.. _Data-Products-DP0-1-schema_deepCoadd_ref: 
  
####################################### 
Schema for Butler catalog deepCoadd_ref 
####################################### 
  
**id** (units=None,type=int64): unique ID 
 
**coord_ra** (units=rad,type=float64): position in ra/dec 
 
**coord_dec** (units=rad,type=float64): position in ra/dec 
 
**parent** (units=None,type=int64): unique ID of parent source 
 
**merge_footprint_i** (units=None,type=bool): Detection footprint overlapped with a detection from filter i 
 
**merge_footprint_r** (units=None,type=bool): Detection footprint overlapped with a detection from filter r 
 
**merge_footprint_z** (units=None,type=bool): Detection footprint overlapped with a detection from filter z 
 
**merge_footprint_y** (units=None,type=bool): Detection footprint overlapped with a detection from filter y 
 
**merge_footprint_g** (units=None,type=bool): Detection footprint overlapped with a detection from filter g 
 
**merge_footprint_u** (units=None,type=bool): Detection footprint overlapped with a detection from filter u 
 
**merge_footprint_sky** (units=None,type=bool): Detection footprint overlapped with a detection from filter sky 
 
**merge_peak_i** (units=None,type=bool): Peak detected in filter i 
 
**merge_peak_r** (units=None,type=bool): Peak detected in filter r 
 
**merge_peak_z** (units=None,type=bool): Peak detected in filter z 
 
**merge_peak_y** (units=None,type=bool): Peak detected in filter y 
 
**merge_peak_g** (units=None,type=bool): Peak detected in filter g 
 
**merge_peak_u** (units=None,type=bool): Peak detected in filter u 
 
**merge_peak_sky** (units=None,type=bool): Peak detected in filter sky 
 
**deblend_nChild** (units=None,type=int32): Number of children this object has (defaults to 0) 
 
**deblend_deblendedAsPsf** (units=None,type=bool): Deblender thought this source looked like a PSF 
 
**deblend_psfCenter_x** (units=pix,type=float64): If deblended-as-psf, the PSF centroid 
 
**deblend_psfCenter_y** (units=pix,type=float64): If deblended-as-psf, the PSF centroid 
 
**deblend_psf_instFlux** (units=ct,type=float64): If deblended-as-psf, the instrumental PSF flux 
 
**deblend_tooManyPeaks** (units=None,type=bool): Source had too many peaks; only the brightest were included 
 
**deblend_parentTooBig** (units=None,type=bool): Parent footprint covered too many pixels 
 
**deblend_masked** (units=None,type=bool): Parent footprint was predominantly masked 
 
**deblend_skipped** (units=None,type=bool): Deblender skipped this source 
 
**deblend_rampedTemplate** (units=None,type=bool): This source was near an image edge and the deblender used "ramp" edge-handling. 
 
**deblend_patchedTemplate** (units=None,type=bool): This source was near an image edge and the deblender used "patched" edge-handling. 
 
**deblend_hasStrayFlux** (units=None,type=bool): This source was assigned some stray flux 
 
**base_NaiveCentroid_x** (units=pix,type=float64): centroid from Naive Centroid algorithm 
 
**base_NaiveCentroid_y** (units=pix,type=float64): centroid from Naive Centroid algorithm 
 
**base_NaiveCentroid_flag** (units=None,type=bool): General Failure Flag 
 
**base_NaiveCentroid_flag_noCounts** (units=None,type=bool): Object to be centroided has no counts 
 
**base_NaiveCentroid_flag_edge** (units=None,type=bool): Object too close to edge 
 
**base_NaiveCentroid_flag_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_SdssCentroid_x** (units=pix,type=float64): centroid from Sdss Centroid algorithm 
 
**slot_Centroid_x** (units=pix,type=float64): centroid from Sdss Centroid algorithm 
 
**base_SdssCentroid_y** (units=pix,type=float64): centroid from Sdss Centroid algorithm 
 
**slot_Centroid_y** (units=pix,type=float64): centroid from Sdss Centroid algorithm 
 
**base_SdssCentroid_xErr** (units=pix,type=float32): 1-sigma uncertainty on x position 
 
**slot_Centroid_xErr** (units=pix,type=float32): 1-sigma uncertainty on x position 
 
**base_SdssCentroid_yErr** (units=pix,type=float32): 1-sigma uncertainty on y position 
 
**slot_Centroid_yErr** (units=pix,type=float32): 1-sigma uncertainty on y position 
 
**base_SdssCentroid_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**base_GaussianFlux_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**base_InputCount_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**base_LocalBackground_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**base_NaiveCentroid_flag_badInitialCentroid** (units=None,type=bool): General Failure Flag 
 
**base_PsfFlux_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**base_SdssShape_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**base_Variance_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_0_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_1_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_2_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_3_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_photometryKron_KronFlux_flag_badInitialCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_shapeHSM_HsmPsfMoments_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_shapeHSM_HsmShapeRegauss_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**ext_shapeHSM_HsmSourceMoments_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**modelfit_DoubleShapeletPsfApprox_flag_badCentroid** (units=None,type=bool): General Failure Flag 
 
**slot_Centroid_flag** (units=None,type=bool): General Failure Flag 
 
**base_SdssCentroid_flag_edge** (units=None,type=bool): Object too close to edge 
 
**base_CircularApertureFlux_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**base_GaussianFlux_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**base_InputCount_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**base_LocalBackground_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**base_NaiveCentroid_flag_badInitialCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**base_PsfFlux_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**base_SdssShape_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**base_Variance_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_convolved_ConvolvedFlux_0_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_convolved_ConvolvedFlux_1_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_convolved_ConvolvedFlux_2_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_convolved_ConvolvedFlux_3_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_convolved_ConvolvedFlux_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_photometryKron_KronFlux_flag_badInitialCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_shapeHSM_HsmPsfMoments_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_shapeHSM_HsmShapeRegauss_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**ext_shapeHSM_HsmSourceMoments_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**modelfit_DoubleShapeletPsfApprox_flag_badCentroid_edge** (units=None,type=bool): Object too close to edge 
 
**slot_Centroid_flag_edge** (units=None,type=bool): Object too close to edge 
 
**base_SdssCentroid_flag_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_CircularApertureFlux_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_GaussianFlux_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_InputCount_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_LocalBackground_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_NaiveCentroid_flag_badInitialCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_PsfFlux_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_SdssShape_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_Variance_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_0_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_1_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_2_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_3_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_photometryKron_KronFlux_flag_badInitialCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_shapeHSM_HsmPsfMoments_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_shapeHSM_HsmShapeRegauss_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**ext_shapeHSM_HsmSourceMoments_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**modelfit_DoubleShapeletPsfApprox_flag_badCentroid_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**slot_Centroid_flag_noSecondDerivative** (units=None,type=bool): Vanishing second derivative 
 
**base_SdssCentroid_flag_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_CircularApertureFlux_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_GaussianFlux_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_InputCount_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_LocalBackground_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_NaiveCentroid_flag_badInitialCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_PsfFlux_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_SdssShape_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_Variance_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_0_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_1_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_2_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_3_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_convolved_ConvolvedFlux_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_photometryKron_KronFlux_flag_badInitialCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_shapeHSM_HsmPsfMoments_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_shapeHSM_HsmShapeRegauss_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**ext_shapeHSM_HsmSourceMoments_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**modelfit_DoubleShapeletPsfApprox_flag_badCentroid_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**slot_Centroid_flag_almostNoSecondDerivative** (units=None,type=bool): Almost vanishing second derivative 
 
**base_SdssCentroid_flag_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_CircularApertureFlux_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_GaussianFlux_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_InputCount_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_LocalBackground_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_NaiveCentroid_flag_badInitialCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_PsfFlux_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_SdssShape_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_Variance_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_convolved_ConvolvedFlux_0_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_convolved_ConvolvedFlux_1_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_convolved_ConvolvedFlux_2_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_convolved_ConvolvedFlux_3_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_convolved_ConvolvedFlux_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_photometryKron_KronFlux_flag_badInitialCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_shapeHSM_HsmPsfMoments_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_shapeHSM_HsmShapeRegauss_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**ext_shapeHSM_HsmSourceMoments_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**modelfit_DoubleShapeletPsfApprox_flag_badCentroid_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**slot_Centroid_flag_notAtMaximum** (units=None,type=bool): Object is not at a maximum 
 
