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- The associated metafits file for each observation should be considered the source of truth for everything, except things that vary per coarse channel, which will be in the primary HDU of each coarse channel FITS file.
- Only the most basic information such as the obsid, projectid, time, correlator mode are repeated in the FITS Primary HDU (purely for convenience).
- The number of antenna can change on observation boundaries, so do not assume 128. The new MWAX correlator is designed to support up to 256 + tiles, but will likely start at 128 and grow as next generation receivers are added to the array. E.g. the next increment might be 144T136T if we added one more receiver connected to 8 tiles.
- Within the FITS image HDUs for visibilities, NAXIS1 represents the fine channels * polarisations * 2 (real/imaginary). NAXIS2 represents the baselines (antennas x (antennas+1))/2
- Polarisations are in XX,XY,YX,YY order
- Antennae are ordered by the "antenna" value as per the ‘BINTABLE’ in the associated metafits file called ‘TILEDATA’. See MWAX Antenna Ordering for more details.
- Baselines are antenna vs antenna, not input vs input (e.g. ant0 vs ant2, not ant0x vs ant2y), with all of the polarisations XX,XY,YX,YY grouped together with that baseline in the visibilities.
- Baselines are in lower regular triangular order. 0-0..0-n, then 1-1..1-n, then 2-2..2-n, etc.
- Coarse channel numbers (CORRCHAN) are always in sky frequency ascending order.
- Polarisations are in xx,xy,yx,yy order
- Real and imaginary data values are 32 bit floatsReal and imaginary data values are 32 bit floats
- There are significantly more correlator modes to support. Rely on FINECHAN and INT_TIME for the correct mode information from the metafits. See: MWAX Correlator Modes (128T)
The number of coarse channels per observation could change (once we deploy replacement receivers we could choose to use >24, or if we allow astronomers to choose LESS than 24 course channels with the existing receivers, or if an MWAX server is offline), so do not assume 24.
Instantaneous bandwidth / coarse channel width could change (once we deploy replacement receivers), so do not assume 30.72 MHz (24 x 1.28 MHz).
- Weights are provided in the gpubox files ( after each visibility HDU containing one timestep/integration). The weights and how they are determined is discussed below:
- Each visibility has a multiplicative weight applied, based on a data occupancy metric that takes account of any input data blocks that are missing due to lost UDP packets or RFI excision (a potential future enhancement). The centre (DC) ultrafine channel is excluded when averaging and the centre output channel values are re-scaled accordingly. Note that only 250 200 Hz of bandwidth is lost in this process, rather than a complete output channel.
- As part of the M&C system, the application of weights can be turned on or off per observation based on the science case/needs. With weights not applied, the data will be averaged in the correlator without taking into account the weights. Either way the weights are supplied in each alternate ImgHDU for your information.
- The MWAX correlator will provide options on a per observation to apply geometric and cable delays. When these are provided, they do not need to be done performed by downstream tools such as Cotter or the RTS. See MWAX Metafits Changes.
- Existing visibilities from the legacy/Ord correlator still need to be supported by downstream tools (e.g. Cotter / RTS).
- The MWAX FITS files contain a keyword "CORR_VER" which represents the correlator version he MWAX FITS files contain a keyword "CORR_VER" which represents the correlator version number. If this keyword is missing, assuming this is a FITS file from the Ord/Legacy correlator. "2" is the value for the MWAX correlator.
