Minimizing Cybersecurity Risks With ISO/SAE 21434


To mitigate the cybersecurity risk, industry stakeholders have developed the new ISO/SAE 21434 Road Vehicles—Cybersecurity Engineering standard. Industry leaders are quickly adopting ISO/SAE 21434 as the leading approach for cybersecurity. Suppliers such as Renesas announced1 their commitment to ISO/SAE 21434 in October 2021. Recently, NXP2 and Texas Instruments3 both certified their Au... » read more

Auto Cyberattacks Becoming More Widespread


As vehicles become smarter, more complex, and increasingly connected, they also become more prone to cyberattacks. The challenge now is to keep pace with hackers, who are continually devising new and innovative ways to attack both software and hardware in vehicles. Recent statistics bear this out. In 2022, there was a big spike in deep/dark web activity and incidents related to application p... » read more

Best Practices For Cybersecurity-Aware SoC Development With ISO 21434


The growth of electronics in cars is exposing a new vector for cyberattacks on owners and automotive companies’ reputations. The potential human cost of an attack on the car’s electronics is driving urgency in the adoption of cybersecurity-aware practices, from OEMs and Tier 1s to every component supplier in the automotive industry. The standard “ISO/SAE 21434:2021 Road vehicles — Cyber... » read more

Embracing the Challenges Of Cybersecurity In Automotive Applications


The growth of electronics in cars is exposing a new vector for cyberattacks on car owners and automotive companies’ reputations. The potential human cost of an attack on the car’s electronics is driving urgency in the adoption of cybersecurity-aware practices, from OEMs and Tier 1s to every component supplier in the automotive industry. The standard “ISO/SAE 21434:2021 Road vehicles — C... » read more

Standards And Threat Testing For Secure Autonomous Vehicles


Modern vehicles continue to move up through the levels of autonomy, as defined by The Society of Automotive Engineers (SAE). These definitions have been widely adopted across the industry and emerging vehicle technology is measured against this scale (figure 1). Fig. 1: An illustration from the Society for Automotive Engineers shows levels of autonomy. The closer we move towards level... » read more

ISO/SAE 21434: Secure Hardware Development In Modern Vehicles


Demonstrating the importance of security doesn't get much more memorable than Charlie Miller and Chris Valasek successfully hacking a Jeep and driving it into a ditch. The effects of that drive have been long-reaching, sparking conversations in both the media and automotive industry about the evolving threat landscape as vehicles become increasingly automated. The average car contains over 1... » read more

Security Concerns Rise For Connected Autos


The auto industry is transforming itself toward a future in which the automobile increasingly will be connected using V2X and 5G. Driver assistance will improve, and ultimately cars will be guided by AI and machine learning. But all of this will be closely watched by hackers, looking for an opening and a potentially large and untraceable payout. The replacement of mechanical functionality wi... » read more

Privacy Protection A Must For Driver Monitoring


Driver monitoring systems are so tied into a vehicle's architecture that soon the driver will not be able to opt out because the vehicle will only operate if the driver is detected and monitored. This is raising privacy concerns about whether enough security is in place for the data to remain private. At the very least, laws and regulations in every geography where the vehicle will operate a... » read more

Software-Defined Vehicles


Automobiles long ago stopped being purely mechanical systems. But as more components are electrified — and, in particular, as the drivetrain is electrified — cars are becoming software-defined vehicles. Some think of such cars as computers on wheels. But as these systems continue to evolve, adding in more assisted and semi-autonomous capabilities, that comparison is looking increasingly ... » read more

Monitoring Chips After Manufacturing


New regulations and variability of advanced process nodes are forcing chip designers to insert additional capabilities in silicon to help with comprehension, debug, analytics, safety, security, and design optimization. The impact of this will be far-reaching as the industry discusses what capabilities can be shared between these divergent tasks, the amount of silicon area to dedicate to it, ... » read more

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