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Digital Instrumentation for the Radio Astronomy Community

Authors :
Parsons, Aaron
Werthimer, Dan
Backer, Donald
Bastian, Tim
Bower, Geoffrey
Brisken, Walter
Chen, Henry
Deller, Adam
Filiba, Terry
Gary, Dale
Greenhill, Lincoln
Hawkins, David
Jones, Glenn
Langston, Glen
Lazio, Joseph
van Leeuwen, Joeri
Mitchell, Daniel
Manley, Jason
Siemion, Andrew
So, Hayden Kwok-Hay
Whitney, Alan
Woody, Dave
Wright, Melvyn
Zarb-Adami, Kristian
Publication Year :
2009

Abstract

Time-to-science is an important figure of merit for digital instrumentation serving the astronomical community. A digital signal processing (DSP) community is forming that uses shared hardware development, signal processing libraries, and instrument architectures to reduce development time of digital instrumentation and to improve time-to-science for a wide variety of projects. We suggest prioritizing technological development supporting the needs of this nascent DSP community. After outlining several instrument classes that are relying on digital instrumentation development to achieve new science objectives, we identify key areas where technologies pertaining to interoperability and processing flexibility will reduce the time, risk, and cost of developing the digital instrumentation for radio astronomy. These areas represent focus points where support of general-purpose, open-source development for a DSP community should be prioritized in the next decade. Contributors to such technological development may be centers of support for this DSP community, science groups that contribute general-purpose DSP solutions as part of their own instrumentation needs, or engineering groups engaging in research that may be applied to next-generation DSP instrumentation.<br />Comment: 11 pages, 4 figures, Astro2010 Decadal Survey White Paper in TEC: Technology Development

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.0904.1181
Document Type :
Working Paper