**base_SdssCentroid_flag_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_CircularApertureFlux_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_GaussianFlux_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_InputCount_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_LocalBackground_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_NaiveCentroid_flag_badInitialCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_PsfFlux_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_SdssShape_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_Variance_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_convolved_ConvolvedFlux_0_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_convolved_ConvolvedFlux_1_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_convolved_ConvolvedFlux_2_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_convolved_ConvolvedFlux_3_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_convolved_ConvolvedFlux_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_photometryKron_KronFlux_flag_badInitialCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_shapeHSM_HsmPsfMoments_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_shapeHSM_HsmShapeRegauss_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**ext_shapeHSM_HsmSourceMoments_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**modelfit_DoubleShapeletPsfApprox_flag_badCentroid_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**slot_Centroid_flag_resetToPeak** (units=None,type=bool): set if CentroidChecker reset the centroid 
 
**base_SdssCentroid_flag_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_CircularApertureFlux_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_GaussianFlux_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_InputCount_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_LocalBackground_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_NaiveCentroid_flag_badInitialCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_PsfFlux_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_SdssShape_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_Variance_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_convolved_ConvolvedFlux_0_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_convolved_ConvolvedFlux_1_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_convolved_ConvolvedFlux_2_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_convolved_ConvolvedFlux_3_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_convolved_ConvolvedFlux_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_photometryKron_KronFlux_flag_badInitialCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_shapeHSM_HsmPsfMoments_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_shapeHSM_HsmShapeRegauss_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**ext_shapeHSM_HsmSourceMoments_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**modelfit_DoubleShapeletPsfApprox_flag_badCentroid_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**slot_Centroid_flag_badError** (units=None,type=bool): Error on x and/or y position is NaN 
 
**base_Blendedness_old** (units=None,type=float64): Blendedness from dot products: (child.dot(parent)/child.dot(child) - 1) 
 
**base_Blendedness_raw** (units=None,type=float64): Measure of how much the flux is affected by neighbors: (1 - child_instFlux/parent_instFlux).  Operates on the "raw" pixel values. 
 
**base_Blendedness_raw_child_instFlux** (units=ct,type=float64): Instrumental flux of the child, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_raw_parent_instFlux** (units=ct,type=float64): Instrumental flux of the parent, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_abs** (units=None,type=float64): Measure of how much the flux is affected by neighbors: (1 - child_instFlux/parent_instFlux).  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_abs_child_instFlux** (units=ct,type=float64): Instrumental flux of the child, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_abs_parent_instFlux** (units=ct,type=float64): Instrumental flux of the parent, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_raw_child_xx** (units=pix2,type=float64): Shape of the child, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_raw_child_yy** (units=pix2,type=float64): Shape of the child, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_raw_child_xy** (units=pix2,type=float64): Shape of the child, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_raw_parent_xx** (units=pix2,type=float64): Shape of the parent, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_raw_parent_yy** (units=pix2,type=float64): Shape of the parent, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_raw_parent_xy** (units=pix2,type=float64): Shape of the parent, measured with a Gaussian weight matched to the child.  Operates on the "raw" pixel values. 
 
**base_Blendedness_abs_child_xx** (units=pix2,type=float64): Shape of the child, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_abs_child_yy** (units=pix2,type=float64): Shape of the child, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_abs_child_xy** (units=pix2,type=float64): Shape of the child, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_abs_parent_xx** (units=pix2,type=float64): Shape of the parent, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_abs_parent_yy** (units=pix2,type=float64): Shape of the parent, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_abs_parent_xy** (units=pix2,type=float64): Shape of the parent, measured with a Gaussian weight matched to the child.  Operates on the absolute value of the pixels to try to obtain a "de-noised" value.  See section 4.9.11 of Bosch et al. 2018, PASJ, 70, S5 for details. 
 
**base_Blendedness_flag** (units=None,type=bool): General Failure Flag 
 
**base_Blendedness_flag_noCentroid** (units=None,type=bool): Object has no centroid 
 
**base_Blendedness_flag_noShape** (units=None,type=bool): Object has no shape 
 
**base_InputCount_flag** (units=None,type=bool): Set for any fatal failure 
 
**base_InputCount_value** (units=None,type=int32): Number of images contributing at center, not including anyclipping 
 
**base_InputCount_flag_noInputs** (units=None,type=bool): No coadd inputs available 
 
**base_SdssShape_xx** (units=pix2,type=float64): elliptical Gaussian adaptive moments 
 
**base_SdssShape_yy** (units=pix2,type=float64): elliptical Gaussian adaptive moments 
 
**base_SdssShape_xy** (units=pix2,type=float64): elliptical Gaussian adaptive moments 
 
**base_SdssShape_xxErr** (units=pix2,type=float32): Standard deviation of xx moment 
 
**base_SdssShape_yyErr** (units=pix2,type=float32): Standard deviation of yy moment 
 
**base_SdssShape_xyErr** (units=pix2,type=float32): Standard deviation of xy moment 
 
**base_SdssShape_x** (units=pix,type=float64): elliptical Gaussian adaptive moments 
 
**base_SdssShape_y** (units=pix,type=float64): elliptical Gaussian adaptive moments 
 
**base_SdssShape_instFlux** (units=ct,type=float64): elliptical Gaussian adaptive moments 
 
**base_SdssShape_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_SdssShape_psf_xx** (units=pix2,type=float64): adaptive moments of the PSF model at the object position 
 
**base_SdssShape_psf_yy** (units=pix2,type=float64): adaptive moments of the PSF model at the object position 
 
**base_SdssShape_psf_xy** (units=pix2,type=float64): adaptive moments of the PSF model at the object position 
 
**base_SdssShape_instFlux_xx_Cov** (units=ct pix2,type=float32): uncertainty covariance between base_SdssShape_instFlux and base_SdssShape_xx 
 
**base_SdssShape_instFlux_yy_Cov** (units=ct pix2,type=float32): uncertainty covariance between base_SdssShape_instFlux and base_SdssShape_yy 
 
**base_SdssShape_instFlux_xy_Cov** (units=ct pix2,type=float32): uncertainty covariance between base_SdssShape_instFlux and base_SdssShape_xy 
 
**base_SdssShape_flag** (units=None,type=bool): General Failure Flag 
 
**base_SdssShape_flag_unweightedBad** (units=None,type=bool): Both weighted and unweighted moments were invalid 
 
**base_SdssShape_flag_unweighted** (units=None,type=bool): Weighted moments converged to an invalid value; using unweighted moments 
 
**base_SdssShape_flag_shift** (units=None,type=bool): centroid shifted by more than the maximum allowed amount 
 
**base_SdssShape_flag_maxIter** (units=None,type=bool): Too many iterations in adaptive moments 
 
**base_SdssShape_flag_psf** (units=None,type=bool): Failure in measuring PSF model shape 
 
**ext_shapeHSM_HsmPsfMoments_x** (units=pix,type=float64): HSM Centroid 
 
**slot_PsfShape_x** (units=pix,type=float64): HSM Centroid 
 
**ext_shapeHSM_HsmPsfMoments_y** (units=pix,type=float64): HSM Centroid 
 
**slot_PsfShape_y** (units=pix,type=float64): HSM Centroid 
 
**ext_shapeHSM_HsmPsfMoments_xx** (units=pix2,type=float64): HSM moments 
 
**slot_PsfShape_xx** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmPsfMoments_yy** (units=pix2,type=float64): HSM moments 
 
**slot_PsfShape_yy** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmPsfMoments_xy** (units=pix2,type=float64): HSM moments 
 
**slot_PsfShape_xy** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmPsfMoments_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**slot_PsfShape_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**ext_shapeHSM_HsmPsfMoments_flag_no_pixels** (units=None,type=bool): no pixels to measure 
 
**slot_PsfShape_flag_no_pixels** (units=None,type=bool): no pixels to measure 
 
**ext_shapeHSM_HsmPsfMoments_flag_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**slot_PsfShape_flag_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**ext_shapeHSM_HsmPsfMoments_flag_parent_source** (units=None,type=bool): parent source, ignored 
 
