SLYY236B September   2024  – January 2025 DP83TC817S-Q1 , DRA821U-Q1 , DRV81602-Q1 , DRV81620-Q1 , DRV8163-Q1 , DRV8245-Q1 , TCAN1043A-Q1 , TCAN3404-Q1 , TCAN3414 , TPS2HCS08-Q1 , TPS2HCS10-Q1

 

  1.   1
  2.   Overview
  3.   At a glance
  4.   Introduction
  5.   Domain-based and software-defined vehicles
  6.   Hardware abstraction layers to enable software defined vehicles
  7.   New technologies enabled by software-defined vehicles
  8.   Over-the-air software update process
  9.   Variations in software-defined vehicle and zone architecture approaches
  10.   Conclusion
In this paper we discuss how software-defined vehicles with zone architectures are enabling development of smarter, safer, and more energy-efficient vehicles. By centralizing software and decoupling hardware from software, they allow for easier updates, reduced costs, and new features.

At a glance

1 Domain-based and software-defined vehicles
Explore the differences between domain-based and software-defined vehicle architectures.
2 New technologies enabled by software-defined vehicles
Learn how software-defined vehicles are enhancing technologies like digital twins, optimizing vehicle performance.
3 Variations in software-defined vehicle and zone architecture approaches
Understand the different approaches to centralizing software in vehicles based on specific design requirements.