Deferrable Scheduling for Temporal Consistency: Schedulability Analysis and Overhead Reduction

Author

Xiong, Ming ; Han, Song ; Chen, Deji

Author_Institution

Lucent Bell Labs.

fYear

0

fDate

0-0 0

Firstpage

117

Lastpage

124

Abstract

The deferrable scheduling algorithm for fixed priority transactions (DS-FP) is demonstrated to be a very effective approach for minimizing real-time update transaction workload while maintaining temporal validity of real-time data. This paper examines the schedulability of deferrable scheduling and presents a sufficient condition. While its online scheduling overhead is a concern, we propose a hyperperiod based DS-FP approach satisfying the temporal validity constraint with low overhead. The algorithm, namely DEferrable Scheduling with Hyperperiod by Schedule Adjustment (DESH-SA), adjusts the DS-FP schedule in an interval so that the adjusted schedule in the interval can be repeated infinitely. Our experiments demonstrate that DESH-SA can reduce scheduling overhead of DS-FP and also achieve update workload near optimal

Keywords

computational complexity; data integrity; database management systems; processor scheduling; real-time systems; resource allocation; transaction processing; DESH-SA; DS-FP approach; fixed priority transaction; online scheduling; real-time update transaction workload; schedulability analysis; temporal consistency; Actuators; Capacitive sensors; Control systems; Embedded system; Job shop scheduling; Process control; Real time systems; Scheduling algorithm; Sufficient conditions; Wireless sensor networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Embedded and Real-Time Computing Systems and Applications, 2006. Proceedings. 12th IEEE International Conference on

Conference_Location

Sydney, Qld.

ISSN

1533-2306

Print_ISBN

0-7695-2676-4

Type

conf

DOI

10.1109/RTCSA.2006.26

Filename

1691305