Interference-Aware Scheduling using Geometric Constraints
Abstract
The large scale parallel and distributed platforms produce a continuously increasing amount of data which have to be stored, exchanged and used by various jobs allocated on dierent nodes of the platform. The management of this huge communication demand is crucial for the performance of the system. Meanwhile, we have to deal with more interferences as the trend is to use a single all-purpose intercon-nection network. In this paper, we consider two dierent types of communications: the ows induced by data exchanges during computations and the ows related to Input/Output operations. We propose a general model for interference-aware scheduling, where explicit communications are replaced by external topological constraints. Specically, we limit the interferences of both communication types by adding geometric constraints on the allocation of jobs into machines. The proposed constraints reduce implicitly the data movements by restricting the set of possible allocations for each job. We present this methodology on the case study of simple network topologies, namely the line and the ring. We propose theoretical lower and upper bounds under dierent assumptions with respect to the platform and jobs characteristics. The obtained results illustrate well the diculty of the problem even on simple topologies.
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