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Article type: Research Article
Authors: Munir, Rana Faisala; † | Nadal, Sergia | Romero, Oscara | Abelló, Albertoa | Jovanovic, Petara | Thiele, Maikb | Lehner, Wolfgangb
Affiliations: [a] Universitat Politècnica de Catalunya (UPC), Barcelona, Spain. {fmunir,snadal,oromero,aabello,petar}@essi.upc.edu | [b] Technische Universität Dresden (TUD), Dresden, Germany. {maik.thiele,wolfgang.lehner}@tu-dresden.de
Correspondence: [†] Address for correspondence: Campus Nord Omega-125, UPC - dept ESSI, C/Jordi Girona 1-3, E-08034 Barcelona, Spain.
Note: [*] This research has been partly funded by the European Commission through the Erasmus Mundus Joint Doctorate “Information Technologies for Business Intelligence - Doctoral College” (IT4BI-DC) and the GENESIS project, funded by the Spanish Ministerio de Ciencia e Innovación (num. TIN2016-79269-R)
Abstract: Data-intensive flows deploy a variety of complex data transformations to build information pipelines from data sources to different end users. As data are processed, these workflows generate large intermediate results, typically pipelined from one operator to the following ones. Materializing intermediate results, shared among multiple flows, brings benefits not only in terms of performance but also in resource usage and consistency. Similar ideas have been proposed in the context of data warehouses, which are studied under the materialized view selection problem. With the rise of Big Data systems, new challenges emerge due to new quality metrics captured by service level agreements which must be taken into account. Moreover, the way such results are stored must be reconsidered, as different data layouts can be used to reduce the I/O cost. In this paper, we propose a novel approach for automatic selection of multi-objective materialization of intermediate results in data-intensive flows, which can tackle multiple and conflicting quality objectives. In addition, our approach chooses the optimal storage data format for selected materialized intermediate results based on subsequent access patterns. The experimental results show that our approach provides 40% better average speedup with respect to the current state-of-the-art, as well as an improvement on disk access time of 18% as compared to fixed format solutions.
Keywords: Big Data, Data-Intensive Flows, Intermediate Results, Data Format, HDFS
DOI: 10.3233/FI-2018-1734
Journal: Fundamenta Informaticae, vol. 163, no. 2, pp. 111-138, 2018
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