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Price: [price_with_discount] (as of [price_update_date] - Details) [ad_1] Enhance your automotive IoT design and development knowledge by learning vehicle architectures, cybersecurity best practices, cloud applications, and software development processesKey Features: - Explore modern vehicle architectures designed to support automotive IoT use cases- Discover cybersecurity practices and processes to develop secure automotive IoT applications- Gain insights into how cloud technologies and services power automotive IoT applications- Purchase of the print or Kindle book includes a free PDF eBookBook Description: Software-defined vehicles, equipped with extensive computing power and connectivity, are unlocking new possibilities in automotive Internet of Things (IoT) applications, creating a critical need for skilled software engineers to lead innovation in the automotive sector. This book equips you to thrive in this industry by learning automotive IoT software development.The book starts by examining the current trends in automotive technology, highlighting IoT applications and key vehicle architectures, including the AUTOSAR platform. It delves into both classic and service-oriented vehicle diagnostics before covering robust security practices for automotive IoT development. You'll learn how to adhere to industry standards such as ISO/SAE 21434, ASPICE for cybersecurity, and DevSecOps principles, with practical guidance on establishing a secure software development platform. Advancing to the system design of an automotive IoT application, you'll be guided through the development of a remote vehicle diagnostics application and progress through chapters step by step, addressing the critical aspects of deploying and maintaining IoT applications in production environments.By the end of the book, you'll be ready to integrate all the concepts you've learned to form a comprehensive framework of processes and best practices for embedded automotive development.What You Will Learn: - Explore the current automotive landscape and IoT tech trends- Examine automotive IoT use cases such as phone-as-a-key, predictive maintenance, and V2X- Grasp standard frameworks such as classic and adaptive AUTOSAR- Get to grips with vehicle diagnostic protocols such as UDS, DoIP, and SOVD- Establish a secure development process and mitigate software supply chain risks with CIAD, RASIC, and SBOM- Leverage ASPICE and functional safety processes for industry standards compliance- Understand how to design, develop, and deploy an automotive IoT applicationWho this book is for: This book is for embedded developers and software engineers working in the automotive industry looking to learn IoT development, as well as IoT developers who want to learn automotive development. A fundamental grasp of software development will assist with understanding the concepts covered in the book.Table of Contents- Automotive Technology Trends- Introducing Automotive IoT Use Cases- Vehicle Architecture and Framework- Vehicle Diagnostics- Next Wave of Vehicle Diagnostics- Exploring Secure Development Processes for Automotive IoT- Establishing a Secure Software Development Platform- Securing the Software Supply Chain- System Design of an Automotive IoT Application- Developing an Automotive IoT Application- Deploying and Maintaining an Automotive IoT Application- Processes and Practices- Embedded Automotive IoT Development- Final Thoughts Publisher ‏ : ‎ Packt Publishing (28 August 2024) Language ‏ : ‎ English Paperback ‏ : ‎ 358 pages ISBN-10

‏ : ‎ 1835465501 ISBN-13 ‏ : ‎ 978-1835465509 Item Weight ‏ : ‎ 630 g Dimensions ‏ : ‎ 2.18 x 19.05 x 23.5 cm Country of Origin ‏ : ‎ India [ad_2]

The Samsung AM9C1 Automotive SSD With 8th-Gen V-NAND

Using 8th-generation V-NAND,Samsung Electronics Creates the First Automotive SSD in the Industry

Automotive SSD

With a 5nm controller, SLC mode option, and cutting-edge V-NAND technology, the 256GB AM9C1 has the quickest speed in the industry. For next-generation cars with on-device AI capabilities, the SSD is the best option because to its improved performance and dependability.

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The first PCIe 4.0 vehicle SSD based on eighth-generation vertical NAND (V-NAND) was successfully produced by Samsung Electronics, a global leader in advanced memory technology, the company stated today. The AM9C1 auto SSD is the finest choice for on-device AI capabilities in automotive applications because it provides better endurance and industry-leading performance.

The new 256GB auto SSD will provide sequential read and write rates of up to 4,400 megabytes-per-second (MB/s) and 400MB/s, respectively, with around 50% better power efficiency than its predecessor, AM991.

