An iterative heuristic for scheduling grid workflows with budget constraints

An iterative heuristic for scheduling grid workflows with budget constraints

Workflow scheduling which guarantees anticipated QoS (quality of service) is a complex problem in grids. In this paper, the budget-constrained scheduling of workflows represented by DAG (directed acyclic graph) with the objective of time optimization is considered. A new priority rule-based iterativ...

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Hauptverfasser: Ying-Chun Yuan, Ke-Jian Wang, Xin-Sheng Sun, Tao Guo
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Agriculture
Computer applications
Constraint optimization
Costs
Cybernetics
Grid computing
Information science
Iterative heuristics
Machine learning
Priority rule
Processor scheduling
Quality of service
Serial complexity
Service grid
Workflow
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Beschreibung
Zusammenfassung:Workflow scheduling which guarantees anticipated QoS (quality of service) is a complex problem in grids. In this paper, the budget-constrained scheduling of workflows represented by DAG (directed acyclic graph) with the objective of time optimization is considered. A new priority rule-based iterative heuristic is proposed. According to the property of serial activities in DAG, the concept called SC (serial complexity) is defined. By incorporating it into priority rule MP (maximum profit), a novel priority rule, denoted as MPSC (maximum profit with serial complexity), is designed. It is implemented in the iterative heuristic to improve iteratively the initial feasible solution. Computational results show that MPSC can considerably improve the average performance of MP, MPBL and MPTL within a few iterations and a little computation time. As well, the impact of budget constraints on these heuristics is analyzed.
ISSN:2160-133X
DOI:10.1109/ICMLC.2009.5212290