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Overview
NXP Semiconductors N.V. is a Dutch semiconductor designer and manufacturer headquartered in Eindhoven, Netherlands. NXP provides technology solutions targeting the automotive, industrial, IoT, mobile, and communication infrastructure markets.
Recently, NXP announced a new class of real-time automotive processors — the S32Z and S32E families — as part of its existing S32 automotive platform. To help accelerate the software development and deployment of new vehicle features, 草榴社区 Virtualizer? Development Kits (VDKs) are now available for NXP’s S32Z/E processors.
Our long-standing Center of Excellence collaboration with 草榴社区 resulted in the availability of VDKs for these processors to enable OEM companies to accelerate the development and deployment of real-time features that are essential for the next generation of software-defined vehicles."
Brian Carlson
|Global Marketing Director for Vehicle Control and Networking 草榴社区, NXP
Challenges
NXP faced several key challenges:
- Increasing Complexity: The demand for more efficient electric vehicles and advanced driver assistance functionalities has increased the complexity and software content embedded in vehicles.
- Transition to Software-Defined World: Moving from a hardware-centric to a software-defined world requires increased testing productivity by starting earlier and using more efficient approaches.
- Interconnected Systems: As the system under test becomes more interconnected with other electronic systems in the car, there is a need for a scalable and efficient testing environment.
Solution
草榴社区 VDKs provided a comprehensive solution for NXP:
- Early Software Development: Enabled software development to start months before hardware design completion, allowing full system bring-up and validation of the software for the entire vehicle.
- Virtual Hardware ECU Environment: Established a virtual hardware ECU environment for system integration, fault, and coverage testing.
- Advanced System-Level Debug and Analysis: Provided tools to resolve design and software issues quickly, increasing productivity and eliminating guesswork from the SoC design process.
Results
The implementation of 草榴社区 VDKs brought significant benefits to NXP:
- Faster Development: Enabled earlier and faster system and software testing, reducing development costs and increasing time-to-market.
- Higher Software Quality: Improved software quality and system reliability by enabling more efficient development and testing.
- Reduced Risk of Recalls: Addressed key market trends and reduced the risk of potential design and vehicle recalls in the future.
By leveraging 草榴社区 VDKs, NXP has successfully accelerated the development and deployment of real-time features essential for the next generation of software-defined vehicles, ensuring higher quality and reliability while meeting the growing demands of the automotive industry.
