGR of 8% in 2021 to 2026, owing to the emergence of various in-vehicle infotainment systems and the intelligent connected solution to cater various car models.

North America dominated the Automotive SoC Market in 2020, and projected to grow at CAGR of 6.63% in the forecast period, owing to the presence of innovative semiconductor technology providers and fiercely competitive automotive market to provide next-generation automotive solutions.

Related Reports

A.Advanced Driver Assistance Systems (ADAS) Market

https://www.industryarc.com/Report/20/advanced-driver-assistance-systems-market.html

B.Automotive Artificial Intelligence Market

https://www.industryarc.com/Report/18530/automotive-artificial-intelligence-market-research-report.html

For more Information and Communications Technology Market reports, please click here

The automotive LiDAR system-on-chip (SoC) market is expected to be valued at $29.3 million in 2024, which is anticipated to grow at a CAGR of 24.30% and reach $207.5 million by 2033. The growth in the automotive LiDAR system-on-chip (SoC) market is expected to be driven by technological advancements in autonomous vehicles and extensive use of LiDARs in highly automated vehicles, tremendous advancement in automotive LiDAR research and development (R&D) to improve the features of the LiDAR system, and an anticipated decline in LiDAR manufacturing costs after the start of mass production.

Automotive LiDAR System-on-Chip (SoC) Market | BIS Research

The automotive LiDAR system-on-chip market is expected to be valued at $29.3 million in 2024, which is anticipated to grow at a CAGR of 24.30% to reach $207.5 million by 2033 during the forecast period of 2024-2034.

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Mobileye Puts Lidar on a Chip—and Helps Map Intel's Future

“The advantage that silicon photonics can bring is a small form factor solution, which can result in a compact size of the device in the car at the end,” says Kiyoul Yang, a postdoctoral researcher at Stanford University who focuses on photonic hardware. Many companies today use a lidar system based on rotating mirrors, Yang says, which requires the manufacture of discrete, expensive components. “If everything can be integrated in a chip in a small form factor, then everything can be produced with a low cost,” he says.

Again, Mobileye is not the only company banking on FMCW, or lidar chips more broadly. But it does have a distinct advantage in that Intel already has a silicon photonics manufacturing facility up and running in New Mexico. “Being able to build an FMCW lidar requires know-how, but also if you don’t have the special fabs to create the lidar on a chip, it becomes too expensive. It become unwieldy,” says Shashua. He expects the cost of each lidar SoC to be in the hundreds of dollars each, orders of magnitude cheaper than what systems cost today.

Even if Mobileye’s production roadmap holds steady, a uncertain regulatory outlook could slow its timeline. Still, it’s making nearer-term progress as well, announcing at CES today that it would expand its autonomous vehicle testing to Detroit, Paris, Tokyo, and Shanghai in 2020. (The locations are strategic; each is near a car manufacturer that Mobileye supplies self-driving technologies for.) And it has used the millions of cars with Mobileye onboard to crowdsource a map of almost 1 billion kilometers of the world’s roads to date, processing 8 million kilometers every single day. For all the attention Tesla gets, Mobileye is by far the market share leader in the autonomous driving space.

That reputation, and Intel’s deep pockets will help it against smaller competitors in the lidar SoC race. “I’m a big believer that in the auto industry, trustworthiness is a big differentiator,” says Mike Ramsey, an automotive analyst at Gartner. “Can I trust this vendor to deliver on time, to deliver in quality? And Intel has the very important feature of being a very large throat to choke if something goes wrong. Don’t underestimate the value in that.”

Mobileye makes up a small percentage of Intel’s revenue overall. But along with the client computing group—that is, the chips that go into PC and adjacent products—it’s the only segment that grew in the company’s most recent quarter. It’s exactly the kind of new territory that Intel needs to stake out aggressively to avoid another smartphone-style miss.

“If you look long-term, a company like Intel needs to look for new growth domains. It’s not easy to find one. You want to look for a new market that is the size of hundreds of billions of dollars,” says Shashua, as well as one that leverages Intel’s strengths. “Those domains are rare. We are in that domain.”

