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Datasets: 38
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LSST data on Galactica platform
 Contributor Frédéric Gaudet
 Institution/Laboratory: CNRS/LIMOS
Simulated data from the SDSS telescop then processed by LSST algorithms and then duplicated to reach 2Tb size.
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lsst.readme
Read me file
Simulated data from the SDSS telescop then procecedd by LSST algorithms and then duplicated to reach almost 2Tb size.
4 Tables are provided : Source, Object, Object Full Overlap and ForcedSource.
Object : 324 CSV files, 180Go (193 691 257 908 bytes)
ForcedSource : 324 CSV files, 510 Go (548 140 973 441 bytes)
Source : 324 CSV files, 1,14 To (1 254 820 876 701 bytes)
Object Full Overlap : 323 CSV files, 73,9 Go (79 433 742 191 bytes)
Total dataset size : 1,88To (2 076 086 850 241 bytes)
Object & ObjectFull Overlap Table schema :
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 name  type  not null  unit  ucd  description 
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 objectId  BIGINT  y   meta.id;src  Unique id. 
 parentObjectId  BIGINT     Id of the parent object this object has been deblended from, if any. 
 prv_inputId  INT  y    Pointer to prv_InputType. Indicates which input was used to produce a given object. 
 psRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Point Source model at time 'psEpoch'. 
 psRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of psRa. 
 psDecl  DOUBLE   deg  pos.eq.dec  Declcoordinate of the center of the object for the Point Source model at time 'psEpoch'. 
 psDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of psDecl. 
 psMuRa  FLOAT   mas/yr  pos.pm  Proper motion (ra) for the Point Source model. 
 psMuRaSigma  FLOAT   mas/yr  stat.error;pos.pm  Uncertainty of psMuRa. 
 psMuDecl  FLOAT   mas/yr  pos.pm  Proper motion (decl) for the Point Source model. 
 psMuDeclSigma  FLOAT   mas/yr  stat.error;pos.pm  Uncertainty of psMuDecl. 
 psParallax  FLOAT   mas  pos.parallax  Stellar parallax. for the Point Source model. 
 psParallaxSigma  FLOAT   mas  stat.error;pos.parallax  Uncertainty of psParallax. 
 uPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for u filter. 
 uPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of uPsFlux. 
 gPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for g filter. 
 gPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of gPsFlux. 
 rPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for r filter. 
 rPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of rPsFlux. 
 iPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for i filter. 
 iPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of iPsFlux. 
 zPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for z filter. 
 zPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of zPsFlux. 
 yPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for y filter. 
 yPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of yPsFlux. 
 psLnL  FLOAT     Natural log likelihood of the observed data given the Point Source model. 
 psChi2  FLOAT     Chi^2 static of the model fit. 
 psN  INT     The number of data points (pixels) used to fit the model. 
 uBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For u filter. 
 uBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of uBdRa. 
 uBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For u filter. 
 uBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of uBdDecl. 
 uBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For u filter. 
 uBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uBdE1. 
 uBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For u filter. 
 uBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uBdE2. 
 uBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For u filter. 
 uBdFluxBSigma  FLOAT   nmgy   Uncertainty of uBdFluxB. 
 uBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For u filter. 
 uBdFluxDSigma  FLOAT   nmgy   Uncertainty of uBdFluxD. 
 uBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For u filter. 
 uBdReBSigma  FLOAT   arcsec   Uncertainty of uBdReB. 
 uBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For u filter. 
 uBdReDSigma  FLOAT   arcsec   Uncertainty of uBdReD. 
 uBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For u filter. 
 uBdChi2  FLOAT     Chi^2 static of the model fit. For u filter. 
 uBdN  INT     The number of data points (pixels) used to fit the model. For u filter. 
 gBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For g filter. 
 gBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of gBdRa. 
 gBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For g filter. 
 gBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of gBdDecl. 
 gBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For g filter. 
 gBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gBdE1. 
 gBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For g filter. 
 gBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gBdE2. 
 gBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For g filter. 
 gBdFluxBSigma  FLOAT   nmgy   Uncertainty of gBdFluxB. 
 gBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For g filter. 
 gBdFluxDSigma  FLOAT   nmgy   Uncertainty of gBdFluxD. 
 gBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For g filter. 
 gBdReBSigma  FLOAT   arcsec   Uncertainty of gBdReB. 
 gBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For g filter. 
 gBdReDSigma  FLOAT   arcsec   Uncertainty of gBdReD. 
 gBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For g filter. 
 gBdChi2  FLOAT     Chi^2 static of the model fit. For g filter. 
 gBdN  INT     The number of data points (pixels) used to fit the model. For g filter. 
 rBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For r filter. 
 rBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of rBdRa. 
 rBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For r filter. 
 rBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of rBdDecl. 
 rBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For r filter. 
 rBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rBdE1. 
 rBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For r filter. 
 rBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rBdE2. 
 rBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For r filter. 
 rBdFluxBSigma  FLOAT   nmgy   Uncertainty of rBdFluxB. 
 rBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For r filter. 
 rBdFluxDSigma  FLOAT   nmgy   Uncertainty of rBdFluxD. 
 rBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For r filter. 
 rBdReBSigma  FLOAT   arcsec   Uncertainty of rBdReB. 
 rBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For r filter. 
 rBdReDSigma  FLOAT   arcsec   Uncertainty of rBdReD. 
 rBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For r filter. 
 rBdChi2  FLOAT     Chi^2 static of the model fit. For r filter. 
 rBdN  INT     The number of data points (pixels) used to fit the model. For r filter. 
 iBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For i filter. 
 iBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of iBdRa. 
 iBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For i filter. 
 iBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of iBdDecl. 
 iBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For i filter. 
 iBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iBdE1. 
 iBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For i filter. 
 iBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iBdE2. 
 iBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For i filter. 
