This case study details how redundancy is built into critical hardware systems in autonomous vehicles to ensure fail-safe operation, even in the event of component failure. Learn the importance of redundancy in AV hardware systems Explore fail-safe designs for safety-critical tasks Discover real-world examples of redundancy implementation Understand how redundancy improves overall vehicle safetyRead more
Find out what highlights you can expect during the day, listen to the welcome speech of our conference chair, learn how you can optimally use the features of our hybrid event environment, and let’s start Day 1 of our Hardware.AD Europe!Read more
This study highlights the development of low-power computing systems that meet the performance demands of autonomous driving while ensuring efficient energy usage, especially in electric vehicles. Understand how to design low-power systems for AVs Learn techniques for minimizing power consumption Explore real-world examples of power-efficient AV hardware Discover how energy efficiency impacts vehicle range andRead more
After an insightful & productive day full of presentations & discussions from the industry, our conference chair concludes the first event day with a short summary of the most important insights from the sessions.Read more
As autonomous vehicles demand higher compute performance, efficiency, and flexibility, the traditional monolithic System-on-Chip (SoC) architecture is nearing its limits. This talk explores the transition toward disaggregated computing architectures using chiplets—a modular approach that breaks down complex SoC designs into smaller, reusable silicon dies interconnected within a single package. By decoupling functional domains such asRead more
Presenting the results of our World Cafés: The moderators summarize the key takeaways of their World Café Round Tables on the main stage and share the main findings with all attendees.Read more
This study demonstrates how heterogeneous computing, combining the strengths of both CPUs and GPUs, can improve the performance and reliability of onboard systems in autonomous vehicles. Understand how to combine CPU and GPU tasks for optimal performance Explore real-world integration scenarios from leading AV projects Examine the benefits of task partitioning between processors Learn howRead more
This case focuses on innovations in data processing hardware that have enabled millisecond response times, critical for safe and efficient autonomous driving. Explore hardware innovations for faster response times Learn about specific components designed to minimize delays Understand how response time affects overall system safety Examine real-world benchmarks of low-latency systemsRead more
This study focuses on the challenges and solutions for scaling sensor fusion hardware and software across various autonomous vehicle platforms and models while ensuring performance consistency. Understand how to scale sensor fusion across different vehicle models Learn techniques for maintaining consistency across platforms Explore cross-platform sensor fusion architectureRead more
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