starlink.smurf¶
Runs commands from the Starlink SMURF package.
Autogenerated from the starlink .hlp and .ifl files, by starlink-pywrapper/helperscripts/generate_functions.py.
Starlink version: 2018A b6ca36bf8884802759017298539489d11795861e (2018-07-06 09:36:39)
Functions
badbolos(in_, bad_columns, bad_rows, …) |
Generate a map of random dead bolometers and add it as an NDF |
calcdark(in_, out, **kwargs) |
Calculate the 2d dark frame from dark observation. |
calcflat(in_, out, **kwargs) |
Calculate a flatfield solution from a flatfield observation. |
calcnoise(in_, out, **kwargs) |
Calculate noise image |
calcqu(in_, outq, outu, **kwargs) |
Calculate Q and U images from a set of time-series data files. |
calcresp(in_, out, **kwargs) |
Calculate bolometer responsivity from stored flatfield solution. |
checkcoords(in_, **kwargs) |
Check for discrepancies between AZEL and TRACKING coordinates. |
configmeld(*args, **kwargs) |
Compare two MAKEMAP configs using a visual file comparison tool. |
copyflat(ref, in_, **kwargs) |
Copy the flatfield information from a reference file |
dreamsolve(in_, out, **kwargs) |
Solve DREAM observations and generate 2-D images. |
dreamweights(ndf, out, config, **kwargs) |
Generate DREAM weights matrix. |
dsutils(in_, **kwargs) |
A collection of utilities for estimating focal plane distortion. |
extinction(in_, out, **kwargs) |
Extinction correct SCUBA-2 data. |
findslices(in_, xpos, ypos, **kwargs) |
Find time slices that are centred close to a given sky position. |
fit1d(in_, out, rms, **kwargs) |
Fit 1-D profiles to a data cube |
fitsmerge(in_, ndf, **kwargs) |
Merge FITS headers. |
fixsteps(in_, out, **kwargs) |
Fix DC steps in a supplied SCUBA-2 time series NDF. |
flatfield(in_, out, **kwargs) |
Flatfield SCUBA-2 data |
fts2deglitch(in_, out, **kwargs) |
Removes the glitches from the source. |
fts2flatfield(in_, out, **kwargs) |
Corrects for the pixel-to-pixel variation in spectral responsivity, |
fts2freqcorr(in_, out, theta, **kwargs) |
Off-Axis frequency correction. |
fts2gaia(*args, **kwargs) |
Display in-band FTS-2 spectrum in gaia |
fts2init(in_, out, zpd, **kwargs) |
Prepares the input to be processed by the FTS2 Data Reduction tasks |
fts2maskmap(in_, out, ftsport, **kwargs) |
Mask time series data for a SCUBA-2 map with FTS-2 in the beam. |
fts2opcorr(in_, out, **kwargs) |
Compansates for the effect of the FTS-2 optics on image distortion and |
fts2phasecorr(in_, out, **kwargs) |
Given a 3D data cube of single-sided interferograms, applies phase |
fts2phasecorrds(in_, out, **kwargs) |
Given a 3D data cube of double-sided interferograms, applies phase |
fts2portimbal(in_, out, **kwargs) |
Corrects for atmospheric transmission across the spectral dimension. |
fts2removebse(in_, out, bse, **kwargs) |
Removes the Beam splitter Self Emission (BSE) from the source. |
fts2spectrum(in_, out, sfp, **kwargs) |
Computes the spectrum of the interferograms. |
fts2split(in_, out, **kwargs) |
Convert multi scan NDFs for use in FTS-2 data reduction pipeline |
fts2transcorr(in_, out, tau, **kwargs) |
Corrects for atmospheric transmission across the spectral dimension. |
gsd2acsis(in_, directory, **kwargs) |
Convert a GSD format DAS data file to an ACSIS format NDF. |
gsdshow(in_, **kwargs) |
Display the contents of headers and arrays for GSD files. |
impaztec(in_, out, **kwargs) |
Import AzTEC NetCDF files and produce SCUBA-2 ICD-compliant files |
