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VCSBeam version
Required: >= v2.18.1.8
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language | bash |
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theme | Midnight |
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# On Garrawarla, test vcsbeam version
$ module use /pawsey/mwa/software/python3/modulefiles
$ module load vcsbeam
$ make_mwa_tied_array_beam -V
MWA Beamformer v2.18.18_e79c6bd |
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Offline FinePFB
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language | bash |
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theme | Midnight |
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$ cd /astro/mwavcs/asvo/251861
$ wget -O 1318345216.fits http://ws.mwatelescope.org/metadata/fits?obs_id=1318345216
$ cd /astro/mwavcs/vcs/1318345216/combined
$ for freq in {109..120}
do
sed "s/FREQ/${freq}/" < make_legacy.sbatch > make_legacy_ch${freq}.sbatch
sbatch make_legacy_ch${freq}.sbatch
done |
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language | bash |
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theme | Midnight |
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title | make_legacy.sbatch |
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collapse | true |
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#!/bin/bash -l
#SBATCH --nodes=1
#SBATCH --cpus-per-task=1
#SBATCH --ntasks-per-node=1
#SBATCH --mem=370gb
#SBATCH --partition=gpuq
#SBATCH --gres=gpu:1
#SBATCH --time=01:00:00
#SBATCH --account=mwavcs
#SBATCH --export=NONE
module use /pawsey/mwa/software/python3/modulefiles
module load vcsbeam
module load openmpi-ucx-gpu
DATAPATH=/astro/mwavcs/asvo/251861
srun -N 1 -n 1 fine_pfb_offline -m $DATAPATH/1318345216.metafits -b 1318345216 -T 600 -f FREQ -d $DATAPATH |
Incoherent Beam
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language | bash |
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theme | Midnight |
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$ cd /astro/mwavcs/vcs/1318345216/vcsbeam/incoh
$ sbatch vcsbeam_incoh.sbatch |
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language | bash |
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theme | Midnight |
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title | /astro/mwavcs/vcs/1318345216/vcsbeam/incoh/vcsbeam_incoh.sbatch |
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collapse | true |
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#!/bin/bash -l
#SBATCH --nodes=12
#SBATCH --ntasks-per-node=1
#SBATCH --cpus-per-task=1
#SBATCH --mem=370gb
#SBATCH --partition=gpuq
#SBATCH --gres=gpu:1
#SBATCH --time=00:30:00
#SBATCH --account=mwavcs
#SBATCH --nice=0
#SBATCH --export=NONE
module use /pawsey/mwa/software/python3/modulefiles
module load vcsbeam
srun -N 12 -n 12 make_mwa_incoh_beam \
-m /astro/mwavcs/vcs/1318345216/combined/1318345216_legacy.metafits \
-b 1318345216 \
-T 600 \
-f 109 \
-d /astro/mwavcs/vcs/1318345216/combined \
-o incoh |
After beamforming finishes, fold on B0031-07:
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language | bash |
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$ module load singularity
$ /pawsey/mwa/singularity/presto/presto.sif prepfold -psr J0034-0721 -nosearch -nodmsearch incoh*.fits |
Image Added
The pulsar is clearly there, but there is a lot of RFI. After some experimenting, I find that the last 38% or so is RFI free:
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$ pawsey/mwa/singularity/presto/presto.sif prepfold -psr J0034-0721 -start 0.62 -nosearch -nodmsearch incoh*.fits |
Image Added
Therefore, I should only use this section of the data to get a calibration solution.
