HyperSpark:用于并行元启发式的数据密集型编程环境

M. Ciavotta, S. Krstic, D. Tamburri, W. Heuvel
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引用次数: 2

摘要

元启发式是用来解决复杂的、通常是棘手的问题的搜索过程,对于这些问题,其他方法不适合或无法在合理的时间内提供解决方案。尽管随着云计算和大数据平台的出现,计算能力呈指数级增长,但元启发式领域尚未充分利用这一新的潜力。在本文中,我们通过提出HyperSpark来解决这一差距,HyperSpark是一个用于用户定义的计算密集型启发式的可扩展执行的优化框架。我们将HyperSpark设计为一个灵活的工具,旨在利用最先进的大数据技术的优势(例如,设计的可扩展性)和功能(例如,简单的编程模型或特设基础设施调整),以实现优化方法的优势。我们详细阐述了HyperSpark,并在一个库上评估了它的有效性和通用性,该库实现了用于排列流车间问题(PFSP)的几个元启发式方法。我们观察到HyperSpark的结果与文献中最好的工具和解决方案相当。我们的结论是,我们的概念验证显示出进一步研究和实际应用的巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
HyperSpark: A Data-Intensive Programming Environment for Parallel Metaheuristics
Metaheuristics are search procedures used to solve complex, often intractable problems for which other approaches are unsuitable or unable to provide solutions in reasonable times. Although computing power has grown exponentially with the onset of Cloud Computing and Big Data platforms, the domain of metaheuristics has not yet taken full advantage of this new potential. In this paper, we address this gap by proposing HyperSpark, an optimization framework for the scalable execution of user-defined, computationally-intensive heuristics. We designed HyperSpark as a flexible tool meant to harness the benefits (e.g., scalability by design) and features (e.g., a simple programming model or ad-hoc infrastructure tuning) of state-of-the-art big data technology for the benefit of optimization methods. We elaborate on HyperSpark and assess its validity and generality on a library implementing several metaheuristics for the Permutation Flow-Shop Problem (PFSP). We observe that HyperSpark results are comparable with the best tools and solutions from the literature. We conclude that our proof-of-concept shows great potential for further research and practical use.
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