jsadicer(in_, **kwargs) |
Dice an image or cube into JSA tiles |
jsajoin(*args, **kwargs) |
Create a single tangent-plane NDF from a set of JSA tiles. |
jsapaster(in_, out, **kwargs) |
Paste several JSA tiles into a single mosaic. |
jsasplit(*args, **kwargs) |
Split a single NDF up into a set of JSA tiles. |
jsatileinfo(itile, **kwargs) |
Return information about a specified sky tile. |
jsatilelist(in_, **kwargs) |
List the sky tiles that overlap a given set of data files or an |
jsatilemoc(*args, **kwargs) |
Create an image MOC based on a JSA tile. |
makecube(in_, out, **kwargs) |
Regrid ACSIS spectra into a data cube. |
makemap(in_, out, **kwargs) |
Make a map from SCUBA-2 data |
nanten2acsis(in_, directory, **kwargs) |
Convert NANTEN2 FITS format data files to an ACSIS format NDF. |
pol2check(in_, **kwargs) |
Check if specified NDFs probably hold POL-2 data. |
pol2ip(*args, **kwargs) |
Create an Instrumental Polarisation (IP) model from a set of POL2 |
pol2map(*args, **kwargs) |
Create Q, U and I maps from a group of POL-2 “spin&scan” data files. |
pol2scan(*args, **kwargs) |
Create Q and U maps from a set of POL-2 “spin&scan” data |
pol2stack(*args, **kwargs) |
Combine multiple Q, U and I images and create a vector catalogue |
qucovar(qres, ures, qlut, ulut, ref, out, …) |
Find co-variance of Q and U from a POL2 observation. |
rawfixmeta(in_, out, **kwargs) |
Fix metadata associated with a raw data file. |
rawpress(in_, out, **kwargs) |
Compress raw data |
rawrecreatewcs(ndf, **kwargs) |
Fix broken raw ACSIS files by enabling the spectral WCS to be reconstructed |
rawrewrtsc2wcs(ndf, **kwargs) |
Fix broken WCS in raw SCUBA-2 file by re-writing it |
rawunpress(in_, out, **kwargs) |
Uncompress raw data |
remsky(in_, out, method, **kwargs) |
Remove sky background from SCUBA-2 data |
sc2clean(in_, out, **kwargs) |
Clean SCUBA-2 time-series data. |
sc2concat(in_, **kwargs) |
Concatenate files into a larger file. |
sc2expandmodel(in_, **kwargs) |
Expand a DIMM model component into a full time-series data cube |
sc2fft(in_, out, **kwargs) |
Fourier Transform SCUBA-2 time-series data |
sc2filtermap(in_, out, **kwargs) |
Filter a 2-d map |
sc2mapfft(in_, out, **kwargs) |
Fourier Transform 2D maps |
sc2pca(in_, outamp, outcomp, **kwargs) |
Use principal component analysis to identify correlated SCUBA-2 signals |
sc2sim(obspar, simpar, **kwargs) |
SCUBA-2 Simulator |
sc2threadtest(*args, **kwargs) |
Task for testing speeds of different threading schemes |
skyloop(*args, **kwargs) |
Create a map using the “inside-out” algorithm. |
skynoise(obspar, simpar, **kwargs) |
Generate a simulated sky background with spatial noise. |
smurfcopy(in_, out, slice, **kwargs) |
Copy a 2d image out of a time series file. |
smurfhelp(*args, **kwargs) |
Gives help about SMURF. |
stackframes(in_, out, sort, sortby, **kwargs) |
Stack 2d processed frames into time series cube |
starecalc(in_, out, **kwargs) |
Calculate image for SCUBA-2 STARE observations |
supercam2acsis(in_, directory, **kwargs) |
Convert a Supercam SDFITS format data file to an ACSIS format NDF. |
timesort(in_, out, **kwargs) |
Re-order the time slices in a raw ACSIS data cube into increasing time. |
unmakecube(in_, ref, out, **kwargs) |
Produce simulated time series data from a regrided ACSIS data cube. |
unmakemap(in_, ref, out, **kwargs) |
Produce simulated time series data from a SCUBA-2 map. |