International Symposium on Parallel Computing in Electrical Engineering (PARELEC'06)
DOI: 10.1109/parelec.2006.14
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An Efficient Task Scheduling Technique in Heterogeneous Systems Using Self-Adaptive Selection-Based Genetic Algorithm

Abstract: Optimal scheduling of parallel tasks with some precedence relationship, onto a parallel machine is known to be NP-complete. The complexity of the problem increases when task scheduling is to be done in a heterogeneous environment, where the processors in the network may not be identical and take different amounts of time to execute the same task. We propose a new genetics-based approach to scheduling parallel tasks on heterogeneous processors. Our approach requires minimal problem specific information and no p… Show more

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Cited by 2 publications
(1 citation statement)
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“…e most used algorithm is the genetic algorithm (GA) [10]. Genetic algorithm is widely used in solving complex problems such as nonlinearity and optimization [11,12]. However, genetic algorithms are also flawed, such as the disadvantages of falling into local optimum and low computational efficiency when solving large-scale task scheduling [13].…”
Section: Multiagent Task Scheduling Based On Qgamentioning
confidence: 99%
“…e most used algorithm is the genetic algorithm (GA) [10]. Genetic algorithm is widely used in solving complex problems such as nonlinearity and optimization [11,12]. However, genetic algorithms are also flawed, such as the disadvantages of falling into local optimum and low computational efficiency when solving large-scale task scheduling [13].…”
Section: Multiagent Task Scheduling Based On Qgamentioning
confidence: 99%