**slot_PsfShape_flag_parent_source** (units=None,type=bool): parent source, ignored 
 
**ext_shapeHSM_HsmShapeRegauss_e1** (units=None,type=float64): PSF-corrected shear using Hirata & Seljak (2003) ''regaussianization 
 
**ext_shapeHSM_HsmShapeRegauss_e2** (units=None,type=float64): PSF-corrected shear using Hirata & Seljak (2003) ''regaussianization 
 
**ext_shapeHSM_HsmShapeRegauss_sigma** (units=None,type=float64): PSF-corrected shear using Hirata & Seljak (2003) ''regaussianization 
 
**ext_shapeHSM_HsmShapeRegauss_resolution** (units=None,type=float64): resolution factor (0=unresolved, 1=resolved) 
 
**ext_shapeHSM_HsmShapeRegauss_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**ext_shapeHSM_HsmShapeRegauss_flag_no_pixels** (units=None,type=bool): no pixels to measure 
 
**ext_shapeHSM_HsmShapeRegauss_flag_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**ext_shapeHSM_HsmShapeRegauss_flag_parent_source** (units=None,type=bool): parent source, ignored 
 
**ext_shapeHSM_HsmShapeRegauss_flag_galsim** (units=None,type=bool): GalSim failure 
 
**ext_shapeHSM_HsmSourceMoments_x** (units=pix,type=float64): HSM Centroid 
 
**slot_Shape_x** (units=pix,type=float64): HSM Centroid 
 
**ext_shapeHSM_HsmSourceMoments_y** (units=pix,type=float64): HSM Centroid 
 
**slot_Shape_y** (units=pix,type=float64): HSM Centroid 
 
**ext_shapeHSM_HsmSourceMoments_xx** (units=pix2,type=float64): HSM moments 
 
**slot_Shape_xx** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmSourceMoments_yy** (units=pix2,type=float64): HSM moments 
 
**slot_Shape_yy** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmSourceMoments_xy** (units=pix2,type=float64): HSM moments 
 
**slot_Shape_xy** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmSourceMoments_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**base_GaussianFlux_flag_badShape** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**slot_Shape_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**ext_shapeHSM_HsmSourceMoments_flag_no_pixels** (units=None,type=bool): no pixels to measure 
 
**base_GaussianFlux_flag_badShape_no_pixels** (units=None,type=bool): no pixels to measure 
 
**slot_Shape_flag_no_pixels** (units=None,type=bool): no pixels to measure 
 
**ext_shapeHSM_HsmSourceMoments_flag_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**base_GaussianFlux_flag_badShape_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**slot_Shape_flag_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**ext_shapeHSM_HsmSourceMoments_flag_parent_source** (units=None,type=bool): parent source, ignored 
 
**base_GaussianFlux_flag_badShape_parent_source** (units=None,type=bool): parent source, ignored 
 
**slot_Shape_flag_parent_source** (units=None,type=bool): parent source, ignored 
 
**ext_shapeHSM_HsmSourceMomentsRound_x** (units=pix,type=float64): HSM Centroid 
 
**slot_ShapeRound_x** (units=pix,type=float64): HSM Centroid 
 
**ext_shapeHSM_HsmSourceMomentsRound_y** (units=pix,type=float64): HSM Centroid 
 
**slot_ShapeRound_y** (units=pix,type=float64): HSM Centroid 
 
**ext_shapeHSM_HsmSourceMomentsRound_xx** (units=pix2,type=float64): HSM moments 
 
**slot_ShapeRound_xx** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmSourceMomentsRound_yy** (units=pix2,type=float64): HSM moments 
 
**slot_ShapeRound_yy** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmSourceMomentsRound_xy** (units=pix2,type=float64): HSM moments 
 
**slot_ShapeRound_xy** (units=pix2,type=float64): HSM moments 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**slot_ShapeRound_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_no_pixels** (units=None,type=bool): no pixels to measure 
 
**slot_ShapeRound_flag_no_pixels** (units=None,type=bool): no pixels to measure 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**slot_ShapeRound_flag_not_contained** (units=None,type=bool): center not contained in footprint bounding box 
 
**ext_shapeHSM_HsmSourceMomentsRound_flag_parent_source** (units=None,type=bool): parent source, ignored 
 
**slot_ShapeRound_flag_parent_source** (units=None,type=bool): parent source, ignored 
 
**ext_shapeHSM_HsmSourceMomentsRound_Flux** (units=None,type=float32): HSM flux 
 
**slot_ShapeRound_Flux** (units=None,type=float32): HSM flux 
 
**modelfit_DoubleShapeletPsfApprox_0_xx** (units=pix2,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_yy** (units=pix2,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_xy** (units=pix2,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_x** (units=pix,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_y** (units=pix,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_0** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_1** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_2** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_3** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_4** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_0_5** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_xx** (units=pix2,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_yy** (units=pix2,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_xy** (units=pix2,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_x** (units=pix,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_y** (units=pix,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_0** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_1** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_1_2** (units=None,type=float64): Double-Shapelet approximation to the PSF model at the position of this source 
 
**modelfit_DoubleShapeletPsfApprox_flag** (units=None,type=bool): General Failure Flag 
 
**modelfit_DoubleShapeletPsfApprox_flag_invalidPointForPsf** (units=None,type=bool): PSF model could not be evaluated at the source position 
 
**modelfit_DoubleShapeletPsfApprox_flag_invalidMoments** (units=None,type=bool): Moments of the PSF model were not a valid ellipse 
 
**modelfit_DoubleShapeletPsfApprox_flag_maxIterations** (units=None,type=bool): optimizer exceeded the maximum number (inner or outer) iterations 
 
**base_CircularApertureFlux_3_0_instFlux** (units=ct,type=float64): instFlux within 3.000000-pixel aperture 
 
**base_CircularApertureFlux_3_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_3_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_3_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_3_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**base_CircularApertureFlux_4_5_instFlux** (units=ct,type=float64): instFlux within 4.500000-pixel aperture 
 
**base_CircularApertureFlux_4_5_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_4_5_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_4_5_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_4_5_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**base_CircularApertureFlux_6_0_instFlux** (units=ct,type=float64): instFlux within 6.000000-pixel aperture 
 
**base_CircularApertureFlux_6_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_6_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_6_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_6_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**base_CircularApertureFlux_9_0_instFlux** (units=ct,type=float64): instFlux within 9.000000-pixel aperture 
 
**base_CircularApertureFlux_9_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_9_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_9_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_9_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**base_CircularApertureFlux_12_0_instFlux** (units=ct,type=float64): instFlux within 12.000000-pixel aperture 
 
**slot_ApFlux_instFlux** (units=ct,type=float64): instFlux within 12.000000-pixel aperture 
 
**slot_CalibFlux_instFlux** (units=ct,type=float64): instFlux within 12.000000-pixel aperture 
 
**base_CircularApertureFlux_12_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**slot_ApFlux_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**slot_CalibFlux_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_12_0_flag** (units=None,type=bool): General Failure Flag 
 
**slot_ApFlux_flag** (units=None,type=bool): General Failure Flag 
 
**slot_CalibFlux_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_12_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**slot_ApFlux_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**slot_CalibFlux_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_12_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**slot_ApFlux_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**slot_CalibFlux_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**base_CircularApertureFlux_17_0_instFlux** (units=ct,type=float64): instFlux within 17.000000-pixel aperture 
 
**base_CircularApertureFlux_17_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_17_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_17_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_25_0_instFlux** (units=ct,type=float64): instFlux within 25.000000-pixel aperture 
 
**base_CircularApertureFlux_25_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_25_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_25_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_35_0_instFlux** (units=ct,type=float64): instFlux within 35.000000-pixel aperture 
 
**base_CircularApertureFlux_35_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_35_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_35_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_50_0_instFlux** (units=ct,type=float64): instFlux within 50.000000-pixel aperture 
 
**base_CircularApertureFlux_50_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_50_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_50_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_CircularApertureFlux_70_0_instFlux** (units=ct,type=float64): instFlux within 70.000000-pixel aperture 
 
**base_CircularApertureFlux_70_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_CircularApertureFlux_70_0_flag** (units=None,type=bool): General Failure Flag 
 
**base_CircularApertureFlux_70_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**base_GaussianFlux_instFlux** (units=ct,type=float64): instFlux from Gaussian Flux algorithm 
 
