Weighted throughput in a single machine preemptive scheduling with continuous controllable processing times

IF 0.4 4区计算机科学 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Acta Informatica Pub Date : 2022-07-19 DOI:10.1007/s00236-022-00430-4

Asaf Levin, Tal Shusterman

引用次数: 0

Abstract

We consider the problem of weighted throughput in the single machine preemptive scheduling with continuous controllable processing times. A set of tasks can be scheduled on a single machine. Each task j is associated with a nonnegative weight \(w_{j}\), a release date, a due date, and an interval of possible processing times. A task j can either be scheduled with a total processing time \(p_j\) which is in the given interval, or rejected (not participating in the schedule). The reward for processing j for \(p_{j}\) time units is \(w_{j}p_{j}\), and we are interested in constructing a feasible preemptive schedule such that the sum of rewards is maximized. We present a dynamic programming algorithm that solves the problem in pseudo-polynomial time and use it to obtain an FPTAS. Afterward, as our main contribution we propose an interesting efficient frontier approach for improved complexity bounds.

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具有连续可控处理时间的单机抢占调度中的加权吞吐量

研究了处理时间连续可控的单机抢占调度中的加权吞吐量问题。可以在一台机器上调度一组任务。每个任务j都与一个非负权重\(w_{j}\)、一个发布日期、一个到期日期和一个可能的处理时间间隔相关联。任务j可以使用给定间隔内的总处理时间\(p_j\)进行调度，也可以拒绝(不参与调度)。对于\(p_{j}\)时间单位处理j的奖励是\(w_{j}p_{j}\)，我们感兴趣的是构建一个可行的抢占式调度，使奖励总和最大化。提出了一种动态规划算法，该算法在伪多项式时间内解决了这一问题，并利用该算法得到了一个FPTAS。之后，作为我们的主要贡献，我们提出了一个有趣的有效的边界方法来改进复杂性边界。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Informatica 工程技术-计算机：信息系统

CiteScore

2.40

自引率

16.70%

发文量

审稿时长

>12 weeks

期刊介绍： Acta Informatica provides international dissemination of articles on formal methods for the design and analysis of programs, computing systems and information structures, as well as related fields of Theoretical Computer Science such as Automata Theory, Logic in Computer Science, and Algorithmics. Topics of interest include: • semantics of programming languages • models and modeling languages for concurrent, distributed, reactive and mobile systems • models and modeling languages for timed, hybrid and probabilistic systems • specification, program analysis and verification • model checking and theorem proving • modal, temporal, first- and higher-order logics, and their variants • constraint logic, SAT/SMT-solving techniques • theoretical aspects of databases, semi-structured data and finite model theory • theoretical aspects of artificial intelligence, knowledge representation, description logic • automata theory, formal languages, term and graph rewriting • game-based models, synthesis • type theory, typed calculi • algebraic, coalgebraic and categorical methods • formal aspects of performance, dependability and reliability analysis • foundations of information and network security • parallel, distributed and randomized algorithms • design and analysis of algorithms • foundations of network and communication protocols.

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