Calibration
Offline Correlator
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language | bash |
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theme | Midnight |
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$ cd /astro/mwavcs/vcs/1318345216/cal/1318345216/vis
$ for freq in {109..120}
do
sed "s/FREQ/${freq}/" < offline_correlate.sbatch > offline_correlate_${freq}.sbatch
sbatch offline_correlate_${freq}.sbatch
done |
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language | bash |
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theme | Midnight |
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title | offline_correlate.sbatch |
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collapse | true |
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#!/bin/bash -l
#SBATCH --nodes=1
#SBATCH --mem=370gb
#SBATCH --partition=gpuq
#SBATCH --gres=gpu:1
#SBATCH --time=01:00:00
#SBATCH --account=mwavcs
#SBATCH --export=NONE
module use /pawsey/mwa/software/python3/modulefiles
module load offline_correlator
for t in {0..299599}
do
gpssecond=$(echo "$t + 13183452201318345216" | bc)
gpubox=$(echo "FREQ - 108" | bc)
INPUT_DATA_FILE=/astro/mwavcs/vcs/1318345216/combined/1318345216_${gpssecond}_chFREQ.dat
START_SECOND=${gpssecond}
DUMPS_PER_SECOND=1 # This sets the output time resolution
# (e.g. 20 --> 1/20 = 0.05s = 50 ms)
# Minimum allowed resolution is 2 ms
CHANS_TO_AVERAGE=4 # This sets the output frequency resolution
# (e.g. 4 --> 4x10 kHz = 40 kHz)
GPUBOX_CHANNEL_NUMBER=${gpubox} # This should be chosen to "match" the input channel
# This is not easy! (mwalib handles this, but at the
# moment, offline_correlator is not using mwalib)
OUTPUT_PREFIX=1318345216 # Output files begin with this
srun -N 1 -n 1 offline_correlator \
-d ${INPUT_DATA_FILE} \
-s ${START_SECOND} \
-r ${DUMPS_PER_SECOND} \
-n ${CHANS_TO_AVERAGE} \
-c ${GPUBOX_CHANNEL_NUMBER} \
-o ${OUTPUT_PREFIX}
done |
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language | bash |
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title | /astro/mwavcs/vcs/1318345216/cal/1318345216/rts/flagged_channels.txt |
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0
1
16
30
31 |
Selecting only the last 38% of the observation for calibration
One of the parameters passed to the RTS is the "basename" of the files containing the visibilities. In order to distinguish between the RFI-ridden visibilities and the clean ones, I will create soft links to the clean gpubox files (created in an earlier step) and change the case of the filenames (gpubox → GPUBOX). The first and last filenames are 1318345216_20111011150016_gpubox01_00.fits
and 1318345216_20111011151015_gpubox12_00.fits
, with the timestamp in the format YYYYMMDDHHMMSS
. To get the last 38%, I need to start 6:12 (mm:ss) into the observation, which means that my first clean file will be 1318345216_20111011150628_gpubox01_00.fits
.
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language | bash |
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theme | Midnight |
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title | Create source list |
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$ cd /astro/mwavcs/vcs/1318345216/cal/1318345216/vis
$ ls 1318345216_2011101115062[89]_gpubox*.fits 1318345216_201110111506[3-5]?_gpubox*.fits 1318345216_20111011150[7-9]??_gpubox*.fits 1318345216_20111011151???_gpubox*.fits | while read f; do ln -s ${f} $(echo ${f} | tr 'gpubox' 'GPUBOX'); done |
After doing this, the RTS ".in" file must be altered so that it's only looking for files with GPUBOX in the filename (see below).
After running the RTS (see below) and checking the solutions (using the python scripts supplied in VCSTools), I found that I also had to add 14 to the list of flagged channels, and 52, 53, 54, 59 and 61 to the list of flagged tiles.
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language | bash |
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title | /astro/mwavcs/vcs/1318345216/cal/1318345216/rts/flagged_tiles.txt |
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collapse | true |
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1
12
45
51
52
53
54
59
60
61
72
93
94
112 |
Run the RTS
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language | bash |
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theme | Midnight |
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title | Run the RTS |
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$ cd /astro/mwavcs/vcs/1318345216/cal/1318345216/rts
$ sbatch /astro/mwavcs/vcs/1318345216/batch/RTS_1318345216.batch |
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language | bash |
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theme | Midnight |