 iBdFluxBSigma  FLOAT   nmgy   Uncertainty of iBdFluxB. 
 iBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For i filter. 
 iBdFluxDSigma  FLOAT   nmgy   Uncertainty of iBdFluxD. 
 iBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For i filter. 
 iBdReBSigma  FLOAT   arcsec   Uncertainty of iBdReB. 
 iBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For i filter. 
 iBdReDSigma  FLOAT   arcsec   Uncertainty of iBdReD. 
 iBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For i filter. 
 iBdChi2  FLOAT     Chi^2 static of the model fit. For i filter. 
 iBdN  INT     The number of data points (pixels) used to fit the model. For i filter. 
 zBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For z filter. 
 zBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of zBdRa. 
 zBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For z filter. 
 zBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of zBdDecl. 
 zBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For z filter. 
 zBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zBdE1. 
 zBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For z filter. 
 zBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zBdE2. 
 zBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For z filter. 
 zBdFluxBSigma  FLOAT   nmgy   Uncertainty of zBdFluxB. 
 zBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For z filter. 
 zBdFluxDSigma  FLOAT   nmgy   Uncertainty of zBdFluxD. 
 zBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For z filter. 
 zBdReBSigma  FLOAT   arcsec   Uncertainty of zBdReB. 
 zBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For z filter. 
 zBdReDSigma  FLOAT   arcsec   Uncertainty of zBdReD. 
 zBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For z filter. 
 zBdChi2  FLOAT     Chi^2 static of the model fit. For z filter. 
 zBdN  INT     The number of data points (pixels) used to fit the model. For z filter. 
 yBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For y filter. 
 yBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of yBdRa. 
 yBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For y filter. 
 yBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of yBdDecl. 
 yBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For y filter. 
 yBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yBdE1. 
 yBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For y filter. 
 yBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yBdE2. 
 yBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For y filter. 
 yBdFluxBSigma  FLOAT   nmgy   Uncertainty of yBdFluxB. 
 yBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For y filter. 
 yBdFluxDSigma  FLOAT   nmgy   Uncertainty of yBdFluxD. 
 yBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For y filter. 
 yBdReBSigma  FLOAT   arcsec   Uncertainty of yBdReB. 
 yBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For y filter. 
 yBdReDSigma  FLOAT   arcsec   Uncertainty of yBdReD. 
 yBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For y filter. 
 yBdChi2  FLOAT     Chi^2 static of the model fit. For y filter. 
 yBdN  INT     The number of data points (pixels) used to fit the model. For y filter. 
 ugStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 ugStdSigma  FLOAT  y  mag   Uncertainty of ugStd. 
 grStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 grStdSigma  FLOAT  y  mag   Uncertainty of grStd. 
 riStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 riStdSigma  FLOAT  y  mag   Uncertainty of riStd. 
 izStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 izStdSigma  FLOAT  y  mag   Uncertainty of izStd. 
 zyStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 zyStdSigma  FLOAT  y  mag   Uncertainty of zyStd. 
 uRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for u filter. 
 uRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of uRa. 
 uDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for u filter. 
 uDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of uDecl. 
 gRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for g filter. 
 gRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of gRa. 
 gDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for g filter. 
 gDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of gDecl. 
 rRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for r filter. 
 rRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of rRa. 
 rDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for r filter. 
 rDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of rDecl. 
 iRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for i filter. 
 iRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of iRa. 
 iDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for i filter. 
 iDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of iDecl. 
 zRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for z filter. 
 zRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of zRa. 
 zDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for z filter. 
 zDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of zDecl. 
 yRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for y filter. 
 yRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of yRa. 
 yDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for y filter. 
 yDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of yDecl. 
 uE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for u filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 uE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uE1 
 uE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for u filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 uE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uE2 
 uE1_E2_Cov  FLOAT     Covariance of uE1 and uE2. 
 gE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for g filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 gE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gE1 
 gE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for g filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 gE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gE2 
 gE1_E2_Cov  FLOAT     Covariance of gE1 and gE2. 
 rE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for r filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 rE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rE1 
 rE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for r filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 rE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rE2 
 rE1_E2_Cov  FLOAT     Covariance of rE1 and rE2. 
 iE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for i filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 iE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iE1 
 iE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for i filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 iE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iE2 
 iE1_E2_Cov  FLOAT     Covariance of iE1 and iE2. 
 zE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for z filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 zE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zE1 
 zE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for z filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 zE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zE2 
 zE1_E2_Cov  FLOAT     Covariance of zE1 and zE2. 
 yE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for y filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 yE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yE1 
 yE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for y filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 yE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yE2 
 yE1_E2_Cov  FLOAT     Covariance of yE1 and yE2. 
 uMSum  FLOAT     Sum of second adaptive moments for u filter. 
 uMSumSigma  FLOAT     Uncertainty of uMSum 
 gMSum  FLOAT     Sum of second adaptive moments for g filter. 
 gMSumSigma  FLOAT     Uncertainty of gMSum 
 rMSum  FLOAT     Sum of second adaptive moments for r filter. 
 rMSumSigma  FLOAT     Uncertainty of rMSum 
 iMSum  FLOAT     Sum of second adaptive moments for i filter. 
 iMSumSigma  FLOAT     Uncertainty of iMSum 
 zMSum  FLOAT     Sum of second adaptive moments for z filter. 
 zMSumSigma  FLOAT     Uncertainty of zMSum 
 yMSum  FLOAT     Sum of second adaptive moments for y filter. 
 yMSumSigma  FLOAT     Uncertainty of yMSum 
 uM4  FLOAT     Fourth order adaptive moment for u filter. 
 gM4  FLOAT     Fourth order adaptive moment for g filter. 
 rM4  FLOAT     Fourth order adaptive moment for r filter. 
 iM4  FLOAT     Fourth order adaptive moment for i filter. 