**slot_GaussianFlux_instFlux** (units=ct,type=float64): instFlux from Gaussian Flux algorithm 
 
**base_GaussianFlux_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**slot_GaussianFlux_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_GaussianFlux_flag** (units=None,type=bool): General Failure Flag 
 
**slot_GaussianFlux_flag** (units=None,type=bool): General Failure Flag 
 
**base_LocalBackground_instFlux** (units=ct,type=float64): background in annulus around source 
 
**base_LocalBackground_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_LocalBackground_flag** (units=None,type=bool): General Failure Flag 
 
**base_LocalBackground_flag_noGoodPixels** (units=None,type=bool): no good pixels in the annulus 
 
**base_LocalBackground_flag_noPsf** (units=None,type=bool): no PSF provided 
 
**base_PixelFlags_flag** (units=None,type=bool): General failure flag, set if anything went wrong 
 
**base_PixelFlags_flag_offimage** (units=None,type=bool): Source center is off image 
 
**base_PixelFlags_flag_edge** (units=None,type=bool): Source is outside usable exposure region (masked EDGE or NO_DATA) 
 
**base_PixelFlags_flag_interpolated** (units=None,type=bool): Interpolated pixel in the Source footprint 
 
**base_PixelFlags_flag_saturated** (units=None,type=bool): Saturated pixel in the Source footprint 
 
**base_PixelFlags_flag_cr** (units=None,type=bool): Cosmic ray in the Source footprint 
 
**base_PixelFlags_flag_bad** (units=None,type=bool): Bad pixel in the Source footprint 
 
**base_PixelFlags_flag_suspect** (units=None,type=bool): Source''s footprint includes suspect pixels 
 
**base_PixelFlags_flag_interpolatedCenter** (units=None,type=bool): Interpolated pixel in the Source center 
 
**base_PixelFlags_flag_saturatedCenter** (units=None,type=bool): Saturated pixel in the Source center 
 
**base_PixelFlags_flag_crCenter** (units=None,type=bool): Cosmic ray in the Source center 
 
**base_PixelFlags_flag_suspectCenter** (units=None,type=bool): Source''s center is close to suspect pixels 
 
**base_PixelFlags_flag_clippedCenter** (units=None,type=bool): Source center is close to CLIPPED pixels 
 
**base_PixelFlags_flag_sensor_edgeCenter** (units=None,type=bool): Source center is close to SENSOR_EDGE pixels 
 
**base_PixelFlags_flag_inexact_psfCenter** (units=None,type=bool): Source center is close to INEXACT_PSF pixels 
 
**base_PixelFlags_flag_bright_objectCenter** (units=None,type=bool): Source center is close to BRIGHT_OBJECT pixels 
 
**base_PixelFlags_flag_clipped** (units=None,type=bool): Source footprint includes CLIPPED pixels 
 
**base_PixelFlags_flag_sensor_edge** (units=None,type=bool): Source footprint includes SENSOR_EDGE pixels 
 
**base_PixelFlags_flag_inexact_psf** (units=None,type=bool): Source footprint includes INEXACT_PSF pixels 
 
**base_PixelFlags_flag_bright_object** (units=None,type=bool): Source footprint includes BRIGHT_OBJECT pixels 
 
**base_PsfFlux_instFlux** (units=ct,type=float64): instFlux derived from linear least-squares fit of PSF model 
 
**slot_PsfFlux_instFlux** (units=ct,type=float64): instFlux derived from linear least-squares fit of PSF model 
 
**base_PsfFlux_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**slot_PsfFlux_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**base_PsfFlux_area** (units=pix,type=float32): effective area of PSF 
 
**slot_PsfFlux_area** (units=pix,type=float32): effective area of PSF 
 
**base_PsfFlux_flag** (units=None,type=bool): General Failure Flag 
 
**slot_PsfFlux_flag** (units=None,type=bool): General Failure Flag 
 
**base_PsfFlux_flag_noGoodPixels** (units=None,type=bool): not enough non-rejected pixels in data to attempt the fit 
 
**slot_PsfFlux_flag_noGoodPixels** (units=None,type=bool): not enough non-rejected pixels in data to attempt the fit 
 
**base_PsfFlux_flag_edge** (units=None,type=bool): object was too close to the edge of the image to use the full PSF model 
 
**slot_PsfFlux_flag_edge** (units=None,type=bool): object was too close to the edge of the image to use the full PSF model 
 
**base_Variance_flag** (units=None,type=bool): Set for any fatal failure 
 
**base_Variance_value** (units=None,type=float64): Variance at object position 
 
**base_Variance_flag_emptyFootprint** (units=None,type=bool): Set to True when the footprint has no usable pixels 
 
**ext_photometryKron_KronFlux_instFlux** (units=ct,type=float64): flux from Kron Flux algorithm 
 
**ext_photometryKron_KronFlux_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_photometryKron_KronFlux_radius** (units=None,type=float32): Kron radius (sqrt(a*b)) 
 
**ext_photometryKron_KronFlux_radius_for_radius** (units=None,type=float32): radius used to estimate <radius> (sqrt(a*b)) 
 
**ext_photometryKron_KronFlux_psf_radius** (units=None,type=float32): Radius of PSF 
 
**ext_photometryKron_KronFlux_flag** (units=None,type=bool): general failure flag, set if anything went wrong 
 
**ext_photometryKron_KronFlux_flag_edge** (units=None,type=bool): bad measurement due to image edge 
 
**ext_photometryKron_KronFlux_flag_bad_shape_no_psf** (units=None,type=bool): bad shape and no PSF 
 
**ext_photometryKron_KronFlux_flag_no_minimum_radius** (units=None,type=bool): minimum radius could not enforced: no minimum value or PSF 
 
**ext_photometryKron_KronFlux_flag_no_fallback_radius** (units=None,type=bool): no minimum radius and no PSF provided 
 
**ext_photometryKron_KronFlux_flag_bad_radius** (units=None,type=bool): bad Kron radius 
 
**ext_photometryKron_KronFlux_flag_used_minimum_radius** (units=None,type=bool): used the minimum radius for the Kron aperture 
 
**ext_photometryKron_KronFlux_flag_used_psf_radius** (units=None,type=bool): used the PSF Kron radius for the Kron aperture 
 
**ext_photometryKron_KronFlux_flag_small_radius** (units=None,type=bool): measured Kron radius was smaller than that of the PSF 
 
**ext_photometryKron_KronFlux_flag_bad_shape** (units=None,type=bool): shape for measuring Kron radius is bad; used PSF shape 
 
**ext_convolved_ConvolvedFlux_seeing** (units=pix,type=float32): original seeing (Gaussian sigma) at position 
 
**ext_convolved_ConvolvedFlux_0_deconv** (units=None,type=bool): deconvolution required for seeing 3.500000; no measurement made 
 
**ext_convolved_ConvolvedFlux_0_3_3_instFlux** (units=ct,type=float64): instFlux within 3.300000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_0_3_3_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_0_3_3_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_0_3_3_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_0_3_3_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_0_4_5_instFlux** (units=ct,type=float64): instFlux within 4.500000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_0_4_5_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_0_4_5_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_0_4_5_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_0_4_5_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_0_6_0_instFlux** (units=ct,type=float64): instFlux within 6.000000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_0_6_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_0_6_0_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_0_6_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_0_6_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_0_kron_instFlux** (units=ct,type=float64): convolved Kron flux: seeing 3.500000 
 
**ext_convolved_ConvolvedFlux_0_kron_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_0_kron_flag** (units=None,type=bool): convolved Kron flux failed: seeing 3.500000 
 
**ext_convolved_ConvolvedFlux_1_deconv** (units=None,type=bool): deconvolution required for seeing 5.000000; no measurement made 
 
**ext_convolved_ConvolvedFlux_1_3_3_instFlux** (units=ct,type=float64): instFlux within 3.300000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_1_3_3_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_1_3_3_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_1_3_3_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_1_3_3_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_1_4_5_instFlux** (units=ct,type=float64): instFlux within 4.500000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_1_4_5_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_1_4_5_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_1_4_5_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_1_4_5_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_1_6_0_instFlux** (units=ct,type=float64): instFlux within 6.000000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_1_6_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_1_6_0_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_1_6_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_1_6_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_1_kron_instFlux** (units=ct,type=float64): convolved Kron flux: seeing 5.000000 
 