XPU Marks the Spot

Mobileye’s lidar SoC is the sharpest example of what Intel calls its “XPU” strategy, that is, looking beyond the CPU to computing in all of its many forms. The company launched its first discrete graphics card last fall, has a dominant position in data center processors, and in 2019 acquired AI chipmaker Habana Labs, which a few weeks ago won business from Amazon Web Services to use its accelerators to train deep learning models.

“At our heart we’re a computing company,” says Gregory Bryant, who leads Intel’s client computing group. “We see this world where more and more things need computing, more and more things look like a computer, not just the server or the PC but the automobile, the home, the factory, the hospital. All those things need computing, and need intelligence.”

That broadening out comes at a time that Intel faces more challenges than ever to its traditional business lines. Manufacturing delays have kept it stuck on a 10-nanometer process for fabricating its chips, while competitors have moved on to smaller forms. The company’s chief engineering officer, Murthy Renduchintala, left last summer. And the hedge fund Third Point issued a scorching public letter in late December, calling on Intel to “retain a reputable investment advisor to evaluate strategic alternatives, including whether Intel should remain an integrated device manufacturer and the potential divestment of certain failed acquisitions.”

Qualcomm Enters the Autonomous-Car Computing Ring with Snapdragon Ride

A few years ago, I attended Nvidia’s GPU Technical Conference, and during its Steve Jobs–ian keynote address, Nvidia founder Jenson Huang invited Elon Musk onto the stage for a friendly chat about technology. But by August of last year, the valentines floating back and forth that day had ended. After severing ties with Mobileye, who were the computing supplier of Autopilot’s HW1 (Hardware 1), Musk then jettisoned Nvidia, who’d been supplying the electronics for HW2 and HW2.5, too. The substantially more powerful HW3 (needed to absorb the data firehose that accompanies Full Self Driving) would now be designed in-house by Tesla, and in an especially Alpha moment of Silicon Valley chest-beating, claimed it could calculate at a rate of 144 TOPS (trillion operations per second)—clobbering the 21 TOPS of Nvidia’s Drive Xavier. Nvidia responded with a polite retort to those claims: Drive Xavier can do 30 TOPS, and moreover that’s the wrong comparison anyway. Drive Xavier was aimed at simpler, Level 2+ computing; HW3 should be compared to Nvidia’s 320-TOPS Drive AGX Pegasus—which it had specifically created for fully autonomous driving. (Moreover, Xavier itself can be goosed to 160 TOPS by adding a Pegasus GPU). Media critics, in turn, pointed out Pegasus’s high power-consumption (notably, the more recently introduced Drive AGX Orin can reline at 200 TOPS, with lower power demands).

I’m walking you through this arcane preamble of strange-sounding metrics to set our scene: although there’s a long list of companies chasing the AI smarts for autonomous driving, only Mobileye (Intel), Nvidia, and Tesla are making their own computing hardware. And the last two are engaged in a public performance war. Well, now the number of players has grown to four.

During CES 2020, Qualcomm hurled its hat into the ring—big time—with Snapdragon Ride. Qualcomm explains that it’s built on “scalable and modular heterogenous high-performance multi-core CPUs, energy-efficient AI and computer vision (CV) engines, and industry-leading GPU. The platform, with a combination of SoC (System on a chip) and accelerator can be used as needed to address every market segment offering industry-leading thermal efficiency, from 30 TOPS for L1/L2 applications to over 700 TOPS at 130W for L4/L5 driving.” It’s expandable—in daisy-chain fashion—and notably, is air- (not liquid-) cooled. Also eye-catching is that Qualcomm appears to be resisting the use of LiDAR—the first player to publicly side with Musk and his bet on radar and computer vision.

Qualcomm also sprinkled in a few other tech delicacies into its announcement—notably its dual, LTE-modem Snapdragon S820Am Automotive Platform that’ll appear in the Land Rover Defender 90 and 110 (allowing for simultaneous over-the-air software updates and streaming entertainment), and the C-V2X (cellular vehicle to everything) reference platform that extends the connected car into roadside infrastructure. But it’s Snapdragon Ride (available for testing in the first half of 2020 and scale production in 2023) that’s in the autonomous-tech spotlight as the San Diego challenger takes on the Silicon Valley Big Three. Make room, Nvidia, Mobileye, and Tesla.

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