Scheduling for atomic broadcast operation in heterogeneous networks with one port model
The Journal of Supercomputing
Scheduling for atomic broadcast operation in heterogeneous networks with one port model
GPC'08 Proceedings of the 3rd international conference on Advances in grid and pervasive computing
Scheduling of job combination and dispatching strategy for grid and cloud system
GPC'10 Proceedings of the 5th international conference on Advances in Grid and Pervasive Computing
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In this paper, we consider the communications involved by the execution of a complex application deployed on a heterogeneous platform. Such applications extensively use macro-communication schemes, such as multicast operations, where messages are broadcast to a set of predefined targets. We assume that there is a large number of messages to be multicast in pipeline fashion, and we seek to maximize the throughput of the steady-state operation. We target heterogeneous platforms, modeled by a graph where links have different communication speeds. We show that the problem of computing the best throughput for a multicast operation is NP-hard, whereas the best throughput to broadcast a message to every node in a graph can be computed in polynomial time. Thus, we introduce several heuristics to deal with this problem and prove that some of them are approximation algorithms. We perform simulations to test these heuristics and show that their results are close to a theoretical upper bound on the throughput that we obtain with a linear programming approach.