 zM4  FLOAT     Fourth order adaptive moment for z filter. 
 yM4  FLOAT     Fourth order adaptive moment for y filter. 
 uPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for u filter. 
 uPetroRadSigma  FLOAT   arcsec   Uncertainty of uPetroRad 
 gPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for g filter. 
 gPetroRadSigma  FLOAT   arcsec   Uncertainty of gPetroRad 
 rPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for r filter. 
 rPetroRadSigma  FLOAT   arcsec   Uncertainty of rPetroRad 
 iPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for i filter. 
 iPetroRadSigma  FLOAT   arcsec   Uncertainty of iPetroRad 
 zPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for z filter. 
 zPetroRadSigma  FLOAT   arcsec   Uncertainty of zPetroRad 
 yPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for y filter. 
 yPetroRadSigma  FLOAT   arcsec   Uncertainty of yPetroRad 
 petroFilter  CHAR(1)  y    Name of the filter of the canonical petroRad. 
 uPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for u filter. 
 uPetroFluxSigma  FLOAT   nmgy   Uncertainty of uPetroFlux. 
 gPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for g filter. 
 gPetroFluxSigma  FLOAT   nmgy   Uncertainty of gPetroFlux. 
 rPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for r filter. 
 rPetroFluxSigma  FLOAT   nmgy   Uncertainty of rPetroFlux. 
 iPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for i filter. 
 iPetroFluxSigma  FLOAT   nmgy   Uncertainty of iPetroFlux. 
 zPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for z filter. 
 zPetroFluxSigma  FLOAT   nmgy   Uncertainty of zPetroFlux. 
 yPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for y filter. 
 yPetroFluxSigma  FLOAT   nmgy   Uncertainty of yPetroFlux. 
 uPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for u filter. 
 uPetroRad50Sigma  FLOAT   arcsec   Uncertainty of uPetroRad50. 
 gPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for g filter. 
 gPetroRad50Sigma  FLOAT   arcsec   Uncertainty of gPetroRad50. 
 rPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for r filter. 
 rPetroRad50Sigma  FLOAT   arcsec   Uncertainty of rPetroRad50. 
 iPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for i filter. 
 iPetroRad50Sigma  FLOAT   arcsec   Uncertainty of iPetroRad50. 
 zPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for z filter. 
 zPetroRad50Sigma  FLOAT   arcsec   Uncertainty of zPetroRad50. 
 yPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for y filter. 
 yPetroRad50Sigma  FLOAT   arcsec   Uncertainty of yPetroRad50. 
 uPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for u filter. 
 uPetroRad90Sigma  FLOAT   arcsec   Uncertainty of uPetroRad90. 
 gPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for g filter. 
 gPetroRad90Sigma  FLOAT   arcsec   Uncertainty of gPetroRad90. 
 rPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for r filter. 
 rPetroRad90Sigma  FLOAT   arcsec   Uncertainty of rPetroRad90. 
 iPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for i filter. 
 iPetroRad90Sigma  FLOAT   arcsec   Uncertainty of iPetroRad90. 
 zPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for z filter. 
 zPetroRad90Sigma  FLOAT   arcsec   Uncertainty of zPetroRad90. 
 yPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for y filter. 
 yPetroRad90Sigma  FLOAT   arcsec   Uncertainty of yPetroRad90. 
 uKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for u filter. 
 uKronRadSigma  FLOAT   arcsec   Uncertainty of uKronRad. 
 gKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for g filter. 
 gKronRadSigma  FLOAT   arcsec   Uncertainty of gKronRad. 
 rKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for r filter. 
 rKronRadSigma  FLOAT   arcsec   Uncertainty of rKronRad. 
 iKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for i filter. 
 iKronRadSigma  FLOAT   arcsec   Uncertainty of iKronRad. 
 zKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for z filter. 
 zKronRadSigma  FLOAT   arcsec   Uncertainty of zKronRad. 
 yKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for y filter. 
 yKronRadSigma  FLOAT   arcsec   Uncertainty of yKronRad. 
 kronFilter  CHAR(1)  y    The filter of the canonical kronRad. 
 uKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for u filter. 
 uKronFluxSigma  FLOAT   nmgy   Uncertainty of uKronFlux. 
 gKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for g filter. 
 gKronFluxSigma  FLOAT   nmgy   Uncertainty of gKronFlux. 
 rKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for r filter. 
 rKronFluxSigma  FLOAT   nmgy   Uncertainty of rKronFlux. 
 iKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for i filter. 
 iKronFluxSigma  FLOAT   nmgy   Uncertainty of iKronFlux. 
 zKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for z filter. 
 zKronFluxSigma  FLOAT   nmgy   Uncertainty of zKronFlux. 
 yKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for y filter. 
 yKronFluxSigma  FLOAT   nmgy   Uncertainty of yKronFlux. 
 uKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for u filter. 
 uKronRad50Sigma  FLOAT   arcsec   Uncertainty of uKronRad50. 
 gKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for g filter. 
 gKronRad50Sigma  FLOAT   arcsec   Uncertainty of gKronRad50. 
 rKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for r filter. 
 rKronRad50Sigma  FLOAT   arcsec   Uncertainty of rKronRad50. 
 iKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for i filter. 
 iKronRad50Sigma  FLOAT   arcsec   Uncertainty of iKronRad50. 
 zKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for z filter. 
 zKronRad50Sigma  FLOAT   arcsec   Uncertainty of zKronRad50. 
 yKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for y filter. 
 yKronRad50Sigma  FLOAT   arcsec   Uncertainty of yKronRad50. 
 uKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for u filter. 
 uKronRad90Sigma  FLOAT   arcsec   Uncertainty of uKronRad90. 
 gKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for g filter. 
 gKronRad90Sigma  FLOAT   arcsec   Uncertainty of gKronRad90. 
 rKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for r filter. 
