ARM Unveils Architecture for Automotive and Industrial Control Markets

ARMv8-R Architecture Brings New Capabilities to Embedded System Control and Safety Applications

by Anton Shilov
10/23/2013 | 11:15 PM

ARM Holdings on Wednesday disclosed technical details of its new ARMv8-R architecture for real-time embedded processors for use in automotive electronics and other integrated safety and control applications. The ARMv8-R architecture builds on the heritage of the 32-bit ARMv7-R architecture used for the company’s Cortex-R series of real time processors and complements the ARMv8-A architecture announced in 2011.

 

The ARMv8-R architecture specification will significantly enhance ARM’s real time 32-bit processor solutions with new features to expand their functionality and capability to meet for rapidly-evolving market requirements. In particular, processors implementing the ARMv8-R architecture will be suitable for the rapidly-expanding number of safety-related applications in automotive and industrial control.

A key innovation within the ARMv8-R architecture is the introduction of a ‘bare metal’ Hypervisor mode which enables programmers to combine different operating systems, applications and real-time tasks on a single processor whilst ensuring strict isolation between them. This facilitates software consolidation and re-use which will accelerate time-to-market and reduce development costs. In addition, the ARMv8-R architecture will enable overall improvements in software quality and will support increasingly sophisticated embedded programming techniques such as model-based automated code generation.

 

The deployment of ARMv8-R architecture will reduce costs, increase efficiency and improve performance of embedded systems to support emerging automotive applications such as Advanced Driver Assistance Systems and Vehicle to Vehicle communications as well as factory automation applications and Human-Machine Interface. For example, a microcontroller incorporating an ARMv8-R processor could host Linux for graphical management and networking functions together with real-time operating system workloads such as motor control.

The ARMv8-R architecture also permits coexistence of both virtual memory and protected memory systems on the same processor enabling an operating system using memory management, such as Linux, to be integrated with a real time operating system. Ecosystem support for the ARMv8-R architecture is anticipated in a number of operating system products including Integrity from Green Hills Software, Nucleus from Mentor Graphics, and eT-Kernel from eSOL. These integrated hardware and software solutions will be capable of supporting stringent automotive and industrial interoperability and safety standards.

Other ARMv8-R architecture features include:

The ARMv8-R architecture specification will be available to partners under license. ARM processors which implement the new architecture are in development and details of these will be disclosed at a later date.