NXP GoldBox for Vehicle Networking


GoldBox Angle view
GoldBox Front view
GoldBox Back view


Choose a diagram


  • S32G-VNP-GLDBOX   Active

  • NXP GoldBox for Vehicle Networking
    • 1 @ US
    • $3340.00
    • Use Coupon
    • Distributor

    Don't have an NXP coupon? You can purchase this product from one of our authorized distributors.


Design Resources

Get Started

Getting Started and User Guides

Use the following to start developing with the NXP GoldBox

Training and Events

In this session, we will provide insights into the implementation of the Connected EV Management System based on the NXP GoldBox based on the S32G vehicle network processor for service-oriented gateways and the GreenBox based on the S32S for propulsion domain control, along with the key software and cloud technologies from AWS, and how they all work together to provide value propositions for connected EVs.

This session introduces a new vehicle integration platform for S32G vehicle network processors that provides value for NXP customers and partners.

Explore the vehicle gateway market and new applications for vehicle network processing, including the S32G architecture, trends and key features.

Explore NXP solutions for service-oriented gateways and connectivity to drive new connected vehicle capabilities and business opportunities.

This session explores the journey of data from the vehicle networks to the service-oriented gateway and to the cloud while identifying the value propositions and new services that they will fuel in the future.

This session provides in depth training on the PFE and LLCE hardware accelerators in the S32G networking gateway and illustrates common use cases and features of the PFE.

This session covers the adoption of time-sensitive networking and service-oriented architectures in vehicles.

Explore use cases such as OTA updates, in-car/in-cloud data analytics and SDN, examined from the data connectivity and security perspectives.

Learn how your automotive system design based on S32G processors can benefit from a standards-based data-centric approach; leveraging the distributed connectivity of DDS while retaining the TSN network-level assurances in reliability, predictability, and flexibility.