 rKronRad90Sigma  FLOAT   arcsec   Uncertainty of rKronRad90. 
 iKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for i filter. 
 iKronRad90Sigma  FLOAT   arcsec   Uncertainty of iKronRad90. 
 zKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for z filter. 
 zKronRad90Sigma  FLOAT   arcsec   Uncertainty of zKronRad90. 
 yKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for y filter. 
 yKronRad90Sigma  FLOAT   arcsec   Uncertainty of yKronRad90. 
 uApN  TINYINT  y    Number of elliptical annuli (see below) for u filter. 
 gApN  TINYINT  y    Number of elliptical annuli (see below) for g filter. 
 rApN  TINYINT  y    Number of elliptical annuli (see below) for r filter. 
 iApN  TINYINT  y    Number of elliptical annuli (see below) for i filter. 
 zApN  TINYINT  y    Number of elliptical annuli (see below) for z filter. 
 yApN  TINYINT  y    Number of elliptical annuli (see below) for y filter. 
 extendedness  FLOAT  y    A measure of extendedness, computed using a combination of available moments and model fluxes or from a likelihood ratio of point/trailed source models (exact algorithm TBD). extendedness = 1 implies a high degree of confidence that the source is extended. extendedness = 0 implies a high degree of confidence that the source is pointlike. 
 FLAGS1  BIGINT  y    Flags, tbd. 
 FLAGS2  BIGINT  y    Flags, tbd. 
+++++++
Source table schema :
++++++++
 name  type  not null  unit  ucd  description  
++++++++
 sourceId  BIGINT  y   meta.id;src  Unique id.  
 ccdVisitId  BIGINT  y   meta.id;obs.image  Id of the ccdVisit where this source was measured. Note that we are allowing a source to belong to multiple amplifiers, but it may not span multiple ccds.  
 filterName  CHAR(1)  y   meta.id;instr.filter  Name of the filter used to take the two exposures where this source was measured.  
 objectId  BIGINT    meta.id;src  Id of the corresponding object. Note that this might be NULL (each source will point to either object or ssObject).  
 ssObjectId  BIGINT    meta.id;src  Id of the corresponding ssObject. Note that this might be NULL (each source will point to either object or ssObject).  
 parentSourceId  BIGINT     Id of the parent source this source has been deblended from, if any.  
 htmId20  BIGINT  y    HTM index.  
 sky  FLOAT   nmgy/asec^2   Estimated sky background at the position (centroid) of the source.  
 skySigma  FLOAT   nmgy/asec^2   Uncertainty of sky.  
 psFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model.  
 psFluxSigma  FLOAT   nmgy   Uncertainty of psFlux.  
 psX  FLOAT   pixels   Point source model (x) position of the object on the CCD.  
 psXSigma  FLOAT   pixels   Uncertainty of psX.  
 psY  FLOAT     Point source model (y) position of the object on the CCD.  
 psYSigma  FLOAT   pixels   Uncertainty of psY.  
 psFlux_psX_Cov  FLOAT     Covariance of psFlux and psX.  
 psFlux_psY_Cov  FLOAT     Covariance of psFlux and psY.  
 psX_Y_Cov  FLOAT     Covariance of psX and psY.  
 psLnL  FLOAT     Natural log likelihood of the observed data given the Point Source model.  
 psChi2  FLOAT     Chi^2 static of the model fit.  
 psN  INT     The number of data points (pixels) used to fit the model.  
 psRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Point Source model at time radecTai.  
 psRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of psRa.  
 psDecl  DOUBLE   deg  pos.eq.dec  Declcoordinate of the center of the object for the Point Source model at time radecTai.  
 psDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of psDecl.  
 psFlux_psRa_Cov  FLOAT     Covariance of psFlux and psRa.  
 psFlux_psDecl_Cov  FLOAT     Covariance of psFlux and psRa.  
 x  FLOAT  y  pixel  pos.cartesian.x  x position computed using an algorithm similar to that used by SDSS.  
 xSigma  FLOAT  y  pixel  stat.error:pos.cartesian.x  Uncertainty of x.  
 y  FLOAT  y  pixel  pos.cartesian.y  y position computed using an algorithm similar to that used by SDSS.  
 ySigma  FLOAT  y  pixel  stat.error:pos.cartesian.y  Uncertainty of y.  
 x_y_Cov  FLOAT  y  pixel^2   Covariance between x and y.  
 ra  DOUBLE  y  arcsec  pos.eq.ra  Calibrated RAcoordinate of the center of the source transformed from xy.  
 raSigma  FLOAT   arcsec  stat.error;pos.eq.ra  Uncertainty of ra.  
 decl  DOUBLE  y  arcsec  pos.eq.dec  Calibated Declcoordinate of the center of the source transformed from xy.  
 declSigma  FLOAT   arcsec  stat.error;pos.eq.dec  Uncertainty of decl.  
 ra_decl_Cov  FLOAT  y  arcsec^2   Covariance of ra and decl.  
 E1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure of the source as measured on the difference image.  
 E1Sigma  FLOAT    stat.error:phys.size.axisRatio  Uncertainty of E1.  
 E2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure of the source as measured on the difference image.  
 E2Sigma  FLOAT    stat.error:phys.size.axisRatio  Uncertainty of E2.  
 E1_E2_Cov  FLOAT     Covariance of E1 and E2  
 mSum  FLOAT     Sum of second adaptive moments.  
 mSumSigma  FLOAT     Uncertainty of mSum.  
 m4  FLOAT     Fourth order adaptive moment.  
 apN  TINYINT  y    Number of elliptical annuli.  
 flags  BIGINT  y    Flags. Tbd.  