**ext_convolved_ConvolvedFlux_1_kron_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_1_kron_flag** (units=None,type=bool): convolved Kron flux failed: seeing 5.000000 
 
**ext_convolved_ConvolvedFlux_2_deconv** (units=None,type=bool): deconvolution required for seeing 6.500000; no measurement made 
 
**ext_convolved_ConvolvedFlux_2_3_3_instFlux** (units=ct,type=float64): instFlux within 3.300000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_2_3_3_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_2_3_3_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_2_3_3_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_2_3_3_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_2_4_5_instFlux** (units=ct,type=float64): instFlux within 4.500000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_2_4_5_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_2_4_5_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_2_4_5_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_2_4_5_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_2_6_0_instFlux** (units=ct,type=float64): instFlux within 6.000000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_2_6_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_2_6_0_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_2_6_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_2_6_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_2_kron_instFlux** (units=ct,type=float64): convolved Kron flux: seeing 6.500000 
 
**ext_convolved_ConvolvedFlux_2_kron_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_2_kron_flag** (units=None,type=bool): convolved Kron flux failed: seeing 6.500000 
 
**ext_convolved_ConvolvedFlux_3_deconv** (units=None,type=bool): deconvolution required for seeing 8.000000; no measurement made 
 
**ext_convolved_ConvolvedFlux_3_3_3_instFlux** (units=ct,type=float64): instFlux within 3.300000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_3_3_3_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_3_3_3_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_3_3_3_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_3_3_3_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_3_4_5_instFlux** (units=ct,type=float64): instFlux within 4.500000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_3_4_5_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_3_4_5_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_3_4_5_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_3_4_5_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_3_6_0_instFlux** (units=ct,type=float64): instFlux within 6.000000-pixel aperture 
 
**ext_convolved_ConvolvedFlux_3_6_0_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_3_6_0_flag** (units=None,type=bool): General Failure Flag 
 
**ext_convolved_ConvolvedFlux_3_6_0_flag_apertureTruncated** (units=None,type=bool): aperture did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_3_6_0_flag_sincCoeffsTruncated** (units=None,type=bool): full sinc coefficient image did not fit within measurement image 
 
**ext_convolved_ConvolvedFlux_3_kron_instFlux** (units=ct,type=float64): convolved Kron flux: seeing 8.000000 
 
**ext_convolved_ConvolvedFlux_3_kron_instFluxErr** (units=ct,type=float64): 1-sigma instFlux uncertainty 
 
**ext_convolved_ConvolvedFlux_3_kron_flag** (units=None,type=bool): convolved Kron flux failed: seeing 8.000000 
 
**ext_convolved_ConvolvedFlux_flag** (units=None,type=bool): error in running ConvolvedFluxPlugin 
 
**modelfit_CModel_initial_instFlux** (units=ct,type=float64): flux from the initial fit 
 
**slot_ModelFlux_initial_instFlux** (units=ct,type=float64): flux from the initial fit 
 
**modelfit_CModel_initial_instFluxErr** (units=ct,type=float64): flux uncertainty from the initial fit 
 
**slot_ModelFlux_initial_instFluxErr** (units=ct,type=float64): flux uncertainty from the initial fit 
 
**modelfit_CModel_initial_flag** (units=None,type=bool): flag set when the flux for the initial flux failed 
 
**slot_ModelFlux_initial_flag** (units=None,type=bool): flag set when the flux for the initial flux failed 
 
**modelfit_CModel_initial_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**slot_ModelFlux_initial_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**modelfit_CModel_initial_ellipse_xx** (units=pix2,type=float64): half-light ellipse of the initial fit 
 
**slot_ModelFlux_initial_ellipse_xx** (units=pix2,type=float64): half-light ellipse of the initial fit 
 
**modelfit_CModel_initial_ellipse_yy** (units=pix2,type=float64): half-light ellipse of the initial fit 
 
**slot_ModelFlux_initial_ellipse_yy** (units=pix2,type=float64): half-light ellipse of the initial fit 
 
**modelfit_CModel_initial_ellipse_xy** (units=pix2,type=float64): half-light ellipse of the initial fit 
 
**slot_ModelFlux_initial_ellipse_xy** (units=pix2,type=float64): half-light ellipse of the initial fit 
 
**modelfit_CModel_initial_objective** (units=None,type=float64): -ln(likelihood*prior) at best-fit point for the initial fit 
 
**slot_ModelFlux_initial_objective** (units=None,type=float64): -ln(likelihood*prior) at best-fit point for the initial fit 
 
**modelfit_CModel_initial_nonlinear_0** (units=None,type=float64): nonlinear parameters for the initial fit 
 
**slot_ModelFlux_initial_nonlinear_0** (units=None,type=float64): nonlinear parameters for the initial fit 
 
**modelfit_CModel_initial_nonlinear_1** (units=None,type=float64): nonlinear parameters for the initial fit 
 
**slot_ModelFlux_initial_nonlinear_1** (units=None,type=float64): nonlinear parameters for the initial fit 
 
**modelfit_CModel_initial_nonlinear_2** (units=None,type=float64): nonlinear parameters for the initial fit 
 
**slot_ModelFlux_initial_nonlinear_2** (units=None,type=float64): nonlinear parameters for the initial fit 
 
**modelfit_CModel_initial_fixed_0** (units=None,type=float64): fixed parameters for the initial fit 
 
**slot_ModelFlux_initial_fixed_0** (units=None,type=float64): fixed parameters for the initial fit 
 
**modelfit_CModel_initial_fixed_1** (units=None,type=float64): fixed parameters for the initial fit 
 
**slot_ModelFlux_initial_fixed_1** (units=None,type=float64): fixed parameters for the initial fit 
 
**modelfit_CModel_initial_flag_trSmall** (units=None,type=bool): the optimizer converged because the trust radius became too small; this is a less-secure result than when the gradient is below the threshold, but usually not a problem 
 
**slot_ModelFlux_initial_flag_trSmall** (units=None,type=bool): the optimizer converged because the trust radius became too small; this is a less-secure result than when the gradient is below the threshold, but usually not a problem 
 
**modelfit_CModel_initial_flag_maxIter** (units=None,type=bool): the optimizer hit the maximum number of iterations and did not converge 
 
**slot_ModelFlux_initial_flag_maxIter** (units=None,type=bool): the optimizer hit the maximum number of iterations and did not converge 
 
**modelfit_CModel_initial_nIter** (units=None,type=int32): Number of total iterations in stage 
 
**slot_ModelFlux_initial_nIter** (units=None,type=int32): Number of total iterations in stage 
 
**modelfit_CModel_initial_time** (units=s,type=float64): Time spent in stage 
 
**slot_ModelFlux_initial_time** (units=s,type=float64): Time spent in stage 
 
**modelfit_CModel_initial_flag_numericError** (units=None,type=bool): numerical underflow or overflow in model evaluation; usually this means the prior was insufficient to regularize the fit, or all pixel values were zero. 
 
**slot_ModelFlux_initial_flag_numericError** (units=None,type=bool): numerical underflow or overflow in model evaluation; usually this means the prior was insufficient to regularize the fit, or all pixel values were zero. 
 
