Title :
A New RTA Based Scheduling Algorithm for Mixed-Criticality Systems
Author :
Long Li ; Renfa Li ; Lida Huang ; Renfei Wu ; Lining Zeng
Author_Institution :
Key Lab. for Embedded & Network Comput. of Hunan Province, Hunan Univ., Changsha, China
Abstract :
An increasing trend in many safety-critical embedded system is to integrate multiple functional components into a shared hardware platform for better cost and power efficiency. This mixed criticality system offers challenges both for static schedulability analysis and run-time monitoring. In prior works, many papers studied the response-time analysis (RTA) scheduling of mixed criticality systems with dual-criticality levels. But in the real embedded systems, the criticality levels of the systems are always greater than two. In this paper we proposed a novel sufficient response-time analysis and optimal priority assignment scheme for fixed priority uniprocessor scheduling of mixed criticality system with arbitrary number of criticality levels. Evaluations illustrate the effectiveness of the scheme.
Keywords :
embedded systems; processor scheduling; safety-critical software; RTA based scheduling algorithm; dual-criticality level; fixed priority uniprocessor scheduling; mixed-criticality system; optimal priority assignment scheme; response-time analysis; run-time monitoring; safety-critical embedded system; shared hardware platform; static schedulability analysis; Algorithm design and analysis; Certification; Interference; Job shop scheduling; Optimal scheduling; Scheduling algorithms; Time factors; Mixed-Criticality; Response-time analysis; WCRT;
Conference_Titel :
Computational Science and Engineering (CSE), 2013 IEEE 16th International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/CSE.2013.111