“By offering high-performance, high-capacity automotive products, Samsung collaborating with global autonomous vehicle makers,” stated Hyunduk Cho, Vice President and Head of Automotive Group at Samsung Electronics’ Memory Business. Samsung will maintain its position as the industry leader in Physical AI memory, which includes robotics and autonomous driving technology.

With its single-level cell (SLC) Namespace feature and built on Samsung’s 5-nanometer (nm) controller, the AM9C1 exhibits excellent performance, making files containing large amounts of data easy to access. Users can take advantage of the increased read and write speeds of up to 4,700MB/s and 1,400MB/s, respectively, by transitioning from the original triple-level cell (TLC) state to SLC mode. Additionally, SLC SSDs offer increased dependability.

With important partners, the 256GB AM9C1 is already undergoing sampling, and by year’s end, mass production is anticipated to start. As the market for high-capacity automotive SSDs continues to grow, Samsung intends to release several storage lineups of the AM9C1, with capacities ranging from 128GB to 2 terabytes (TB). Early in the following year, the largest 2TB model in the industry is expected to go into mass production.

Samsung’s new automotive SSD product meets the automotive semiconductor quality standard AEC-Q100 Grade 2 with more rigorous board-level testing, guaranteeing consistent performance throughout a broad temperature range of -40°C to 105°C.

Samsung also uses a number of quality assurance procedures to make sure that its products meet the strict durability and stability requirements of the automobile industry. With its UFS 3.1 software, the business obtained ASPICE Automotive Software Process Improvement and Capability dEtermination CL3 authentication in March of this year.

Samsung will work to maintain and improve its automotive products’ technological stability to achieve ISO/SAE 21434-based CSMS certification.

The ISO/SAE 21434 and ASPICE certifications, according to Hwaseok Oh, Executive Vice President of Samsung Electronics’ Memory Business, “are milestones that affirm the reliability and stability of Samsung technology.” “Samsung will keep improving the quality and stability of its products, giving important partners the best option.”

Samsung Electronics

Samsung’s groundbreaking technologies inspire people worldwide and shape the future. Through its SmartThings ecosystem and open collaboration with partners, the company is changing TVs, smartphones, wearables, tablets, home appliances, network systems, memory, system LSI, foundry, and LED solutions. It is also creating a seamless connected experience.

Automotive grade SSD

Surpassing transportation, and into a space of fun

Complete range of performance memory. Samsung’s expanded line-up of NAND products offers diverse solutions optimized for automotive use. Exceptional eMMC, UFS, and AutoSSD empower the next generation of hugely upgraded in-vehicle infotainment systems, for outstanding mobility experiences.

AutoSSD

BGA-type AutoSSD’s are ideal for creating PKG structures specialized for the automotive industry. Up to 1TB of storage and max 2,300 MB/s read speed equip vehicles with ultrafast in-vehicle data management.

Automotive solutions

Product collections for automotive that fits your needs. Automotive solutions comprise an extensive array of goods, services, and technologies intended to improve the functionality, economy, security, and comfort of automobiles.

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Security Challenges in In-Vehicle Networks: Safeguarding Connected Vehicles

As vehicles become increasingly connected, cybersecurity emerges as a critical concern for safeguarding in-vehicle networks against cyber threats and unauthorized access. This article explores the security challenges faced by in-vehicle networks and strategies to enhance cybersecurity in connected vehicles.

The Rise of Connected Vehicles

Connected Vehicle Technologies: Connected vehicles integrate IoT devices, telematics systems, and wireless communication technologies to enhance vehicle connectivity, entertainment options, and safety features. However, increased connectivity exposes in-vehicle networks to cybersecurity vulnerabilities and risks.

Cyber Threat Landscape: In-vehicle networks are vulnerable to cyber threats, including remote hacking, malware attacks, and unauthorized access to vehicle systems. Cybercriminals exploit vulnerabilities in communication protocols, software interfaces, and wireless connections to compromise vehicle security.

Key Security Challenges

Data Privacy Concerns: Connected vehicles collect and transmit sensitive data, including driver behavior, location information, and vehicle diagnostics. Ensuring data privacy through encryption, secure authentication, and data anonymization protects user information from unauthorized access and misuse.

Software Vulnerabilities: In-vehicle networks rely on complex software systems and firmware updates to support advanced functionalities. Software vulnerabilities, such as buffer overflows and injection attacks, pose risks to system integrity and require timely patches and security updates.

