Your search keyword '"Dahlö, Martin"' showing total 2 results

1. Rapid development of cloud-native intelligent data pipelines for scientific data streams using the HASTE Toolkit

Author

Blamey, Ben, Toor, Salman, Dahlö, Martin, Wieslander, Håkan, Harrison, Philip J, Sintorn, Ida-Maria, Sabirsh, Alan, Wählby, Carolina, Spjuth, Ola, and Hellander, Andreas

Subjects

Diagnostic Imaging, HASTE, tiered storage, Computer Sciences, AcademicSubjects/SCI02254, interestingness functions, Biological Science Disciplines, Datavetenskap (datalogi), image analysis, Technical Note, AcademicSubjects/SCI00960, Software, stream processing

Abstract

BACKGROUND: Large streamed datasets, characteristic of life science applications, are often resource-intensive to process, transport and store. We propose a pipeline model, a design pattern for scientific pipelines, where an incoming stream of scientific data is organized into a tiered or ordered "data hierarchy". We introduce the HASTE Toolkit, a proof-of-concept cloud-native software toolkit based on this pipeline model, to partition and prioritize data streams to optimize use of limited computing resources. FINDINGS: In our pipeline model, an "interestingness function" assigns an interestingness score to data objects in the stream, inducing a data hierarchy. From this score, a "policy" guides decisions on how to prioritize computational resource use for a given object. The HASTE Toolkit is a collection of tools to adopt this approach. We evaluate with 2 microscopy imaging case studies. The first is a high content screening experiment, where images are analyzed in an on-premise container cloud to prioritize storage and subsequent computation. The second considers edge processing of images for upload into the public cloud for real-time control of a transmission electron microscope. CONCLUSIONS: Through our evaluation, we created smart data pipelines capable of effective use of storage, compute, and network resources, enabling more efficient data-intensive experiments. We note a beneficial separation between scientific concerns of data priority, and the implementation of this behaviour for different resources in different deployment contexts. The toolkit allows intelligent prioritization to be `bolted on' to new and existing systems - and is intended for use with a range of technologies in different deployment scenarios. Spjuth and Hellander shared senior authorship

Published

2021

2. MaRe : Processing Big Data with application containers on Apache Spark

Author

Capuccini, Marco, Dahlö, Martin, Toor, Salman, Spjuth, Ola, Capuccini, Marco, Dahlö, Martin, Toor, Salman, and Spjuth, Ola

Abstract

Background: Life science is increasingly driven by Big Data analytics, and the MapReduce programming model has been proven successful for data-intensive analyses. However, current MapReduce frameworks offer poor support for reusing existing processing tools in bioinformatics pipelines. Furthermore, these frameworks do not have native support for application containers, which are becoming popular in scientific data processing. Results: Here we present MaRe, an open source programming library that introduces support for Docker containers in Apache Spark. Apache Spark and Docker are the MapReduce framework and container engine that have collected the largest open source community; thus, MaRe provides interoperability with the cutting-edge software ecosystem. We demonstrate MaRe on 2 data-intensive applications in life science, showing ease of use and scalability. Conclusions: MaRe enables scalable data-intensive processing in life science with Apache Spark and application containers. When compared with current best practices, which involve the use of workflow systems, MaRe has the advantage of providing data locality, ingestion from heterogeneous storage systems, and interactive processing. MaRe is generally applicable and available as open source software., eSSENCE

Published

2020