NXP Semiconductors has announced a vehicle network processing chipset solution for high-performance service-oriented gateways, which enables automakers to unlock the value of connected vehicle data and offer new services.
The MPC-LS chipset solution claims to combine the proven NXP automotive MPC5748G microcontroller and enterprise networking LS1043A communications processor to offer the high levels of performance and networking required for service-oriented gateways. For development, evaluation and demonstrations, the chipset solution is supported by an evaluation board, enablement software and a growing ecosystem.
Vehicle data-driven services such as usage-based insurance, predictive maintenance and over-the-air upgradeable vehicles are projected to reach up to $750 billion in revenue by 20302. These services and the information derived from connected vehicles are poised to transform the automotive industry with new revenue opportunities, improved user experiences, safety and security enhancements and cost reductions. To enable these new opportunities, centrally located service-oriented gateways must securely process and route massive amounts of data across the vehicle, which requires a vehicle network processing solution to meet the demand.
NXP helps automakers, suppliers and emerging global entrants develop new vehicle networking platforms of the future today. The production-ready MPC-LS vehicle network processing chipset uniquely brings together real-time and applications processing, along with automotive and enterprise networking technologies.
Key features include:
• High-performance quad-core, 64-bit Arm processors for services and edge analytics
• One 10 Gigabit and five Gigabit Ethernet interfaces for high-bandwidth networking
• Ethernet packet acceleration offloads processors to provide valued services
• Real-time processing of vehicle data from CAN FD, LIN and FlexRay™ networks
• Hardware security for trusted boot, cryptography and secure key management
A connected vehicle can generate terabytes of data daily from sensors, vehicle usage, and driver and passenger behaviors. A service-oriented gateway has the performance to conserve wireless network bandwidth by converting raw data into actionable information that can be sent to the cloud for additional analysis and storage with reduced cost.
Source: Press Release