++++++++
Forced Source table schema :
++++++++
 name  type  not null  unit  ucd  description  
++++++++
 objectId  BIGINT  y   meta.id;src   
 ccdVisitId  BIGINT  y   meta.id;obs.image  Id of the ccd visit where this forcedSource was measured. Note that we are allowing a forcedSource to belong to multiple amplifiers, but it may not span multiple ccds.  
 psFlux  FLOAT  y  nmgy  phot.count  Point Source model flux.  
 psFlux_Sigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of psFlux.  
 flags  TINYINT  y   meta.code  Flags, bitwise OR tbd  
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
++++++++
4 Tables are provided : Source, Object, Object Full Overlap and ForcedSource.
Object : 324 CSV files, 180Go (193 691 257 908 bytes)
ForcedSource : 324 CSV files, 510 Go (548 140 973 441 bytes)
Source : 324 CSV files, 1,14 To (1 254 820 876 701 bytes)
Object Full Overlap : 323 CSV files, 73,9 Go (79 433 742 191 bytes)
Total dataset size : 1,88To (2 076 086 850 241 bytes)
Object & ObjectFull Overlap Table schema :
+++++++
 name  type  not null  unit  ucd  description 
+++++++
 objectId  BIGINT  y   meta.id;src  Unique id. 
 parentObjectId  BIGINT     Id of the parent object this object has been deblended from, if any. 
 prv_inputId  INT  y    Pointer to prv_InputType. Indicates which input was used to produce a given object. 
 psRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Point Source model at time 'psEpoch'. 
 psRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of psRa. 
 psDecl  DOUBLE   deg  pos.eq.dec  Declcoordinate of the center of the object for the Point Source model at time 'psEpoch'. 
 psDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of psDecl. 
 psMuRa  FLOAT   mas/yr  pos.pm  Proper motion (ra) for the Point Source model. 
 psMuRaSigma  FLOAT   mas/yr  stat.error;pos.pm  Uncertainty of psMuRa. 
 psMuDecl  FLOAT   mas/yr  pos.pm  Proper motion (decl) for the Point Source model. 
 psMuDeclSigma  FLOAT   mas/yr  stat.error;pos.pm  Uncertainty of psMuDecl. 
 psParallax  FLOAT   mas  pos.parallax  Stellar parallax. for the Point Source model. 
 psParallaxSigma  FLOAT   mas  stat.error;pos.parallax  Uncertainty of psParallax. 
 uPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for u filter. 
 uPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of uPsFlux. 
 gPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for g filter. 
 gPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of gPsFlux. 
 rPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for r filter. 
 rPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of rPsFlux. 
 iPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for i filter. 
 iPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of iPsFlux. 
 zPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for z filter. 
 zPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of zPsFlux. 
 yPsFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model for y filter. 
 yPsFluxSigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of yPsFlux. 
 psLnL  FLOAT     Natural log likelihood of the observed data given the Point Source model. 
 psChi2  FLOAT     Chi^2 static of the model fit. 
 psN  INT     The number of data points (pixels) used to fit the model. 
 uBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For u filter. 
 uBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of uBdRa. 
 uBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For u filter. 
 uBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of uBdDecl. 
 uBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For u filter. 
 uBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uBdE1. 
 uBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For u filter. 
 uBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uBdE2. 
 uBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For u filter. 
 uBdFluxBSigma  FLOAT   nmgy   Uncertainty of uBdFluxB. 
 uBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For u filter. 
 uBdFluxDSigma  FLOAT   nmgy   Uncertainty of uBdFluxD. 
 uBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For u filter. 
 uBdReBSigma  FLOAT   arcsec   Uncertainty of uBdReB. 
 uBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For u filter. 
 uBdReDSigma  FLOAT   arcsec   Uncertainty of uBdReD. 
 uBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For u filter. 
 uBdChi2  FLOAT     Chi^2 static of the model fit. For u filter. 
 uBdN  INT     The number of data points (pixels) used to fit the model. For u filter. 
 gBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For g filter. 
 gBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of gBdRa. 
 gBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For g filter. 
 gBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of gBdDecl. 
 gBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For g filter. 
 gBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gBdE1. 
 gBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For g filter. 
 gBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gBdE2. 
 gBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For g filter. 
 gBdFluxBSigma  FLOAT   nmgy   Uncertainty of gBdFluxB. 
 gBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For g filter. 
 gBdFluxDSigma  FLOAT   nmgy   Uncertainty of gBdFluxD. 
 gBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For g filter. 
 gBdReBSigma  FLOAT   arcsec   Uncertainty of gBdReB. 
 gBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For g filter. 
 gBdReDSigma  FLOAT   arcsec   Uncertainty of gBdReD. 
 gBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For g filter. 
 gBdChi2  FLOAT     Chi^2 static of the model fit. For g filter. 
 gBdN  INT     The number of data points (pixels) used to fit the model. For g filter. 
 rBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For r filter. 
 rBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of rBdRa. 
 rBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For r filter. 
 rBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of rBdDecl. 
 rBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For r filter. 
 rBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rBdE1. 
 rBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For r filter. 
 rBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rBdE2. 
 rBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For r filter. 
 rBdFluxBSigma  FLOAT   nmgy   Uncertainty of rBdFluxB. 
 rBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For r filter. 
 rBdFluxDSigma  FLOAT   nmgy   Uncertainty of rBdFluxD. 
 rBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For r filter. 
 rBdReBSigma  FLOAT   arcsec   Uncertainty of rBdReB. 
 rBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For r filter. 
 rBdReDSigma  FLOAT   arcsec   Uncertainty of rBdReD. 
 rBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For r filter. 
 rBdChi2  FLOAT     Chi^2 static of the model fit. For r filter. 
 rBdN  INT     The number of data points (pixels) used to fit the model. For r filter. 
 iBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For i filter. 
 iBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of iBdRa. 
 iBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For i filter. 
 iBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of iBdDecl. 
 iBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For i filter. 
 iBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iBdE1. 
 iBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For i filter. 
 iBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iBdE2. 
 iBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For i filter. 
