Accelerating software radio astronomy FX correlation with GPU and FPGA co-processors

Accelerating software radio astronomy FX correlation with GPU and FPGA co-processors

Includes abstract. === Includes bibliographical references (leaves [117]-121). === This thesis attempts to accelerate compute intensive sections of a frequency domain radio astronomy correlator using dedicated co-processors. Two co-processor implementations were made independently with one using rec...

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Bibliographic Details
Main Author: Woods, Andrew
Other Authors: Inggs, Michael
Format: Dissertation
Language:English
Published: University of Cape Town 2015
Subjects:
Electrical Engineering
Online Access:http://hdl.handle.net/11427/12212
Description
Summary:Includes abstract. === Includes bibliographical references (leaves [117]-121). === This thesis attempts to accelerate compute intensive sections of a frequency domain radio astronomy correlator using dedicated co-processors. Two co-processor implementations were made independently with one using reconfigurable hardware (Xilinx Virtex 4LXlOO) and the other uses a graphics processor (Nvidia 9800GT). The objective of a radio astronomy correlator is to compute the complex valued correlation products for each baseline which can be used to reconstruct the sky's radio brightness distribution. Radio astronomy correlators have huge computation demands and this dissertation focuses on the computational aspects of correlation, concentrating on the X-engine stage of the correlator.

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