Special Issue — Digital Signal Processing in Radio Astronomy; Guest Editors: Danny C. Price, Jonathon Kocz, Matthew Bailes and Lincoln J. GreenhillNo Access

The AARTFAAC All-Sky Monitor: System Design and Implementation

Peeyush Prasad

Anton Pannekoek Institute, University of Amsterdam, Postbus 94249 1090 GE, Amsterdam, The Netherlands

E-mail Address: p.prasad@uva.nl

Corresponding author.

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Folkert Huizinga

Anton Pannekoek Institute, University of Amsterdam, Postbus 94249 1090 GE, Amsterdam, The Netherlands

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Eric Kooistra

ASTRON, Oude Hoogeveensedijk, 7991PD, The Netherlands

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Daniel van der Schuur

ASTRON, Oude Hoogeveensedijk, 7991PD, The Netherlands

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Andre Gunst

ASTRON, Oude Hoogeveensedijk, 7991PD, The Netherlands

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John Romein

ASTRON, Oude Hoogeveensedijk, 7991PD, The Netherlands

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Mark Kuiack

Anton Pannekoek Institute, University of Amsterdam, Postbus 94249 1090 GE, Amsterdam, The Netherlands

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Gijs Molenaar

Anton Pannekoek Institute, University of Amsterdam, Postbus 94249 1090 GE, Amsterdam, The Netherlands

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Antonia Rowlinson

Anton Pannekoek Institute, University of Amsterdam, Postbus 94249 1090 GE, Amsterdam, The Netherlands

ASTRON, Oude Hoogeveensedijk, 7991PD, The Netherlands

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John D. Swinbank

Department of Astrophysical Sciences, Princeton University, Princeton, NJ 08544, USA

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, and

Ralph A. M. J. Wijers

Anton Pannekoek Institute, University of Amsterdam, Postbus 94249 1090 GE, Amsterdam, The Netherlands

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https://doi.org/10.1142/S2251171716410087Cited by:31 (Source: Crossref)

Abstract

The Amsterdam–ASTRON Radio Transients Facility and Analysis Center (AARTFAAC) all-sky monitor is a sensitive, real-time transient detector based on the Low Frequency Array (LOFAR). It generates images of the low frequency radio sky with spatial resolution of tens of arcmin, MHz bandwidths, and a time cadence of a few seconds, while simultaneously but independently observing with LOFAR. The image timeseries is then monitored for short and bright radio transients. On detection of a transient, a low latency trigger will be generated for LOFAR, which can interrupt its schedule to carry out follow-up observations of the trigger location at high sensitivity and resolutions. In this paper, we describe our heterogeneous, hierarchical design to manage the 259Gbps raw data rate and large scale computing to produce real-time images with minimum latency. We discuss the implementation of the instrumentation, its performance and scalability.

Keywords:

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