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| Keyword | (MWA) Valid Values | Change from v1 format? | Notes | ||||
|---|---|---|---|---|---|---|---|
SIMPLE | T | conforms to FITS standard | |||||
BITPIX | 8 | array data type | |||||
NAXIS | 0 | number of array dimensions | |||||
EXTEND | T | ||||||
COMMENT | FITS (Flexible Image Transport System) format is defined in 'Astronomy | ||||||
COMMENT | and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H | ||||||
CORR_VER | 2 | New | Correlator format version: <missing>= v1 (Ord / Legacy Correlator), 2 = v2 (MWAX Correlator) | ||||
COMMENT | Visibilities: 1 integration per HDU: [baseline][finechan][pol][r,i] | New | Description of data format for visibility HDUs | ||||
COMMENT | Weights: 1 integration per HDU: [baseline][pol][weight] | New | Description of data format for weight HDUs | ||||
MARKER | e.g. 0,1,2... n (where n is the final integration/timestep) | Data offset marker of first HDU (all channels should match). The marker increments by 1 per integration/timestep | |||||
TIME | e.g. 1531077040 | Unix start time of the data in this file | |||||
MILLITIM | 0-999 | Milliseconds component of TIME | |||||
PROJID | e.g. G0000 | MWA Project ID | |||||
OBSID | e.g. 1215112256 | MWA Observation ID (GPS start time of observation) | |||||
FINECHAN | 0.2, 0.4, 0.8, 1, 1.6, 2, 3.2, 4, 5, 6.4, 8, 10, 12.8, 16, 20, 25.6, 32, 40, 51.2, 64, 80, 128, 160, 256, 320, 640, 1280 | New | Correlator mode: Fine channel width in kHz | ||||
NFINECHS | 1-6400 e.g. 128 == 10 kHz fine channels (1280 kHz / 10 kHz) | New | Number of fine channels in each coarse channel | ||||
INTTIME | 0.25, 0.5, 1.0, 2.0, 4.0, 8.0 | Changed (was only 0.5, 1, 2) | Correlator mode: Integration time (s) | ||||
NINPUTS | (2-n) in increments of 16 (due to xGPU limitation) 256 == 128T 288 == 144T 512 == 256T | New | Number of inputs into the correlation products (antennas * pols) | ||||
CORRHOST | e.g. gpubox27 | New (pseudo-hostname used to be in the filename) | Hostname of the correlator server which processed this coarse channel | CORRCHAN | 0-N e.g. 0-23 | New (was in filename as part of the gpubox number). Thus number is now in sky frequency order. e.g. CORRCHAN 20 > CORRCHAN 19 when mapped to corresponding sky frequency - e.g 172.8 MHz > 170 MHz. NOTE: there are 26 MWAX servers (24 active + 2 spares). The CORRHOST value is for debugging purposes only and should not be used to infer the coarse channel. i.e. there is no implied mapping such that mwax01 gets the first coarse channel. It could be any of the mwax servers based on their readiness/status and other IT related factors! | Hostname of the correlator server which processed this coarse channel |
CORRCHAN | 0-N e.g. 0-23 | New (was in filename as part of the gpubox number). This is the 0-indexed ordinal of the receiver coarse channel selected. It is probably more convenient to use the absolute receiver channel number from the filename (..._chNNN_...). However here is how it works: If rec channels are: (101,102...124) then that would map to CORRCHAN (0,1,...23) Due to the RRI receiver channel reversal when receiver channel is >128: if rec channels are: (157,158,..180) then that would map to CORRCHAN (23,22...0) | Coarse channel number selected for correlation. | ||||
MC_IP | v.x.y.z | New | Multicast IP the data was addressed to | ||||
MC_PORT | nnnnnn | New | Multicast port the data was addressed to | ||||
U2S_VER | X.Y.Z | New | Version of the mwax_u2s program that captured the UDP packets for this observation | ||||
CBF_VER | X.Y.Z | New | Version of the mwax_db2correlate2db program that performed the F and X stage correlation for this observation | ||||
DB2F_VER | X.Y.Z | New | Version of the mwax_db2fits program that wrote this fits file. |
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| Keyword | (MWA) Valid Values | Change from v1 format? | Notes |
|---|---|---|---|
XTENSION | IMAGE | Image Extension created by MWA DataCapture | |
BITPIX | -32 | Changed: v1 Pre Oct 2014 = -32 (32 bit float) v1 Post Oct 2014= 32 (32 bit integer) v2 = -32 (32 bit float) | number of bits per data pixel (negative is floating point) |
NAXIS | 2 | number of array dimensions | |
NAXIS1 | (coarse channel width / fine_chan_width) * pols(xx,xy,yx,yy) * 2 For 10 kHz fine chan: (1280 / 10) * (4) * 2 == 1024 | Changed: was: baselines * pols * 2 | Fine Channels * Polarisations * 2 (real/imag) |
NAXIS2 | For 128T = (128*129)/2 = 8256 For 256T = (256*257)/2 = 32896 | Changed: was: fine channels | Baselines |
PCOUNT | 0 | number of group parameters | |
GCOUNT | 0 | number of groups | |
COMMENT | FITS (Flexible Image Transport System) format is defined in 'Astronomy | ||
COMMENT | and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H | ||
TIME | e.g. 1531077040 | Unix start time of this HDU | |
MILLITIM | 0-999 | Milliseconds component of TIME | |
MARKER | e.g. 0,1,2... n (where n is the final time step) | Data offset marker of HDU (all channels should match). The marker increments by 1 per time step |
NOTE: there is no BSCALE used in the v2 correlator format.
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To simplify downstream processing, the correlator will reorder the data produced by xGPU so that the time step / integration is the slowest moving dimension, then within each time step: baseline (in a lower regular triangular order by antenna order from the metafits file) then fine channel (in ascending sky frequency) and polarisation of x*x, x*y, y*x, y*yXX, XY, YX, YY, and finally for each polarisation there will be a real and imaginary floating point value. The ordering of data thus matches closely to the uvfits ordering scheme (citation needed!)that used by downstream tools.
time | baseline | freq | pol | r,i
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