Securing In-Vehicle Networks

Encryption and Authentication: Implementing strong encryption algorithms and secure authentication mechanisms safeguards in-vehicle communication channels against eavesdropping and tampering. Encryption protects data confidentiality, while authentication verifies the integrity and authenticity of data exchanges.

Intrusion Detection Systems: Deploying intrusion detection systems (IDS) monitors in-vehicle networks for suspicious activities and potential cyber threats. IDS detect anomalies in network traffic, unauthorized access attempts, and malicious behavior, enabling timely responses and mitigating security risks.

Regulatory Compliance and Standards

Automotive Safety Standards: Regulatory bodies, such as UN ECE and ISO, establish cybersecurity standards and guidelines for automotive manufacturers. Compliance with standards, such as ISO 21434 for cybersecurity engineering and UN R155 for software updates, ensures vehicle safety and regulatory adherence.

Collaboration and Information Sharing: Automotive stakeholders collaborate with cybersecurity experts, government agencies, and industry partners to share threat intelligence, best practices, and cybersecurity frameworks. Collective efforts strengthen the resilience of in-vehicle networks against evolving cyber threats.

Future Directions and Innovations

Blockchain Technology: Blockchain-based solutions offer decentralized, immutable records for secure OTA updates, software validation, and transaction verification. Blockchain enhances transparency, auditability, and traceability of in-vehicle network activities, reinforcing cybersecurity measures.

AI-Powered Security Solutions: Integration of artificial intelligence (AI) and machine learning (ML) enhances in-vehicle network security by predicting cyber threats, identifying patterns of suspicious behavior, and automating incident response. AI-driven security solutions improve threat detection capabilities and mitigate risks in real-time.

Conclusion

Securing in-vehicle networks is imperative for protecting connected vehicles against cyber threats and ensuring data privacy for vehicle occupants. By implementing robust cybersecurity measures, adhering to regulatory standards, and embracing innovative technologies, automotive manufacturers mitigate security risks, enhance consumer trust, and promote safe and secure driving experiences.

Challenges and Solutions in Embedded Software for Automotive Cybersecurity

In the rapidly evolving landscape of automotive technology, embedded software plays a crucial role in enabling advanced functionalities and connectivity features. However, this integration of software into vehicles also brings forth significant challenges, particularly in ensuring cybersecurity. This article explores the key challenges faced in embedded software automative for automotive cybersecurity and proposes effective solutions to mitigate these risks.

Understanding Embedded Software in Automotive Context

Embedded software in automotive systems refers to the specialized programs that control various electronic components within vehicles. These systems encompass everything from engine control units (ECUs) to infotainment systems and advanced driver-assistance systems (ADAS). The critical nature of these applications demands robust cybersecurity measures to protect against potential threats.

Key Challenges in Embedded Software Automotive Cybersecurity

Vulnerability to Cyber Attacks

As vehicles become more connected, they are increasingly susceptible to cyber threats. Hackers can exploit vulnerabilities in embedded software to gain unauthorized access to vehicle systems, compromising safety and privacy. The challenge lies in securing every entry point, from wireless communications to onboard diagnostics (OBD-II) ports.

Complex Supply Chain Ecosystem

The automotive supply chain is complex, involving multiple vendors and subcontractors. Each component supplier integrates their software into the vehicle's ecosystem, creating challenges in ensuring consistent cybersecurity standards across all embedded systems.

Regulatory Compliance

Stringent regulations, such as ISO 21434 and UNECE WP.29 regulations, mandate cybersecurity requirements for automotive systems. Complying with these standards adds complexity and cost to embedded software development while ensuring vehicles meet global cybersecurity norms.

Increasing Software Complexity

Modern vehicles feature sophisticated software-intensive systems that control not only mechanical operations but also autonomous driving capabilities. The complexity of these systems amplifies the challenge of identifying and mitigating vulnerabilities without compromising performance or functionality.

Solutions to Enhance Automotive Cybersecurity

Implementing Secure Coding Practices

Adopting secure coding practices from the initial stages of software development can prevent common vulnerabilities like buffer overflows and SQL injections. Techniques such as code reviews and static analysis tools help identify and rectify potential security flaws before deployment.