**modelfit_CModel_exp_instFlux** (units=ct,type=float64): flux from the exponential fit 
 
**slot_ModelFlux_exp_instFlux** (units=ct,type=float64): flux from the exponential fit 
 
**modelfit_CModel_exp_instFluxErr** (units=ct,type=float64): flux uncertainty from the exponential fit 
 
**slot_ModelFlux_exp_instFluxErr** (units=ct,type=float64): flux uncertainty from the exponential fit 
 
**modelfit_CModel_exp_flag** (units=None,type=bool): flag set when the flux for the exponential flux failed 
 
**slot_ModelFlux_exp_flag** (units=None,type=bool): flag set when the flux for the exponential flux failed 
 
**modelfit_CModel_exp_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**slot_ModelFlux_exp_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**modelfit_CModel_exp_ellipse_xx** (units=pix2,type=float64): half-light ellipse of the exponential fit 
 
**slot_ModelFlux_exp_ellipse_xx** (units=pix2,type=float64): half-light ellipse of the exponential fit 
 
**modelfit_CModel_exp_ellipse_yy** (units=pix2,type=float64): half-light ellipse of the exponential fit 
 
**slot_ModelFlux_exp_ellipse_yy** (units=pix2,type=float64): half-light ellipse of the exponential fit 
 
**modelfit_CModel_exp_ellipse_xy** (units=pix2,type=float64): half-light ellipse of the exponential fit 
 
**slot_ModelFlux_exp_ellipse_xy** (units=pix2,type=float64): half-light ellipse of the exponential fit 
 
**modelfit_CModel_exp_objective** (units=None,type=float64): -ln(likelihood*prior) at best-fit point for the exponential fit 
 
**slot_ModelFlux_exp_objective** (units=None,type=float64): -ln(likelihood*prior) at best-fit point for the exponential fit 
 
**modelfit_CModel_exp_nonlinear_0** (units=None,type=float64): nonlinear parameters for the exponential fit 
 
**slot_ModelFlux_exp_nonlinear_0** (units=None,type=float64): nonlinear parameters for the exponential fit 
 
**modelfit_CModel_exp_nonlinear_1** (units=None,type=float64): nonlinear parameters for the exponential fit 
 
**slot_ModelFlux_exp_nonlinear_1** (units=None,type=float64): nonlinear parameters for the exponential fit 
 
**modelfit_CModel_exp_nonlinear_2** (units=None,type=float64): nonlinear parameters for the exponential fit 
 
**slot_ModelFlux_exp_nonlinear_2** (units=None,type=float64): nonlinear parameters for the exponential fit 
 
**modelfit_CModel_exp_fixed_0** (units=None,type=float64): fixed parameters for the exponential fit 
 
**slot_ModelFlux_exp_fixed_0** (units=None,type=float64): fixed parameters for the exponential fit 
 
**modelfit_CModel_exp_fixed_1** (units=None,type=float64): fixed parameters for the exponential fit 
 
**slot_ModelFlux_exp_fixed_1** (units=None,type=float64): fixed parameters for the exponential fit 
 
**modelfit_CModel_exp_flag_trSmall** (units=None,type=bool): the optimizer converged because the trust radius became too small; this is a less-secure result than when the gradient is below the threshold, but usually not a problem 
 
**slot_ModelFlux_exp_flag_trSmall** (units=None,type=bool): the optimizer converged because the trust radius became too small; this is a less-secure result than when the gradient is below the threshold, but usually not a problem 
 
**modelfit_CModel_exp_flag_maxIter** (units=None,type=bool): the optimizer hit the maximum number of iterations and did not converge 
 
**slot_ModelFlux_exp_flag_maxIter** (units=None,type=bool): the optimizer hit the maximum number of iterations and did not converge 
 
**modelfit_CModel_exp_nIter** (units=None,type=int32): Number of total iterations in stage 
 
**slot_ModelFlux_exp_nIter** (units=None,type=int32): Number of total iterations in stage 
 
**modelfit_CModel_exp_time** (units=s,type=float64): Time spent in stage 
 
**slot_ModelFlux_exp_time** (units=s,type=float64): Time spent in stage 
 
**modelfit_CModel_exp_flag_numericError** (units=None,type=bool): numerical underflow or overflow in model evaluation; usually this means the prior was insufficient to regularize the fit, or all pixel values were zero. 
 
**slot_ModelFlux_exp_flag_numericError** (units=None,type=bool): numerical underflow or overflow in model evaluation; usually this means the prior was insufficient to regularize the fit, or all pixel values were zero. 
 
**modelfit_CModel_dev_instFlux** (units=ct,type=float64): flux from the de Vaucouleur fit 
 
**slot_ModelFlux_dev_instFlux** (units=ct,type=float64): flux from the de Vaucouleur fit 
 
**modelfit_CModel_dev_instFluxErr** (units=ct,type=float64): flux uncertainty from the de Vaucouleur fit 
 
**slot_ModelFlux_dev_instFluxErr** (units=ct,type=float64): flux uncertainty from the de Vaucouleur fit 
 
**modelfit_CModel_dev_flag** (units=None,type=bool): flag set when the flux for the de Vaucouleur flux failed 
 
**slot_ModelFlux_dev_flag** (units=None,type=bool): flag set when the flux for the de Vaucouleur flux failed 
 
**modelfit_CModel_dev_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**slot_ModelFlux_dev_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**modelfit_CModel_dev_ellipse_xx** (units=pix2,type=float64): half-light ellipse of the de Vaucouleur fit 
 
**slot_ModelFlux_dev_ellipse_xx** (units=pix2,type=float64): half-light ellipse of the de Vaucouleur fit 
 
**modelfit_CModel_dev_ellipse_yy** (units=pix2,type=float64): half-light ellipse of the de Vaucouleur fit 
 
**slot_ModelFlux_dev_ellipse_yy** (units=pix2,type=float64): half-light ellipse of the de Vaucouleur fit 
 
**modelfit_CModel_dev_ellipse_xy** (units=pix2,type=float64): half-light ellipse of the de Vaucouleur fit 
 
**slot_ModelFlux_dev_ellipse_xy** (units=pix2,type=float64): half-light ellipse of the de Vaucouleur fit 
 
**modelfit_CModel_dev_objective** (units=None,type=float64): -ln(likelihood*prior) at best-fit point for the de Vaucouleur fit 
 
**slot_ModelFlux_dev_objective** (units=None,type=float64): -ln(likelihood*prior) at best-fit point for the de Vaucouleur fit 
 
**modelfit_CModel_dev_nonlinear_0** (units=None,type=float64): nonlinear parameters for the de Vaucouleur fit 
 
**slot_ModelFlux_dev_nonlinear_0** (units=None,type=float64): nonlinear parameters for the de Vaucouleur fit 
 
**modelfit_CModel_dev_nonlinear_1** (units=None,type=float64): nonlinear parameters for the de Vaucouleur fit 
 
**slot_ModelFlux_dev_nonlinear_1** (units=None,type=float64): nonlinear parameters for the de Vaucouleur fit 
 
**modelfit_CModel_dev_nonlinear_2** (units=None,type=float64): nonlinear parameters for the de Vaucouleur fit 
 
**slot_ModelFlux_dev_nonlinear_2** (units=None,type=float64): nonlinear parameters for the de Vaucouleur fit 
 
**modelfit_CModel_dev_fixed_0** (units=None,type=float64): fixed parameters for the de Vaucouleur fit 
 
**slot_ModelFlux_dev_fixed_0** (units=None,type=float64): fixed parameters for the de Vaucouleur fit 
 
**modelfit_CModel_dev_fixed_1** (units=None,type=float64): fixed parameters for the de Vaucouleur fit 
 
**slot_ModelFlux_dev_fixed_1** (units=None,type=float64): fixed parameters for the de Vaucouleur fit 
 
**modelfit_CModel_dev_flag_trSmall** (units=None,type=bool): the optimizer converged because the trust radius became too small; this is a less-secure result than when the gradient is below the threshold, but usually not a problem 
 
**slot_ModelFlux_dev_flag_trSmall** (units=None,type=bool): the optimizer converged because the trust radius became too small; this is a less-secure result than when the gradient is below the threshold, but usually not a problem 
 
**modelfit_CModel_dev_flag_maxIter** (units=None,type=bool): the optimizer hit the maximum number of iterations and did not converge 
 
**slot_ModelFlux_dev_flag_maxIter** (units=None,type=bool): the optimizer hit the maximum number of iterations and did not converge 
 
**modelfit_CModel_dev_nIter** (units=None,type=int32): Number of total iterations in stage 
 
**slot_ModelFlux_dev_nIter** (units=None,type=int32): Number of total iterations in stage 
 
**modelfit_CModel_dev_time** (units=s,type=float64): Time spent in stage 
 
**slot_ModelFlux_dev_time** (units=s,type=float64): Time spent in stage 
 
**modelfit_CModel_dev_flag_numericError** (units=None,type=bool): numerical underflow or overflow in model evaluation; usually this means the prior was insufficient to regularize the fit, or all pixel values were zero. 
 
**slot_ModelFlux_dev_flag_numericError** (units=None,type=bool): numerical underflow or overflow in model evaluation; usually this means the prior was insufficient to regularize the fit, or all pixel values were zero. 
 
