Online scheduling of parallelizable jobs in the directed acyclic graphs and speed-up curves models

Benjamin Moselely; Ruilong Zhang; Shanjiawen Zhao

doi:10.1016/j.tcs.2022.10.005

Online scheduling of parallelizable jobs in the directed acyclic graphs and speed-up curves models

Benjamin Moselely
, Ruilong Zhang^*
, Shanjiawen Zhao

^*此作品的通讯作者

Carnegie Mellon University
City University of Hong Kong
Carnegie Mellon University

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

This paper considers scheduling jobs online on m identical machines such that the jobs can be parallelized across the machines. Two models of parallelizability are considered, one is the speed-up curves model, and the other is the directed-acyclic-graph (DAG) model. For both models, the objectives considered are the average, maximum, and ℓ_k-norms of flow time for k≥1. We establish an Ω(m) lower bound on the competitive ratio of any algorithm for optimizing average flow time in both models without resource augmentation. With resource augmentation, we give a (1+ϵ)-speed [Formula presented]-competitive algorithm in the DAG model for the ℓ_k-norms of flow time. This essentially matches the best-known result in the speed-up curve model for the ℓ_k-norms of flow time. Finally, we show an O(1)-competitive algorithm for minimizing the maximum flow time in the speed-up curves model.

源语言	英语
页（从-至）	24-38
页数	15
期刊	Theoretical Computer Science
卷	938
DOI	https://doi.org/10.1016/j.tcs.2022.10.005
出版状态	已出版 - 26 11月 2022
已对外发布	是

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title = "Online scheduling of parallelizable jobs in the directed acyclic graphs and speed-up curves models",

abstract = "This paper considers scheduling jobs online on m identical machines such that the jobs can be parallelized across the machines. Two models of parallelizability are considered, one is the speed-up curves model, and the other is the directed-acyclic-graph (DAG) model. For both models, the objectives considered are the average, maximum, and ℓk-norms of flow time for k≥1. We establish an Ω(m) lower bound on the competitive ratio of any algorithm for optimizing average flow time in both models without resource augmentation. With resource augmentation, we give a (1+ϵ)-speed [Formula presented]-competitive algorithm in the DAG model for the ℓk-norms of flow time. This essentially matches the best-known result in the speed-up curve model for the ℓk-norms of flow time. Finally, we show an O(1)-competitive algorithm for minimizing the maximum flow time in the speed-up curves model.",

keywords = "Competitive analysis, DAG jobs, Online algorithms, Parallelizable jobs, Scheduling, ℓ-norm of flow time",

author = "Benjamin Moselely and Ruilong Zhang and Shanjiawen Zhao",

note = "Publisher Copyright: {\textcopyright} 2022 Elsevier B.V.",

year = "2022",

month = nov,

day = "26",

doi = "10.1016/j.tcs.2022.10.005",

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T1 - Online scheduling of parallelizable jobs in the directed acyclic graphs and speed-up curves models

AU - Moselely, Benjamin

AU - Zhang, Ruilong

AU - Zhao, Shanjiawen

PY - 2022/11/26

Y1 - 2022/11/26

N2 - This paper considers scheduling jobs online on m identical machines such that the jobs can be parallelized across the machines. Two models of parallelizability are considered, one is the speed-up curves model, and the other is the directed-acyclic-graph (DAG) model. For both models, the objectives considered are the average, maximum, and ℓk-norms of flow time for k≥1. We establish an Ω(m) lower bound on the competitive ratio of any algorithm for optimizing average flow time in both models without resource augmentation. With resource augmentation, we give a (1+ϵ)-speed [Formula presented]-competitive algorithm in the DAG model for the ℓk-norms of flow time. This essentially matches the best-known result in the speed-up curve model for the ℓk-norms of flow time. Finally, we show an O(1)-competitive algorithm for minimizing the maximum flow time in the speed-up curves model.

AB - This paper considers scheduling jobs online on m identical machines such that the jobs can be parallelized across the machines. Two models of parallelizability are considered, one is the speed-up curves model, and the other is the directed-acyclic-graph (DAG) model. For both models, the objectives considered are the average, maximum, and ℓk-norms of flow time for k≥1. We establish an Ω(m) lower bound on the competitive ratio of any algorithm for optimizing average flow time in both models without resource augmentation. With resource augmentation, we give a (1+ϵ)-speed [Formula presented]-competitive algorithm in the DAG model for the ℓk-norms of flow time. This essentially matches the best-known result in the speed-up curve model for the ℓk-norms of flow time. Finally, we show an O(1)-competitive algorithm for minimizing the maximum flow time in the speed-up curves model.

KW - Competitive analysis

KW - DAG jobs

KW - Online algorithms

KW - Parallelizable jobs

KW - Scheduling

KW - ℓ-norm of flow time

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DO - 10.1016/j.tcs.2022.10.005

M3 - 文章

AN - SCOPUS:85140328335

SN - 0304-3975

VL - 938

SP - 24

EP - 38

JO - Theoretical Computer Science

JF - Theoretical Computer Science

ER -

Online scheduling of parallelizable jobs in the directed acyclic graphs and speed-up curves models

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