Title :
Allocating Series of Workflows on Computing Grids
Author :
Gallet, Matthieu ; Marchal, Loris ; Vivien, Frédéric
Abstract :
In this paper, we focus on scheduling jobs on computing Grids. In our model, a Grid job is made of a large collection of input data sets, which must all be processed by the same task graph or workflow, thus resulting in a series of workflow problem. We are looking for an efficient solution with regard to throughput and latency, while avoiding solutions requiring complex control. We thus only consider single-allocation strategies. We present an algorithm based on mixed linear programming to find an optimal allocation, and this for different routing policies depending on how much latitude we have on communications. Then, using simulations, we compare our allocations to reference heuristics. The results show that our algorithm almost always finds an allocation with good throughput and low latency, and that it outperforms the reference heuristics, especially under communication-intensive scenarios.
Keywords :
grid computing; linear programming; resource allocation; scheduling; Grid job; computing Grids; computing grids; job scheduling; latency; mixed linear programming; single-allocation strategies; throughput; workflow allocation; Communication system control; Concurrent computing; Delay; Distributed computing; Dynamic scheduling; Grid computing; Laboratories; Processor scheduling; Routing; Throughput; DAGs; Workflows; computing Grid; heterogeneity; scheduling;
Conference_Titel :
Parallel and Distributed Systems, 2008. ICPADS '08. 14th IEEE International Conference on
Conference_Location :
Melbourne, VIC
Print_ISBN :
978-0-7695-3434-3
DOI :
10.1109/ICPADS.2008.96
