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EMBRACE@NancayEMBRACE
Torchinsky et al, 2016, A&A, acceptedhttp://dx.doi.org/10.1051/0004-6361/201526706
http://arxiv.org/abs/1602.07976
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MIDPREP Workshop, CapetownSteve Torchinsky, 8 March 2016 EMBRACE@Nancay
MID-FREQUENCY APERTURE ARRAY
http://arxiv.org/abs/1602.07976
Electronic MultBeam Radio Astronomy ConcEpt
EMBRACE is an AAmid Pathfinder for SKA– Results from EMBRACE feed into SKA Mid Frequency
design and SKA technology selection Largely funded within EC FP6 Project SKADS (2005-09)
For EMBRACE:
ASTRON: Project Leader, overall architecture, antennas,
industrialization,...
Nançay: Beamformer Chip, Monitoring and Control Software
MPI Bonn and INAF Medicina: design of multiplexing circuits for
RF reception, down conversion, command/control, power supply
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3EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
Beamformer Chip
Bosse et al., 2010, EuMIC
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MIDPREP Workshop, CapetownSteve Torchinsky, 8 March 2016 EMBRACE@Nancay
MID-FREQUENCY APERTURE ARRAY
http://arxiv.org/abs/1602.07976
Beamforming Architecture
Beamformerchip
Beam-A Beam-B
4608 Vivaldi antenna elements
1152 Beamformer chips (4 Vivaldi antennas per chip) 2 independent beams formed per chip
384 Hexboards (3 Beamformer chips per hexboard)
64 Tiles (6 Hexboards per tile)
16 Tilesets (4 Tiles per tileset)
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Beamformerchip
Beam-A Beam-B
Tile
Beam-A Beam-B
Tile Tile Tile
Tileset
32 inputs to the digital backend (16 for Beam-A, and 16 for Beam-B) Digital backend for Beam-A
(16 inputs)
Digital backend for Beam-B (16 inputs)
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5EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
EMBRACE@Nançaysignal chain
4608 Vivaldi antenna elements
Single polarization (second polarization antennas are in place, but only one polarization has a complete signal chain)
4 level hierarchical analog beamforming/signal summing
Beamformer chip: 4 inputs, 2 outputs (2 independent beams)
45º phase steps
Analog summing output from 3 beamformer chips
Analog summing of 6 inputs = 1 tile (72 elements)
15m cable → Analog summing of 4 inputs = 1 tileset
Down conversion
32 inputs to LOFAR backend(16 A-beam, and 16 B-beam)
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6EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
EMBRACE characteristics
500 – 1500 MHz
– But high pass filter at 900 MHz to avoid digital television 70 m2 (8.5m X 8.5m) Instantaneous RF band: 100 MHz Maximum instantaneous beam formed:
• 36 MHz x 2 directions (single polarization)• 186 “beamlets” each of 195.3 kHz bandwidth• i.e. 3 “lanes” for high speed data from RSP
Can trade off beam width vs. number of beams
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7EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
System Control and Data
• Enormous flexibility with the dense array– Multi-beam– Instantaneous reconfiguration– Real time calibration– Multiple observing mode possibilities with tradeoff
between bandwidth, number of beams, field of view
MAC developed at Nançay provides a friendly Python interface for the user to setup complicated observing runs.
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8EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Some results
http://arxiv.org/abs/1602.07976Torchinsky et al, 2016, A&A, accepted
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9EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
CasA
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10EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
CygA 1420.4MHz
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11EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
CygA 1416.0MHz
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12EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Multibeaming
80 dB
100 dB
7000 secs
1420.4MHz
EMBRACE@Nançay
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13EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Correlator Offset:Flat Fielding
Cygnus ASame data!(before/after fix)
GPS satellite(strong source)
No change
Stable background “image” due to correlator offset
EMBRACE@Nançay
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14EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Correlator Offset
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15EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Tracking with uncorrectedCorrelator Offset
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16EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
ON-OFF pointing strategy
● On and Off observations can
be done simultaneously with
EMBRACE (multibeams)
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17EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Galaxy Detection: M33
Integrated ON and OFF spectra
(ON – OFF)/OFF
Baseline fit and interpolate past RFI channels
Spectrum of M33
EMBRACE@Nançay
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18EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Galaxy Detection
EMBRACE@Nançay
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19EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Pulsar monitoring
● Programme of daily monitoring of pulsar B0329+54 at 970MHz and 1420MHz simultaneously
● Possibility to detect accretion events in the long term (see e.g. Brook et al. ArXiv:1311.3541v1)
EMBRACE@Nançay
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20EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
B0329+54 at 970MHz
● 366 pulse profile measurements between 18 Nov 2013 and 2 Sep 2015
● Tests stability and reliability of the system
● Possible detection of solar wind
EMBRACE@Nançay
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21EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Partial Solar Eclipse20 March 2015
Bourges
Photo by Steve T.
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22EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Simultaneous Observations at 970MHz and 1420MHz
EMBRACE@Nançay
Five consecutive days of tracking the Sun, beginning at elevation 10°
970MHz
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23EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Simultaneous Observations at 970MHz and 1420MHz
EMBRACE@Nançay
Five consecutive days of tracking the Sun, beginning at elevation 10°
1420MHz
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24EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
Solar Eclipseat 970MHz and 1420MHz
EMBRACE@NançayReferenced to the measurements from the days before and the days after
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25EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
EMBRACE Workshop at Nancay 7-11 September
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MIDPREP Workshop, CapetownSteve Torchinsky, 8 March 2016 EMBRACE@Nancay
MID-FREQUENCY APERTURE ARRAY
http://arxiv.org/abs/1602.07976
Lessons Learned● Long term stability
– Calibration parameters can be used for many months (years?)
– Repeatability: characteristics the same from one day to the next
● Reliability
– Many components, but few hardware failures. In fact, the large number of components is an advantage for reliability: If one signal chain fails, it makes little difference to the whole system.
● Custom components work well over the long term
– Beamformer chip extremely reliable, and stable. All chips still performing well after 5 years nearly continuous operation
– LNA, ditto
– Mean time between failures > 5 years (and counting)
● Use direct sampling!
– Correlator offset due to frequency conversion
● Cross correlation statistics are extremely useful for debugging!
● Failures of Off-the-shelf hardware
– Problem with communication to some tiles
● Network switches
● Cables and connectors
– Remember: consumer electronics are programmed to fail after 3 years (is this a controversial statement?)
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27EMBRACE@Nancay, Steve Torchinsky, MIDPREP Workshop, Capetown, 8 March 2016
http://arxiv.org/abs/1602.07976
EMBRACE contribution to SKA Development
● Demonstrate that dense aperture array technology can be used for radio astronomy– Calibration
– Ease of operation● setup, pointing, multibeaming, mapping, etc
– Operation as a facility instrument● Long term programme of observation with regular (daily) observations● Robustness and reliability● Hardware “mean time between failures”
– Test Bench ● Real time RFI filtering algorithms implemented on UNIBOARD● Fast Radio Burst algorithms implemented on GPU
– Training● Student projects on Aperture Array astronomy● workshops
– Possible scientific results despite modest collecting area● Survey for Fast Radio Bursts● Solar wind monitoring with pulsar observations● Targets of opportunity (e.g. solar eclipse)
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EMBRACE@NancayEMBRACE
Torchinsky et al, 2016, A&A, acceptedhttp://dx.doi.org/10.1051/0004-6361/201526706
http://arxiv.org/abs/1602.07976