Utilizing Intrusion Detection Systems (IDS)

Intrusion detection systems monitor network traffic and system behavior to detect and respond to suspicious activities promptly. IDS can identify anomalies indicative of cyber attacks and enable rapid incident response to mitigate potential threats.

Conducting Regular Security Audits

Regular security audits and penetration testing are essential to assess the robustness of embedded software against evolving cyber threats. These audits simulate real-world attack scenarios to identify weaknesses and implement corrective measures proactively.

Implementing Over-the-Air (OTA) Updates

OTA updates enable manufacturers to deploy security patches and software updates remotely, reducing the risk of exploitation from known vulnerabilities. OTA capabilities ensure that vehicles remain protected with the latest cybersecurity enhancements without requiring physical recalls.

Conclusion

As automotive technology continues to advance, the integration of embedded software automative becomes increasingly pivotal in enhancing vehicle functionality and user experience. However, the cybersecurity challenges associated with embedded software in automotive systems necessitate a proactive approach to mitigate risks effectively. By implementing robust security measures, adhering to regulatory standards, and embracing continuous improvement practices, automotive manufacturers can safeguard vehicles against emerging cyber threats and ensure a secure driving experience for consumers worldwide.

In summary, addressing cybersecurity challenges in embedded software for automotive systems requires a holistic strategy that integrates secure coding practices, intrusion detection systems, regular security audits, and OTA updates. By prioritizing cybersecurity from inception to deployment, automotive manufacturers can uphold safety, privacy, and regulatory compliance in an interconnected automotive ecosystem.

To Know More About embedded software automative

Full Vehicle Testing – Cybersecurity verification and validation

Full Vehicle Testing – Cybersecurity verification and validation as part of the homologation process. UN R 155: Requirements for security validation ISO/SAE 21434: Validation activities at vehicle level ISO/ SAE 8477: To follow as dedicated standard for Cybersecurity verification and validation. Step 1: Initial Exploration (Organizational prerequisites, Logistical setup)     Before the…

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IoT Security and its Fundamentals Protecting the Connected World

IoT Security and its Fundamentals Protecting the Connected World The Internet of Things (IoT) has revolutionized the way we interact with technology by enabling seamless communication between devices and the internet. From smart homes and connected vehicles to industrial automation and healthcare systems, IoT has found its application in virtually every sector. However, this proliferation of interconnected devices has also introduced a range of security challenges that need to be addressed to ensure the privacy, integrity, and availability of data and services. In this article, we will delve into the fundamentals of IoT security and explore strategies to protect the connected world. Device Authentication and Authorization: Ensuring that only authorized devices can access the IoT network is crucial. Secure authentication mechanisms, such as digital certificates, biometrics, and two-factor authentication, can help prevent unauthorized access.

Data Encryption: Given the sensitive nature of IoT data, it’s essential to encrypt both data at rest and data in transit. Strong encryption protocols like TLS (Transport Layer Security) safeguard data from interception and tampering.

Network Security: IoT networks can be vulnerable to attacks like man-in-the-middle attacks and eavesdropping. Implementing secure communication protocols and regular network monitoring can help detect and prevent these threats.

Firmware and Software Updates: Regular updates are necessary to address vulnerabilities and security flaws in IoT devices. Manufacturers should provide mechanisms for secure and timely firmware and software updates. IoT Security Testing: Explain the significance of penetration testing and vulnerability assessments specifically tailored to IoT environments. These tests simulate real-world attacks to identify weaknesses and provide insights into improving security measures.

Regulatory Compliance: Discuss how IoT security aligns with regulatory compliance requirements in various industries, such as healthcare (HIPAA), automotive (ISO 21434), and data protection (GDPR). Meeting these standards is crucial for avoiding legal penalties.

Collaboration in Security: Highlight the need for collaboration among manufacturers, developers, policymakers, and end-users to collectively address IoT security challenges. An ecosystem-wide approach ensures a more robust defense against threats.

Data Lifecycle Management: Address data security throughout its lifecycle, from collection and transmission to storage and disposal. Proper data management practices can mitigate risks associated with unauthorized access or data leakage.

The Bigger Picture

As the Internet of Things continues to reshape our world, the importance of IoT security cannot be overstated. The interconnected nature of IoT devices presents a dynamic landscape of challenges that require comprehensive solutions.