**modelfit_CModel_instFlux** (units=ct,type=float64): flux from the final cmodel fit 
 
**slot_ModelFlux_instFlux** (units=ct,type=float64): flux from the final cmodel fit 
 
**modelfit_CModel_instFluxErr** (units=ct,type=float64): flux uncertainty from the final cmodel fit 
 
**slot_ModelFlux_instFluxErr** (units=ct,type=float64): flux uncertainty from the final cmodel fit 
 
**modelfit_CModel_flag** (units=None,type=bool): flag set if the final cmodel fit (or any previous fit) failed 
 
**slot_ModelFlux_flag** (units=None,type=bool): flag set if the final cmodel fit (or any previous fit) failed 
 
**modelfit_CModel_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**slot_ModelFlux_instFlux_inner** (units=ct,type=float64): flux within the fit region, with no extrapolation 
 
**modelfit_CModel_fracDev** (units=None,type=float64): fraction of flux in de Vaucouleur component 
 
**slot_ModelFlux_fracDev** (units=None,type=float64): fraction of flux in de Vaucouleur component 
 
**modelfit_CModel_objective** (units=None,type=float64): -ln(likelihood) (chi^2) in cmodel fit 
 
**slot_ModelFlux_objective** (units=None,type=float64): -ln(likelihood) (chi^2) in cmodel fit 
 
**modelfit_CModel_flag_region_maxArea** (units=None,type=bool): number of pixels in fit region exceeded the region.maxArea value 
 
**slot_ModelFlux_flag_region_maxArea** (units=None,type=bool): number of pixels in fit region exceeded the region.maxArea value 
 
**modelfit_CModel_flag_region_maxBadPixelFraction** (units=None,type=bool): the fraction of bad/clipped pixels in the fit region exceeded region.maxBadPixelFraction 
 
**slot_ModelFlux_flag_region_maxBadPixelFraction** (units=None,type=bool): the fraction of bad/clipped pixels in the fit region exceeded region.maxBadPixelFraction 
 
**modelfit_CModel_flags_region_usedFootprintArea** (units=None,type=bool): the pixel region for the initial fit was defined by the area of the Footprint 
 
**slot_ModelFlux_flags_region_usedFootprintArea** (units=None,type=bool): the pixel region for the initial fit was defined by the area of the Footprint 
 
**modelfit_CModel_flags_region_usedPsfArea** (units=None,type=bool): the pixel region for the initial fit was set to a fixed factor of the PSF area 
 
**slot_ModelFlux_flags_region_usedPsfArea** (units=None,type=bool): the pixel region for the initial fit was set to a fixed factor of the PSF area 
 
**modelfit_CModel_flags_region_usedInitialEllipseMin** (units=None,type=bool): the pixel region for the final fit was set to the lower bound defined by the initial fit 
 
**slot_ModelFlux_flags_region_usedInitialEllipseMin** (units=None,type=bool): the pixel region for the final fit was set to the lower bound defined by the initial fit 
 
**modelfit_CModel_flags_region_usedInitialEllipseMax** (units=None,type=bool): the pixel region for the final fit was set to the upper bound defined by the initial fit 
 
**slot_ModelFlux_flags_region_usedInitialEllipseMax** (units=None,type=bool): the pixel region for the final fit was set to the upper bound defined by the initial fit 
 
**modelfit_CModel_flag_noShape** (units=None,type=bool): the shape slot needed to initialize the parameters failed or was not defined 
 
**slot_ModelFlux_flag_noShape** (units=None,type=bool): the shape slot needed to initialize the parameters failed or was not defined 
 
**modelfit_CModel_flags_smallShape** (units=None,type=bool): initial parameter guess resulted in negative radius; used minimum of 0.100000 pixels instead. 
 
**slot_ModelFlux_flags_smallShape** (units=None,type=bool): initial parameter guess resulted in negative radius; used minimum of 0.100000 pixels instead. 
 
**modelfit_CModel_ellipse_xx** (units=pix2,type=float64): fracDev-weighted average of exp.ellipse and dev.ellipse 
 
**slot_ModelFlux_ellipse_xx** (units=pix2,type=float64): fracDev-weighted average of exp.ellipse and dev.ellipse 
 
**modelfit_CModel_ellipse_yy** (units=pix2,type=float64): fracDev-weighted average of exp.ellipse and dev.ellipse 
 
**slot_ModelFlux_ellipse_yy** (units=pix2,type=float64): fracDev-weighted average of exp.ellipse and dev.ellipse 
 
**modelfit_CModel_ellipse_xy** (units=pix2,type=float64): fracDev-weighted average of exp.ellipse and dev.ellipse 
 
**slot_ModelFlux_ellipse_xy** (units=pix2,type=float64): fracDev-weighted average of exp.ellipse and dev.ellipse 
 
**modelfit_CModel_region_initial_ellipse_xx** (units=pix2,type=float64): ellipse used to set the pixel region for the initial fit (before applying bad pixel mask) 
 
**slot_ModelFlux_region_initial_ellipse_xx** (units=pix2,type=float64): ellipse used to set the pixel region for the initial fit (before applying bad pixel mask) 
 
**modelfit_CModel_region_initial_ellipse_yy** (units=pix2,type=float64): ellipse used to set the pixel region for the initial fit (before applying bad pixel mask) 
 
**slot_ModelFlux_region_initial_ellipse_yy** (units=pix2,type=float64): ellipse used to set the pixel region for the initial fit (before applying bad pixel mask) 
 
**modelfit_CModel_region_initial_ellipse_xy** (units=pix2,type=float64): ellipse used to set the pixel region for the initial fit (before applying bad pixel mask) 
 
**slot_ModelFlux_region_initial_ellipse_xy** (units=pix2,type=float64): ellipse used to set the pixel region for the initial fit (before applying bad pixel mask) 
 
**modelfit_CModel_region_final_ellipse_xx** (units=pix2,type=float64): ellipse used to set the pixel region for the final fit (before applying bad pixel mask) 
 
**slot_ModelFlux_region_final_ellipse_xx** (units=pix2,type=float64): ellipse used to set the pixel region for the final fit (before applying bad pixel mask) 
 
**modelfit_CModel_region_final_ellipse_yy** (units=pix2,type=float64): ellipse used to set the pixel region for the final fit (before applying bad pixel mask) 
 
**slot_ModelFlux_region_final_ellipse_yy** (units=pix2,type=float64): ellipse used to set the pixel region for the final fit (before applying bad pixel mask) 
 
**modelfit_CModel_region_final_ellipse_xy** (units=pix2,type=float64): ellipse used to set the pixel region for the final fit (before applying bad pixel mask) 
 
**slot_ModelFlux_region_final_ellipse_xy** (units=pix2,type=float64): ellipse used to set the pixel region for the final fit (before applying bad pixel mask) 
 
**modelfit_CModel_flag_noShapeletPsf** (units=None,type=bool): the multishapelet fit to the PSF model did not succeed 
 
**slot_ModelFlux_flag_noShapeletPsf** (units=None,type=bool): the multishapelet fit to the PSF model did not succeed 
 
**modelfit_CModel_flag_badCentroid** (units=None,type=bool): input centroid was not within the fit region (probably because it''s not within the Footprint) 
 
**slot_ModelFlux_flag_badCentroid** (units=None,type=bool): input centroid was not within the fit region (probably because it''s not within the Footprint) 
 
**detect_isPatchInner** (units=None,type=bool): true if source is in the inner region of a coadd patch 
 
**detect_isTractInner** (units=None,type=bool): true if source is in the inner region of a coadd tract 
 
**detect_isPrimary** (units=None,type=bool): true if source has no children and is in the inner region of a coadd patch and is in the inner region of a coadd tract and is not "detected" in a pseudo-filter (see config.pseudoFilterList) 
 