 iBdFluxBSigma  FLOAT   nmgy   Uncertainty of iBdFluxB. 
 iBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For i filter. 
 iBdFluxDSigma  FLOAT   nmgy   Uncertainty of iBdFluxD. 
 iBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For i filter. 
 iBdReBSigma  FLOAT   arcsec   Uncertainty of iBdReB. 
 iBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For i filter. 
 iBdReDSigma  FLOAT   arcsec   Uncertainty of iBdReD. 
 iBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For i filter. 
 iBdChi2  FLOAT     Chi^2 static of the model fit. For i filter. 
 iBdN  INT     The number of data points (pixels) used to fit the model. For i filter. 
 zBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For z filter. 
 zBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of zBdRa. 
 zBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For z filter. 
 zBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of zBdDecl. 
 zBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For z filter. 
 zBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zBdE1. 
 zBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For z filter. 
 zBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zBdE2. 
 zBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For z filter. 
 zBdFluxBSigma  FLOAT   nmgy   Uncertainty of zBdFluxB. 
 zBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For z filter. 
 zBdFluxDSigma  FLOAT   nmgy   Uncertainty of zBdFluxD. 
 zBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For z filter. 
 zBdReBSigma  FLOAT   arcsec   Uncertainty of zBdReB. 
 zBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For z filter. 
 zBdReDSigma  FLOAT   arcsec   Uncertainty of zBdReD. 
 zBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For z filter. 
 zBdChi2  FLOAT     Chi^2 static of the model fit. For z filter. 
 zBdN  INT     The number of data points (pixels) used to fit the model. For z filter. 
 yBbdRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For y filter. 
 yBdRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of yBdRa. 
 yBdDecl  DOUBLE  y  deg  pos.eq.dec  Declcoordinate of the center of the object for the Bulge+Disk model at time radecTai. For y filter. 
 yBdDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of yBdDecl. 
 yBdE1  FLOAT    phys.size.axisRatio  Ellipticity for the Bulge+Disk (e1). For y filter. 
 yBdE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yBdE1. 
 yBdE2  FLOAT    phys.size.axisRatio  Ellipticity for Bulge+Disk model (e2). For y filter. 
 yBdE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yBdE2. 
 yBdFluxB  FLOAT   nmgy   Integrated flux of the de Vaucouleurs component for the Bulge+Disk model. For y filter. 
 yBdFluxBSigma  FLOAT   nmgy   Uncertainty of yBdFluxB. 
 yBdFluxD  FLOAT   nmgy   Integrated flux of the exponential component for the Bulge+Disk model. For y filter. 
 yBdFluxDSigma  FLOAT   nmgy   Uncertainty of yBdFluxD. 
 yBdReB  FLOAT   arcsec   Effective radius of the de Vaucouleurs profile component for the Bulge+Disk model. For y filter. 
 yBdReBSigma  FLOAT   arcsec   Uncertainty of yBdReB. 
 yBdReD  FLOAT   arcsec   Effective radius of the exponential profile component for the Bulge+Disk model. For y filter. 
 yBdReDSigma  FLOAT   arcsec   Uncertainty of yBdReD. 
 yBdLnL  FLOAT     Natural log likelihood of the observed data given the Bulge+Disk model. For y filter. 
 yBdChi2  FLOAT     Chi^2 static of the model fit. For y filter. 
 yBdN  INT     The number of data points (pixels) used to fit the model. For y filter. 
 ugStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 ugStdSigma  FLOAT  y  mag   Uncertainty of ugStd. 
 grStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 grStdSigma  FLOAT  y  mag   Uncertainty of grStd. 
 riStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 riStdSigma  FLOAT  y  mag   Uncertainty of riStd. 
 izStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 izStdSigma  FLOAT  y  mag   Uncertainty of izStd. 
 zyStd  FLOAT  y  mag   Color of the object measured in 'standard seeing'. While the exact algorithm is yet to be determined, this color is guaranteed to be seeingindependent and suitable for photoZ determinations. 
 zyStdSigma  FLOAT  y  mag   Uncertainty of zyStd. 
 uRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for u filter. 
 uRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of uRa. 
 uDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for u filter. 
 uDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of uDecl. 
 gRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for g filter. 
 gRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of gRa. 
 gDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for g filter. 
 gDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of gDecl. 
 rRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for r filter. 
 rRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of rRa. 
 rDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for r filter. 
 rDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of rDecl. 
 iRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for i filter. 
 iRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of iRa. 
 iDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for i filter. 
 iDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of iDecl. 
 zRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for z filter. 
 zRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of zRa. 
 zDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for z filter. 
 zDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of zDecl. 
 yRa  DOUBLE   arcsec  pos.eq.ra  RAcoordinate coordinate of the centroid computed for y filter. 
 yRaSigma  DOUBLE   arcsec  stat.error;pos.eq.ra  Uncertainty of yRa. 
 yDecl  DOUBLE   arcsec  pos.eq.dec  Declcoordinate coordinate of the centroid computed for y filter. 
 yDeclSigma  DOUBLE   arcsec  stat.error;pos.eq.dec  Uncertainty of yDecl. 
 uE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for u filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 uE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uE1 
 uE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for u filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 uE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of uE2 
 uE1_E2_Cov  FLOAT     Covariance of uE1 and uE2. 
 gE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for g filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 gE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gE1 
 gE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for g filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 gE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of gE2 
 gE1_E2_Cov  FLOAT     Covariance of gE1 and gE2. 
 rE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for r filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 rE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rE1 
 rE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for r filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 rE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of rE2 
 rE1_E2_Cov  FLOAT     Covariance of rE1 and rE2. 
 iE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for i filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 iE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iE1 
 iE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for i filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 iE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of iE2 
 iE1_E2_Cov  FLOAT     Covariance of iE1 and iE2. 
