Dates and Events: |
OSADL Articles:
2023-11-12 12:00
Open Source License Obligations Checklists even better now
Import the checklists to other tools, create context diffs and merged lists
2022-07-11 12:00
Call for participation in phase #4 of Open Source OPC UA open62541 support project
Letter of Intent fulfills wish list from recent survey
2022-01-13 12:00
Phase #3 of OSADL project on OPC UA PubSub over TSN successfully completed
Another important milestone on the way to interoperable Open Source real-time Ethernet has been reached
2021-02-09 12:00
Open Source OPC UA PubSub over TSN project phase #3 launched
Letter of Intent with call for participation is now available |
COOL - Compact OSADL Online Lectures - November 2024 edition
OSADL talks at ESE Embedded Software Engineering Kongress
COOL - Compact OSADL Online Lectures - December 2024 edition
Real Time Linux Workshops
1999 - 2000 - 2001 - 2002 - 2003 - 2004 - 2005 - 2006 - 2007 - 2008 - 2009 - 2010 - 2011 - 2012 - 2013 - 2014 - 2015
Eleventh Real-Time Linux Workshop on September 28 to 30, in Dresden, Germany
Announcement - Hotels - Agenda - Paper Abstracts - Presentations - Registration - Abstract Submission - Xenomai User Meeting - Sponsors
Papers
Using the Realtime Preemption Patch on ARM CPUs
Jan Altenberg, Linutronix GmbH
During the last few years, Linux has established itself as the fastest growing platform in the embedded sector. This arised from the fact that there is no other Operating System which supports such a big variety of different hardware. Also the ongoing rapid development of the Realtime Preemption Patch made Linux a perfect choice for controlling and automation tasks which require hard-realtime capabilities.
ARM CPUs are widely used in embedded designs. There is a huge variety of cheap ARM9 and powerful ARM11 and Cortex CPUs which are predestined for use in embedded realtime controllers (because of the low power consumption and the growing number of features).
This paper demonstrates the behavior of the Realtime Preemption Patch on different ARM based embedded designs. The specific measurement environments will be explained in detail and the basics on how to get the Realtime Preemption Patch running on a specific ARM platform (and the major pitfalls) will be shown. Also the differences among ARM9 / ARM11 and Cortex CPU designs and how those differences influence the realtime behavior will be examined. As a result, the paper provides a decision guide for choosing the best fitting ARM design for a Realtime Linux based embedded platform.