Read More: https://ciooutlookmagazine.com/iot-security-and-its-fundamentals-protecting-the-connected-world/

The Global Automotive Cyber Security Market is projected to grow at a CAGR of around 14.8% during the forecast period, i.e., 2022-27. The new cybersecurity compliance, including UNECE WEP.29, Auto Data (China), ISO/SAE 21434, etc., issued by various countries like the US, Europe, & China, has surged the demand for automotive cybersecurity solutions from various OEMs, such as BMW, GM, Ford, Kia, Mahindra, among others.

Renesas Electronics Automotive-Grade MCU and SoC Cybersecurity Management Certified to ISO/SAE 21434:2021

【Lansheng Technology Information】Renesas Electronics announced today that its Automotive Cybersecurity Management System (CSMS) for microcontroller (MCU) and system-on-chip (SoC) development has been defined and implemented in accordance with the international standard ISO/SAE 21434:2021. The CSMS framework is available at Renesas Design Center in Musashi, Japan, and has been certified by TÜV Rheinland Industrie Service GmbH.

Vice President of the HPC Core Technology Division at Renesas said: "Through independent third-party certification, customers can be confident that Renesas Electronics' management of the CSMS process complies with the requirements defined by ISO/SAE 21434:2021. OEMs and Tier 1 suppliers can use this independent third-party certification to streamline their model approval process without having to conduct their own audits of our process."

Renesas has made significant contributions to the development of the ISO/SAE 21434:2021 standard globally, and its commitment and dedication to cybersecurity goes beyond the automotive industry. In 2019, Renesas Electronics received TÜV Rheinland certification for compliance with the IEC 62443-4-1 standard. This standard specifies the process requirements for the safe development of industrial products.

Renesas Electronics continues to develop safe and reliable products for customers. The ISO/SAE 21434:2021 certification is the latest achievement of Renesas Electronics following the ISO 26262 certification in the field of automotive-grade MCUs and SoCs. Customers can be assured that when Renesas MCUs and SoCs are used in next-generation in-vehicle systems, they will comply with international standards for product cybersecurity and functional safety.

Lansheng Technology Limited, which is a spot stock distributor of many well-known brands, we have price advantage of the first-hand spot channel, and have technical supports. 

Our main brands: STMicroelectronics, Toshiba, Microchip, Vishay, Marvell, ON Semiconductor, AOS, DIODES, Murata, Samsung, Hyundai/Hynix, Xilinx, Micron, Infinone, Texas Instruments, ADI, Maxim Integrated, NXP, etc

To learn more about our products, services, and capabilities, please visit our website at http://www.lanshengic.com

Watch "ISO 21434 The Standard for Automotive Cybersecurity (2019)" on YouTube

Infotainment app store via Microsoft dynamics mobility solutions pt materials and spreadsheet with talking points max at phone if executive

Always make them pay for residual. Never free because your cybersecurity activities are ci cd and add on for serviceability and more you use more goodies for infotainment with content delivery viewer locx mobility solutions mode.

Lights and auto tint and shades? Front and back passenger screen.

Az LG innovációi teljesítik a legújabb gépjármű-kiberbiztonsági szabványok követelményeit

Az LG innovációi teljesítik a legújabb gépjármű-kiberbiztonsági szabványok követelményeit

Az LG Electronics (LG) bejelentette, hogy járműalkatrészei megfelelnek az ISO/SAE 21434 szabványnak, amely alapvető fontosságú az ENSZ Európai Gazdasági Bizottságának (ENSZ-EGB / UNECE) 155. számú előírása (UN R155) szempontjából. Ez a szabvány autóipari kiberbiztonsági intézkedéseket ír elő a jármű- és járműalkatrészgyártók számára, és meghatározza, hogy a gyártók tanúsított kiberbiztonsági…

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MediaTek Dimensity Auto Cockpit Expands Smarter Car Features

The Automotive Business Unit’s VP and General Manager, Ephrem Chemaly, talks about the new era of automobiles, which calls for very fast connection and several SoCs cooperating to provide cutting-edge user experiences. MediaTek’s response to the increasing need for user-friendly, high-performing vehicle hardware is the MediaTek Dimensity Auto Cockpit, which aims to accomplish these objectives.

