A Bi-Criteria FPTAS for Scheduling with Memory Constraints on Graph with Bounded Tree-width

February 17, 2022 Β· Declared Dead Β· πŸ› European Conference on Parallel Processing

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Authors Eric Angel, SΓ©bastien Morais, Damien Regnault arXiv ID 2202.08704 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DC Citations 1 Venue European Conference on Parallel Processing Last Checked 4 months ago
Abstract
In this paper we study a scheduling problem arising from executing numerical simulations on HPC architectures. With a constant number of parallel machines, the objective is to minimize the makespan under memory constraints for the machines. Those constraints come from a neighborhood graph G for the jobs. Motivated by a previous result on graphs G with bounded path-width, our focus is on the case when the neighborhood graph G has bounded tree-width. Our result is a bi-criteria fully polynomial time approximation algorithm based on a dynamic programming algorithm. It allows to find a solution within a factor of 1 + epsilon of the optimal makespan, where the memory capacity of the machines may be exceeded by a factor at most 1 + epsilon. This result relies on the use of a nice tree decomposition of G and its traversal in a specific way which may be useful on its own. The case of unrelated machines is also tractable with minor modifications.
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