Maxim combines the Automotive Safety Integrity Level (ASIL) with high-performance analog solutions to incorporate the next generation of Gigabit GMSL serializers and deserializers (Serdes), as well as power system monitoring solutions for NVIDIA Automated unmanned platforms provide the flexibility needed to meet functional and safety requirements.
To address consumers' safety concerns with autonomous vehicles, car manufacturers have also raised the bar for ADAS design safety requirements Critical safety systems require redundant design and troubleshooting capabilities that meet demanding ASIL requirements ADAS systems require high-speed interconnects Technology to support the mass data environment of future vehicles, NVIDIA will make Maxim's ASIL-based voltage / power monitoring and SerDes technology available to the industry's first L5-class autonomous driving system platform to make driverless vehicles a reality.
Maxim's next-generation 6Gbps GMSL SerDes technology supports future automotive infotainment systems, ADAS and driverless high data rates, complex interconnects and data integrity requirements.The technology also provides autonomous driving systems such as DRIVE Pegasus and DRIVE Xavier platforms Required Security and Flexibility Maxim's solutions provide low-IQ, automotive-grade power management designs as part of high-performance analog integration.
Comments • 'Maxim's new generation of GMSL SerDes technology, simulation integration capabilities and a solid commitment to supporting the automotive market are the right mixes to drive the success of NVIDIA's supercomputing platforms,' said Randall Wollschlager, vice president, Automotive Group, Maxim Integrated • 'NVIDIA DRIVE The AI platform has been upgraded from super-L2 to fully-automatic L5 and requires support for broadband camera data transmission and aggregation. "According to Gary Hicok, senior vice president of hardware development at NVIDIA," With the help of Maxim's security solutions, NVIDIA is realizing what the industry is looking forward to The highest level of functional safety standards.