**calib_psf_candidate** (units=None,type=bool): Propagated from visits 
 
**calib_psf_used** (units=None,type=bool): Propagated from visits 
 
**calib_psf_reserved** (units=None,type=bool): Propagated from visits 
 
**calib_astrometry_used** (units=None,type=bool): Propagated from visits 
 
**calib_photometry_used** (units=None,type=bool): Propagated from visits 
 
**calib_photometry_reserved** (units=None,type=bool): Propagated from visits 
 
**base_GaussianFlux_apCorr** (units=None,type=float64): aperture correction applied to base_GaussianFlux 
 
**slot_GaussianFlux_apCorr** (units=None,type=float64): aperture correction applied to base_GaussianFlux 
 
**base_GaussianFlux_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to base_GaussianFlux 
 
**slot_GaussianFlux_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to base_GaussianFlux 
 
**base_GaussianFlux_flag_apCorr** (units=None,type=bool): set if unable to aperture correct base_GaussianFlux 
 
**slot_GaussianFlux_flag_apCorr** (units=None,type=bool): set if unable to aperture correct base_GaussianFlux 
 
**base_PsfFlux_apCorr** (units=None,type=float64): aperture correction applied to base_PsfFlux 
 
**slot_PsfFlux_apCorr** (units=None,type=float64): aperture correction applied to base_PsfFlux 
 
**base_PsfFlux_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to base_PsfFlux 
 
**slot_PsfFlux_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to base_PsfFlux 
 
**base_PsfFlux_flag_apCorr** (units=None,type=bool): set if unable to aperture correct base_PsfFlux 
 
**slot_PsfFlux_flag_apCorr** (units=None,type=bool): set if unable to aperture correct base_PsfFlux 
 
**ext_convolved_ConvolvedFlux_0_3_3_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_0_3_3 
 
**ext_convolved_ConvolvedFlux_0_3_3_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_0_3_3 
 
**ext_convolved_ConvolvedFlux_0_3_3_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_0_3_3 
 
**ext_convolved_ConvolvedFlux_0_4_5_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_0_4_5 
 
**ext_convolved_ConvolvedFlux_0_4_5_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_0_4_5 
 
**ext_convolved_ConvolvedFlux_0_4_5_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_0_4_5 
 
**ext_convolved_ConvolvedFlux_0_6_0_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_0_6_0 
 
**ext_convolved_ConvolvedFlux_0_6_0_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_0_6_0 
 
**ext_convolved_ConvolvedFlux_0_6_0_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_0_6_0 
 
**ext_convolved_ConvolvedFlux_0_kron_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_0_kron 
 
**ext_convolved_ConvolvedFlux_0_kron_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_0_kron 
 
**ext_convolved_ConvolvedFlux_0_kron_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_0_kron 
 
**ext_convolved_ConvolvedFlux_1_3_3_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_1_3_3 
 
**ext_convolved_ConvolvedFlux_1_3_3_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_1_3_3 
 
**ext_convolved_ConvolvedFlux_1_3_3_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_1_3_3 
 
**ext_convolved_ConvolvedFlux_1_4_5_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_1_4_5 
 
**ext_convolved_ConvolvedFlux_1_4_5_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_1_4_5 
 
**ext_convolved_ConvolvedFlux_1_4_5_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_1_4_5 
 
**ext_convolved_ConvolvedFlux_1_6_0_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_1_6_0 
 
**ext_convolved_ConvolvedFlux_1_6_0_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_1_6_0 
 
**ext_convolved_ConvolvedFlux_1_6_0_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_1_6_0 
 
**ext_convolved_ConvolvedFlux_1_kron_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_1_kron 
 
**ext_convolved_ConvolvedFlux_1_kron_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_1_kron 
 
**ext_convolved_ConvolvedFlux_1_kron_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_1_kron 
 
**ext_convolved_ConvolvedFlux_2_3_3_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_2_3_3 
 
**ext_convolved_ConvolvedFlux_2_3_3_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_2_3_3 
 
**ext_convolved_ConvolvedFlux_2_3_3_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_2_3_3 
 
**ext_convolved_ConvolvedFlux_2_4_5_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_2_4_5 
 
**ext_convolved_ConvolvedFlux_2_4_5_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_2_4_5 
 
**ext_convolved_ConvolvedFlux_2_4_5_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_2_4_5 
 
**ext_convolved_ConvolvedFlux_2_6_0_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_2_6_0 
 
**ext_convolved_ConvolvedFlux_2_6_0_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_2_6_0 
 
**ext_convolved_ConvolvedFlux_2_6_0_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_2_6_0 
 
**ext_convolved_ConvolvedFlux_2_kron_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_2_kron 
 
**ext_convolved_ConvolvedFlux_2_kron_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_2_kron 
 
**ext_convolved_ConvolvedFlux_2_kron_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_2_kron 
 
**ext_convolved_ConvolvedFlux_3_3_3_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_3_3_3 
 
**ext_convolved_ConvolvedFlux_3_3_3_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_3_3_3 
 
**ext_convolved_ConvolvedFlux_3_3_3_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_3_3_3 
 
**ext_convolved_ConvolvedFlux_3_4_5_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_3_4_5 
 
**ext_convolved_ConvolvedFlux_3_4_5_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_3_4_5 
 
**ext_convolved_ConvolvedFlux_3_4_5_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_3_4_5 
 
**ext_convolved_ConvolvedFlux_3_6_0_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_3_6_0 
 
**ext_convolved_ConvolvedFlux_3_6_0_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_3_6_0 
 
**ext_convolved_ConvolvedFlux_3_6_0_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_3_6_0 
 
**ext_convolved_ConvolvedFlux_3_kron_apCorr** (units=None,type=float64): aperture correction applied to ext_convolved_ConvolvedFlux_3_kron 
 
**ext_convolved_ConvolvedFlux_3_kron_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_convolved_ConvolvedFlux_3_kron 
 
**ext_convolved_ConvolvedFlux_3_kron_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_convolved_ConvolvedFlux_3_kron 
 
**ext_photometryKron_KronFlux_apCorr** (units=None,type=float64): aperture correction applied to ext_photometryKron_KronFlux 
 
**ext_photometryKron_KronFlux_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to ext_photometryKron_KronFlux 
 
**ext_photometryKron_KronFlux_flag_apCorr** (units=None,type=bool): set if unable to aperture correct ext_photometryKron_KronFlux 
 
**modelfit_CModel_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel 
 
**slot_ModelFlux_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel 
 
**modelfit_CModel_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel 
 
**slot_ModelFlux_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel 
 
**modelfit_CModel_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel 
 
**slot_ModelFlux_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel 
 
**modelfit_CModel_dev_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel_dev 
 
**slot_ModelFlux_dev_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel_dev 
 
**modelfit_CModel_dev_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel_dev 
 
**slot_ModelFlux_dev_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel_dev 
 
**modelfit_CModel_dev_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel_dev 
 
**slot_ModelFlux_dev_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel_dev 
 
**modelfit_CModel_exp_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel_exp 
 
**slot_ModelFlux_exp_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel_exp 
 
**modelfit_CModel_exp_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel_exp 
 
**slot_ModelFlux_exp_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel_exp 
 
**modelfit_CModel_exp_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel_exp 
 
**slot_ModelFlux_exp_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel_exp 
 
**modelfit_CModel_initial_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel_initial 
 
**slot_ModelFlux_initial_apCorr** (units=None,type=float64): aperture correction applied to modelfit_CModel_initial 
 
**modelfit_CModel_initial_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel_initial 
 
**slot_ModelFlux_initial_apCorrErr** (units=None,type=float64): standard deviation of aperture correction applied to modelfit_CModel_initial 
 
**modelfit_CModel_initial_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel_initial 
 
**slot_ModelFlux_initial_flag_apCorr** (units=None,type=bool): set if unable to aperture correct modelfit_CModel_initial 
 
**base_ClassificationExtendedness_value** (units=None,type=float64): Set to 1 for extended sources, 0 for point sources. 
 
**base_ClassificationExtendedness_flag** (units=None,type=bool): Set to 1 for any fatal failure. 
 
**base_FootprintArea_value** (units=pix,type=int32): Number of pixels in the source''s detection footprint. 
 
**merge_measurement_i** (units=None,type=bool): Flag field set if the measurements here are from the i filter 
 
**merge_measurement_r** (units=None,type=bool): Flag field set if the measurements here are from the r filter 
 
**merge_measurement_z** (units=None,type=bool): Flag field set if the measurements here are from the z filter 
 
**merge_measurement_y** (units=None,type=bool): Flag field set if the measurements here are from the y filter 
 
**merge_measurement_g** (units=None,type=bool): Flag field set if the measurements here are from the g filter 
 
**merge_measurement_u** (units=None,type=bool): Flag field set if the measurements here are from the u filter