 zE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for z filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 zE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zE1 
 zE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for z filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 zE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of zE2 
 zE1_E2_Cov  FLOAT     Covariance of zE1 and zE2. 
 yE1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure for y filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 yE1Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yE1 
 yE2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure for y filter. See Bernstein and Jarvis (2002) for detailed discussion of all adaptivemoment related quantities. 
 yE2Sigma  FLOAT    stat.error;phys.size.axisRatio  Uncertainty of yE2 
 yE1_E2_Cov  FLOAT     Covariance of yE1 and yE2. 
 uMSum  FLOAT     Sum of second adaptive moments for u filter. 
 uMSumSigma  FLOAT     Uncertainty of uMSum 
 gMSum  FLOAT     Sum of second adaptive moments for g filter. 
 gMSumSigma  FLOAT     Uncertainty of gMSum 
 rMSum  FLOAT     Sum of second adaptive moments for r filter. 
 rMSumSigma  FLOAT     Uncertainty of rMSum 
 iMSum  FLOAT     Sum of second adaptive moments for i filter. 
 iMSumSigma  FLOAT     Uncertainty of iMSum 
 zMSum  FLOAT     Sum of second adaptive moments for z filter. 
 zMSumSigma  FLOAT     Uncertainty of zMSum 
 yMSum  FLOAT     Sum of second adaptive moments for y filter. 
 yMSumSigma  FLOAT     Uncertainty of yMSum 
 uM4  FLOAT     Fourth order adaptive moment for u filter. 
 gM4  FLOAT     Fourth order adaptive moment for g filter. 
 rM4  FLOAT     Fourth order adaptive moment for r filter. 
 iM4  FLOAT     Fourth order adaptive moment for i filter. 
 zM4  FLOAT     Fourth order adaptive moment for z filter. 
 yM4  FLOAT     Fourth order adaptive moment for y filter. 
 uPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for u filter. 
 uPetroRadSigma  FLOAT   arcsec   Uncertainty of uPetroRad 
 gPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for g filter. 
 gPetroRadSigma  FLOAT   arcsec   Uncertainty of gPetroRad 
 rPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for r filter. 
 rPetroRadSigma  FLOAT   arcsec   Uncertainty of rPetroRad 
 iPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for i filter. 
 iPetroRadSigma  FLOAT   arcsec   Uncertainty of iPetroRad 
 zPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for z filter. 
 zPetroRadSigma  FLOAT   arcsec   Uncertainty of zPetroRad 
 yPetroRad  FLOAT   arcsec   Petrosian radius, computed using elliptical apertures defined by the adaptive moments for y filter. 
 yPetroRadSigma  FLOAT   arcsec   Uncertainty of yPetroRad 
 petroFilter  CHAR(1)  y    Name of the filter of the canonical petroRad. 
 uPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for u filter. 
 uPetroFluxSigma  FLOAT   nmgy   Uncertainty of uPetroFlux. 
 gPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for g filter. 
 gPetroFluxSigma  FLOAT   nmgy   Uncertainty of gPetroFlux. 
 rPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for r filter. 
 rPetroFluxSigma  FLOAT   nmgy   Uncertainty of rPetroFlux. 
 iPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for i filter. 
 iPetroFluxSigma  FLOAT   nmgy   Uncertainty of iPetroFlux. 
 zPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for z filter. 
 zPetroFluxSigma  FLOAT   nmgy   Uncertainty of zPetroFlux. 
 yPetroFlux  FLOAT   nmgy   Petrosian flux within a defined multiple of the canonical petroRad for y filter. 
 yPetroFluxSigma  FLOAT   nmgy   Uncertainty of yPetroFlux. 
 uPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for u filter. 
 uPetroRad50Sigma  FLOAT   arcsec   Uncertainty of uPetroRad50. 
 gPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for g filter. 
 gPetroRad50Sigma  FLOAT   arcsec   Uncertainty of gPetroRad50. 
 rPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for r filter. 
 rPetroRad50Sigma  FLOAT   arcsec   Uncertainty of rPetroRad50. 
 iPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for i filter. 
 iPetroRad50Sigma  FLOAT   arcsec   Uncertainty of iPetroRad50. 
 zPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for z filter. 
 zPetroRad50Sigma  FLOAT   arcsec   Uncertainty of zPetroRad50. 
 yPetroRad50  FLOAT   arcsec   Radius containing 50% of Petrosian flux for y filter. 
 yPetroRad50Sigma  FLOAT   arcsec   Uncertainty of yPetroRad50. 
 uPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for u filter. 
 uPetroRad90Sigma  FLOAT   arcsec   Uncertainty of uPetroRad90. 
 gPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for g filter. 
 gPetroRad90Sigma  FLOAT   arcsec   Uncertainty of gPetroRad90. 
 rPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for r filter. 
 rPetroRad90Sigma  FLOAT   arcsec   Uncertainty of rPetroRad90. 
 iPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for i filter. 
 iPetroRad90Sigma  FLOAT   arcsec   Uncertainty of iPetroRad90. 
 zPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for z filter. 
 zPetroRad90Sigma  FLOAT   arcsec   Uncertainty of zPetroRad90. 
 yPetroRad90  FLOAT   arcsec   Radius containing 90% of Petrosian flux for y filter. 
 yPetroRad90Sigma  FLOAT   arcsec   Uncertainty of yPetroRad90. 
 uKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for u filter. 
 uKronRadSigma  FLOAT   arcsec   Uncertainty of uKronRad. 
 gKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for g filter. 
 gKronRadSigma  FLOAT   arcsec   Uncertainty of gKronRad. 
 rKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for r filter. 
 rKronRadSigma  FLOAT   arcsec   Uncertainty of rKronRad. 
 iKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for i filter. 
 iKronRadSigma  FLOAT   arcsec   Uncertainty of iKronRad. 
 zKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for z filter. 