Known Software Platform

DRIVE OS, TensorRT, CUDA, and Nsight

Natural User Interface

Responsive, intuitive, and anticipatory

Advantages of Edge-AI Processing Quicker reaction increased dependability and accessibility

Increased customization

Processing on a scalable basis

Customized and Safe

Acknowledges the driver

Local data storage enhances privacy and security

Conversational AI makes use of spoken language

Responds to inquiries and provides entertainment

Questions are localized and confidential

3D Spatial Sensing

Monitoring of drivers and occupants

Gaze-aware user interface

Organic restraints

Top Technologies Specifically Engineered for Automotive

Customised and Safe

Acknowledges the drive

Retains your choices

Local data storage enhances privacy and security

Fantastic entertainment

Films with AI-enhanced visuals

AAA video games

Top Technologies Specifically Engineered for Automotive

Created entirely with the automobile industry in mind

The manufacturing procedure used for flagship products

Modern and cutting edge Armv9-A CPU with improved deep learning, security, and speed

NVIDIA RTX graphics, which include DLSS3 and raytracing

Strong, hardware-accelerated NVIDIA DLA offers generative AI capabilities by running LLMs at the edge.

BOM costs are reduced by highly integrated SoCs: CPUs, displays, cameras, audio streams, and networking

Innovative HDR ISP that works with the next generation of camera sensors.

MediaTek Dimensity Auto

Several audio DSPs for processing audio and speech

Several interior displays that support complete seat coverage, are ultra-wide, and pillar-to-pillar

Enables many separate multimedia streams

Data isolation, hardware virtualization, and security-first design principles

SAE J3101, ISO 21434, ISO 26262 ASIL-B for Telltales, Sound, Frozen Camera, and DMS

UN R155 and R156 ready

NVIDIA DRIVE OS-powered

Allows for the simultaneous use of several virtual computers, such as QNX, Linux, and Android Auto

MediaTek Dimensity Auto: Promoting Innovation in Smart Vehicle Technology

MediaTek Dimensity Auto is a line of new automotive solutions that meet automotive-grade reliability standards and offer high-performance computing, impressive AI, extensive feature integration, innate energy efficiency, and leading connectivity solutions

These solutions are made possible by MediaTek’s world-class technologies and industry-leading expertise, which are reflected in its flagship mobile 5G chipset brand

Dimensity Auto Cockpit by MediaTek

The new platforms for MediaTek Dimensity Auto Cockpit were created specifically with the automobile industry in mind. Their cutting-edge Armv9 CPUs, NVIDIA’s RTX visuals, and complete hardware acceleration for LLMs and generative AI in-vehicle provide amazing AI cockpit experiences.

These platforms are designed to meet automotive-grade quality requirements and optimise performance, feature integration, and power efficiency employing flagship chip manufacturing methods.

MediaTek Dimensity Auto Connect by MediaTek

MediaTek has an industry advantage in the future of always-connected vehicles thanks to its unique wireless communication technology portfolio, which includes 5G, Wi-Fi, Bluetooth, GNSS navigation, and the ability for NTN (Non-Terrestrial Network) satellite communication.

This is due to the Internet of Vehicles’ rapid development. MediaTek Dimensity Auto Connect, which combines high-speed telematics with high-performance Wi-Fi networking, will assist drivers in maintaining constant contact with their surroundings.

State-of-the-art 3GPP open standards-based vehicle communication technologies, such as MediaTek 5G NTN, V2X, and 5G RedCap 5G sub-6GHz with Carrier Aggregation WiFi 7, outfitted with MediaTek’s own hardware networking accelerator.

Broad GNSS coverage for more precise location.

Supports high levels of compatibility and coexistence of numerous wireless network technologies, such as Wi-Fi, Bluetooth, and 5G.

MediaTek Dimensity Auto Components

Diverse components are necessary to guarantee the Dimensity Auto platform’s supply. MediaTek is launching Dimensity Auto Components to actively participate in creative R&D to supply dependable automotive-grade chipsets and components for the next generation of connected, intelligent automobiles. MediaTek has been a consistent investor in the automotive business.

Complete line of guaranteed power management (PMIC) products

Support for cutting-edge integrated display technology opens the door for future EV models with large-screen, multi-display choices and flexible OLED panels.