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title | /astro/mwavcs/vcs/1318345216/batch/RTS_1318345216.batch |
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collapse | true |
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#!/bin/bash -l
#SBATCH --export=NONE
#SBATCH --output=/astro/mwavcs/vcs/1318345216/batch/RTS_1318345216.out
#SBATCH --account=mwavcs
#SBATCH --clusters=garrawarla
#SBATCH --partition=gpuq
#
#SBATCH --cpus-per-task=1
#SBATCH --mem-per-cpu=10240MB
#SBATCH --nice=0
#SBATCH --chdir=/astro/mwavcs/vcs/1318345216/cal/1318345216/rts
#SBATCH --time=20:0045:00
#SBATCH --nodes=13
#SBATCH --cpus-per-gpu=1
#SBATCH --gres=gpu:1
ncpus=1
export OMP_NUM_THREADS=1
module use /pawsey/mwa/software/python3/modulefiles/
module load vcstools/master
module load RTS/master
cd /astro/mwavcs/vcs/1318345216/cal/1318345216/rts
export UCX_MEMTYPE_CACHE=n
srun --export=all -N 13 -n 13 rts_gpu /astro/mwavcs/vcs/1318345216/cal/1318345216/rts/rts_1318345216.in
# ^^^^ 13 = 12 coarse channels (1 node per coarse channel) + 1 master node |
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language | bash |
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title | /astro/mwavcs/vcs/1318345216/cal/1318345216/rts/rts_1318345216.in |
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collapse | true |
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ReadAllFromSingleFile=
BaseFilename=/astro/mwavcs/vcs/1318345216/cal/1318345216/vis/*_gpuboxGPUBOX
ReadGpuboxDirect=0
UseCorrelatorInput=1
ReadMetafitsFile=1
MetafitsFilename=/astro/mwavcs/vcs/1318345216/1318345216
DoCalibration=
doMWArxCorrections=1
doRawDataCorrections=1
doRFIflagging=0
useFastPrimaryBeamModels=0
generateDIjones=1
applyDIcalibration=1
UsePacketInput=0
UseThreadedVI=1
MaxFrequency=170.24
ObservationFrequencyBase=138.895
ObservationTimeBase=2455846.1252314816
ObservationPointCentreHA=-0.35952189154909175
ObservationPointCentreDec=-5.98757073636307
ChannelBandwidth=0.04
NumberOfChannels=32
CorrDumpsPerCadence=128
CorrDumpTime=1.0
NumberOfIntegrationBins=6
NumberOfIterations=1
StartProcessingAt=0
ArrayPositionLat=-26.7033194
ArrayPositionLong=116.6708152
ArrayNumberOfStations=128
ArrayFile=
SourceCatalogueFile=/astro/mwavcs/vcs/1318345216/cal/1318345216/srclist_pumav3_EoR0aegean_EoR1pietro+ForA_1318345216_patch1000.txt
NumberOfCalibrators=1
NumberOfSourcesToPeel=0
calBaselineMin=20.0
calShortBaselineTaper=40.0
FieldOfViewDegrees=1 |
Make a "calibration" metafits
In order to be able to use this calibration solution for beamforming, mwalib has to be "tricked" into getting the frequency resolution right (i.e. whatever we set during the offline correlation step). To do this, make a copy of the metafits file and change
FINECHAN → 40 (kHz)
NCHANS → 768
MODE → 'HWLFILES'
I then saved this file to /astro/mwavcs/vcs/1318345216/cal/1318345216_cal.metafits.
(MEMO TO SELF: write a utility script to do this for you.)
Beamform
For the time being, we have to "trick" the beamformer into thinking this is a legacy VCS observation, instead of an MWAX VCS observation. I did this by creating a copy of the metafits file and changing the "MODE" and "NCHANS" fields to 'VOLTAGE_START' and 3072, respectively. [MEMO TO SELF: add an option to "force" the beamformer to treat it as a legacy obs, if you want to beamform from the .dat files produced by the offline PFB.]
Transfer the flagged tiles from the RTS
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$ cd /astro/mwavcs/vcs/1318345216/vcsbeam
$ /PATH/TO/rts_flag_ant_to_tilenames.py 1318345216_cal.metafits flagged_tiles.txt > flagged_tilenames.txt |
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language | bash |
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theme | Midnight |
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title | /astro/mwavcs/vcs/1318345216/vcsbeam/flagged_tilenames.txt |
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collapse | true |
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HexS31
HexE16
Tile017
Tile091
Tile098
Tile097
Tile096
Tile081
Tile088
Tile087
Tile064
HexE7
HexE6
HexS16 |
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language | bash |
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theme | Midnight |
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$ cd /astro/mwavcs/vcs/1318345216/vcsbeam
$ echo "00:34:08.8703 -07:21:53.409" > pointings.txt
$ sbatch vcsbeam.sbatch |
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theme | Midnight |
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$ module load singularity
$ /pawsey/mwa/singularity/presto/presto.sif prepfold -psr J0034-0721 -nosearch -nodmsearch C001_1318345216_00:34:08.87_-07:21:53.41_ch109-120_000?.fits |