ASKAP Technologies: Data Transport and Signal Transmission
The signal distribution and data interconnectivity systems for ASKAP include the data transport from the telescope site to a major network link. As ASKAP can be configured as either an interferometer or single phased array dish (sum of 36 antennas), both phase coherent receiver and signal processing systems are required. Antenna-specific hardware and subsystems are being developed by CSIRO and tested on the Parkes Testbed Facility.
Atomic clocks and back-haul data transport systems used by ASKAP will also be made available for use by other arrays, experiments and facilities sharing the Murchison Radio-astronomy Observatory (MRO) site.
Technical Challenges
The transport of the astronomical data signals from the phased array feed (PAF) to the analog-to-digital converter (ADC) systems and on to the digital beamformer is a key challenge for ASKAP, and for SKA in the future. The hundreds of feed elements required in the PAF necessitate a large number of connections through rotating cable wraps at all three antenna axes. To synchronise the array, high quality local oscillator signals will be sent from a central master timebase, an ultra pure 16 MHz carrier.
Connecting antennas to the central site digital signal processing (beamformer and correlator) will require Terabit per second data pipelines over distances of up to 8 km. The total output data rate per antenna will be approximately 2 Tbps and the total input rate to the digital beamformers will be a continuous 72 Tbps. Commercial off-the-shelf 1 Ge Ethernet will be networked to each antenna and around site for system monitoring and control.
A long-haul (400 km) DWDM data transmission system with three intermediate repeater huts will also be needed for transport of visibility data from the remote array site (the MRO) to the Geraldton science centre (the MSF) and beyond. High data rate paths will also be required back (bi-directional) to the ASKAP site from other remote antenna installations around the continent as a demonstration for SKA. Initial ASKAP BETA requirements are for a 1 Gbps link expandable to several hundred gigabits per second using 10 Gbps DWDM. The fibre choice (dispersion shifted G655) will enable expansion to 40 Gbps and 100 Gbps per wavelength for future SKA requirements.
Design Study for a Data Transmission Link
ASKAP requires a new optical-fibre network connection from the MRO to a site in Geraldton. As the MRO is Australia's candidate site for the SKA, we plan to have sufficient fibre installed to meet the estimated needs of the SKA.
CSIRO has contracted AARNet to conduct a design study to define technical options for the project, make cost-benefit analyses for different options, design the fibre route, produce a detailed costing of the entire project, and analyse project risks. The study has now been completed, and an update on the data transmission project is available here. This document is freely available and is being circulated to all parties who have expressed interest in ASKAP. Please note that this document is not an invitation to tender. The procurement process will strictly follow the Commonwealth Procurement Guidelines.
Opportunities for Industry
Information on opportunities for industry to be involved in the development of ASKAP can be found on the industry page.
Further Information
- Latest ASKAP Technical Update newsletter
- Conference paper pre-print 'ASKAP Photonic Requirements' [550kB PDF].