常用加速模型下可塑任务图的改进在线调度

Pub Date : 2023-10-26 DOI:10.1145/3630052
Lucas Perotin, Hongyang Sun
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引用次数: 0

摘要

研究了多处理机系统上可塑任务图的在线调度问题,以使总完成时间最小化。可塑作业调度在文献中得到了广泛的研究,特别是当任务具有依赖性(即任务图)或任务动态释放(即在线)时。然而,很少有研究同时关注两者(即可建模任务图的在线调度)。本文针对这一问题设计了一种新的在线调度算法,并在几种常见且现实的加速模型(即rooline、communication、Amdahl和一般组合)下推导出恒定的竞争比。这些结果改进了我们在论文初稿中所展示的结果。我们还证明了对于每个加速模型,任何在线列表调度算法的竞争下界,该算法仅根据任务的参数而不是其在图中的位置为任务分配处理器。这个下界完全符合我们的算法对屋顶线、通信和Amdahl模型的竞争比,并且接近于一般模型的竞争比。最后,我们给出了任意加速模型下任何确定性在线算法的竞争比的下界,它不是恒定的,而是取决于图中最长路径上的任务数。
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Improved Online Scheduling of Moldable Task Graphs under Common Speedup Models
We consider the online scheduling problem of moldable task graphs on multiprocessor systems for minimizing the overall completion time (or makespan). Moldable job scheduling has been widely studied in the literature, in particular when tasks have dependencies (i.e., task graphs) or when tasks are released on-the-fly (i.e., online). However, few studies have focused on both (i.e., online scheduling of moldable task graphs). In this paper, we design a new online scheduling algorithm for this problem and derive constant competitive ratios under several common yet realistic speedup models (i.e., roofline, communication, Amdahl, and a general combination). These results improve the ones we have shown in the preliminary version of the paper. We also prove, for each speedup model, a lower bound on the competitiveness of any online list scheduling algorithm that allocates processors to a task based only on the task’s parameters and not on its position in the graph. This lower bound matches exactly the competitive ratio of our algorithm for the roofline, communication and Amdahl’s model, and is close to the ratio for the general model. Finally, we provide a lower bound on the competitive ratio of any deterministic online algorithm for the arbitrary speedup model, which is not constant but depends on the number of tasks in the longest path of the graph.
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