Figuring out where your car is and how to navigate there, even in tunnels, subterranean parking lots, and other satellite dead zones

Dimensity Auto Drive by MediaTek

Dimensity Auto Drive, which forms the foundation of ADAS, makes use of the high-performance capabilities of MediaTek’s AI Processing Units (APU) to provide partners with intelligent aid and autonomous driving solutions a scalable and complete open platform

Extra Information on the MediaTek Dimensity Auto Cockpit

Specifically created with automotive-grade quality requirements for the automotive sector.

Cost is decreased with highly integrated SoC.

Enhanced ability to process images.

All things considered

Compared to conventional systems, MediaTek Dimensity Auto Cockpit delivers a major advancement in in-vehicle technology. It offers a more potent, perceptive, safe, and enjoyable driving experience.

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Is eSync technologies compatible with existing automotive systems and protocols?

When it comes to eSync technologies, compatibility with existing automotive systems and protocols plays a pivotal role in facilitating seamless integration and maximizing the benefits for manufacturers, service providers, and consumers. Let's delve into whether eSync technologies are compatible with existing automotive systems and protocols.

Understanding eSync Technologies

Before we explore compatibility, let's briefly understand what eSync technologies entail. eSync is a sophisticated software platform designed to facilitate seamless synchronization of data, software updates, and diagnostics in vehicles. It operates on a client-server architecture, enabling over-the-air (OTA) updates, real-time monitoring, and personalized user experiences, among other functionalities.

Compatibility with Existing Systems

One of the primary concerns when adopting new technologies in the automotive industry is compatibility with existing systems and protocols. Fortunately, eSync technologies are designed to be highly compatible with a wide range of automotive systems, protocols, and standards. Whether it's electronic control units (ECUs), infotainment systems, telematics modules, or onboard communication networks, eSync can seamlessly integrate with existing components and architectures.

Seamless Integration

eSync technologies are built with interoperability in mind, allowing for seamless integration with various automotive systems and protocols. Whether a vehicle utilizes proprietary protocols or industry-standard communication protocols such as CAN (Controller Area Network) or Ethernet, eSync can adapt to the existing infrastructure without requiring extensive modifications or replacements. This ensures that manufacturers can leverage eSync technologies without disrupting existing workflows or investments.

Support for Industry Standards

In addition to compatibility with existing systems, eSync technologies also support industry standards and frameworks, ensuring alignment with best practices and regulatory requirements. Whether it's ISO/SAE 21434 for automotive cybersecurity or AUTOSAR (Automotive Open System Architecture) for standardized software architectures, eSync can be implemented in accordance with established guidelines, providing a standardized approach to vehicle synchronization and updates.

Flexibility and Scalability

Another advantage of eSync technologies is their flexibility and scalability, allowing for adaptation to diverse automotive environments and use cases. Whether deployed in passenger cars, commercial vehicles, or electric vehicles, eSync can accommodate varying requirements and configurations, providing manufacturers with the flexibility to customize implementations based on specific needs and preferences.

Conclusion: Embracing Compatibility for Seamless Integration

In conclusion, eSync technologies exemplify compatibility with existing automotive systems and protocols, offering seamless integration, support for industry standards, and flexibility to adapt to diverse environments. By embracing compatibility, manufacturers can leverage eSync technologies to enhance vehicle synchronization, streamline software updates, and deliver personalized user experiences without disrupting existing workflows or investments. As the automotive industry continues to evolve, compatibility will remain a cornerstone for driving innovation and ensuring the seamless integration of new technologies into vehicles of the future.

UL Solutions emite un certificado del programa de garantía de ciberseguridad automotriz para LG Innotek

NORTHBROOK, IL., 23 de febrero de 2023 /PRNewswire/ — UL Solutions, líder mundial en ciencia de seguridad aplicada, anunció hoy que emitió el primer Certificado del Programa de Garantía de Ciberseguridad para ISO/SAE 21434:2021, Vehículos de Carretera: Ingeniería de Ciberseguridad para LG Innotek. El Certificado del Programa de Garantía de Ciberseguridad (CAP) de UL Solutions reconoce que el…

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Road Vehicles Cybersecurity Engineering, ISO, SAE 21434, ISO 21434 Tonex...