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modelsim_regression_test_vhdl.py

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    generate_parset_split.cwl 2.97 KiB
    cwlVersion: v1.2
    class: CommandLineTool
    id: generate_parset_split_directions
    label: Generate DP3 parset for split directions
    doc: |
        Generates a DP3 parameterset to split off
        directions from a given MeasurementSet.
    
    baseCommand: [cat, input.parset]
    
    stdout: dp3_explode.parset
    
    inputs:
        - id: msout_names
          type: string
          doc: |
            A string of names, one for each direction to image.
    
        - id: phase_centers
          type: string
          doc: |
            A string of pairs of right ascension and declination
            coordinates, one for each direction to image.
    
        - id: frequency_resolution
          type: string?
          default: '390.56kHz'
          doc: |
            Frequency resolution for the third averaging.
    
        - id: time_resolution
          type: string?
          default: '32.'
          doc: |
            Time resolution in seconds for the third averaging.
    
        - id: beamdir_delay_cal
          type: string
          doc: |
            Direction in which the primary beam correction for
            the delay calibration has been done.
    
    outputs:
      - id: parset
        type: File
        doc: A DP3 parameterset file.
        outputBinding:
          glob: dp3_explode.parset
    
    requirements:
      - class: InlineJavascriptRequirement
      - class: InitialWorkDirRequirement
        listing:
          - entryname: input.parset
            entry: |+
                steps                       = [split]
    
                split.replaceparms          = [phaseshift.phasecenter, applytargetbeam.direction, msout.name]
                split.steps                 = [phaseshift, averager1, applydelaybeam, applycal, applytargetbeam, averager2, msout]
    
                phaseshift.type             = phaseshift
                phaseshift.phasecenter      = $(inputs.phase_centers)
    
                averager1.type              = averager
                averager1.freqresolution    = 48.82kHz
                averager1.timeresolution    = 4.
    
                # Beam and solutions are fulljones, so they don't commute.
                applydelaybeam.type              = applybeam
                applydelaybeam.direction         = $(inputs.beamdir_delay_cal)