 zKronRadSigma  FLOAT   arcsec   Uncertainty of zKronRad. 
 yKronRad  FLOAT   arcsec   Kron radius (computed using elliptical apertures defined by the adaptive moments) for y filter. 
 yKronRadSigma  FLOAT   arcsec   Uncertainty of yKronRad. 
 kronFilter  CHAR(1)  y    The filter of the canonical kronRad. 
 uKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for u filter. 
 uKronFluxSigma  FLOAT   nmgy   Uncertainty of uKronFlux. 
 gKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for g filter. 
 gKronFluxSigma  FLOAT   nmgy   Uncertainty of gKronFlux. 
 rKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for r filter. 
 rKronFluxSigma  FLOAT   nmgy   Uncertainty of rKronFlux. 
 iKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for i filter. 
 iKronFluxSigma  FLOAT   nmgy   Uncertainty of iKronFlux. 
 zKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for z filter. 
 zKronFluxSigma  FLOAT   nmgy   Uncertainty of zKronFlux. 
 yKronFlux  FLOAT   nmgy   Kron flux within a defined multiple of the canonical kronRad for y filter. 
 yKronFluxSigma  FLOAT   nmgy   Uncertainty of yKronFlux. 
 uKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for u filter. 
 uKronRad50Sigma  FLOAT   arcsec   Uncertainty of uKronRad50. 
 gKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for g filter. 
 gKronRad50Sigma  FLOAT   arcsec   Uncertainty of gKronRad50. 
 rKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for r filter. 
 rKronRad50Sigma  FLOAT   arcsec   Uncertainty of rKronRad50. 
 iKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for i filter. 
 iKronRad50Sigma  FLOAT   arcsec   Uncertainty of iKronRad50. 
 zKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for z filter. 
 zKronRad50Sigma  FLOAT   arcsec   Uncertainty of zKronRad50. 
 yKronRad50  FLOAT   arcsec   Radius containing 50% of Kron flux for y filter. 
 yKronRad50Sigma  FLOAT   arcsec   Uncertainty of yKronRad50. 
 uKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for u filter. 
 uKronRad90Sigma  FLOAT   arcsec   Uncertainty of uKronRad90. 
 gKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for g filter. 
 gKronRad90Sigma  FLOAT   arcsec   Uncertainty of gKronRad90. 
 rKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for r filter. 
 rKronRad90Sigma  FLOAT   arcsec   Uncertainty of rKronRad90. 
 iKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for i filter. 
 iKronRad90Sigma  FLOAT   arcsec   Uncertainty of iKronRad90. 
 zKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for z filter. 
 zKronRad90Sigma  FLOAT   arcsec   Uncertainty of zKronRad90. 
 yKronRad90  FLOAT   arcsec   Radius containing 90% of Kron flux for y filter. 
 yKronRad90Sigma  FLOAT   arcsec   Uncertainty of yKronRad90. 
 uApN  TINYINT  y    Number of elliptical annuli (see below) for u filter. 
 gApN  TINYINT  y    Number of elliptical annuli (see below) for g filter. 
 rApN  TINYINT  y    Number of elliptical annuli (see below) for r filter. 
 iApN  TINYINT  y    Number of elliptical annuli (see below) for i filter. 
 zApN  TINYINT  y    Number of elliptical annuli (see below) for z filter. 
 yApN  TINYINT  y    Number of elliptical annuli (see below) for y filter. 
 extendedness  FLOAT  y    A measure of extendedness, computed using a combination of available moments and model fluxes or from a likelihood ratio of point/trailed source models (exact algorithm TBD). extendedness = 1 implies a high degree of confidence that the source is extended. extendedness = 0 implies a high degree of confidence that the source is pointlike. 
 FLAGS1  BIGINT  y    Flags, tbd. 
 FLAGS2  BIGINT  y    Flags, tbd. 
+++++++
Source table schema :
++++++++
 name  type  not null  unit  ucd  description  
++++++++
 sourceId  BIGINT  y   meta.id;src  Unique id.  
 ccdVisitId  BIGINT  y   meta.id;obs.image  Id of the ccdVisit where this source was measured. Note that we are allowing a source to belong to multiple amplifiers, but it may not span multiple ccds.  
 filterName  CHAR(1)  y   meta.id;instr.filter  Name of the filter used to take the two exposures where this source was measured.  
 objectId  BIGINT    meta.id;src  Id of the corresponding object. Note that this might be NULL (each source will point to either object or ssObject).  
 ssObjectId  BIGINT    meta.id;src  Id of the corresponding ssObject. Note that this might be NULL (each source will point to either object or ssObject).  
 parentSourceId  BIGINT     Id of the parent source this source has been deblended from, if any.  
 htmId20  BIGINT  y    HTM index.  
 sky  FLOAT   nmgy/asec^2   Estimated sky background at the position (centroid) of the source.  
 skySigma  FLOAT   nmgy/asec^2   Uncertainty of sky.  
 psFlux  FLOAT   nmgy  phot.count  Calibrated flux for Point Source model.  
 psFluxSigma  FLOAT   nmgy   Uncertainty of psFlux.  
 psX  FLOAT   pixels   Point source model (x) position of the object on the CCD.  
 psXSigma  FLOAT   pixels   Uncertainty of psX.  
 psY  FLOAT     Point source model (y) position of the object on the CCD.  
 psYSigma  FLOAT   pixels   Uncertainty of psY.  
 psFlux_psX_Cov  FLOAT     Covariance of psFlux and psX.  
 psFlux_psY_Cov  FLOAT     Covariance of psFlux and psY.  
 psX_Y_Cov  FLOAT     Covariance of psX and psY.  
 psLnL  FLOAT     Natural log likelihood of the observed data given the Point Source model.  
 psChi2  FLOAT     Chi^2 static of the model fit.  
 psN  INT     The number of data points (pixels) used to fit the model.  
 psRa  DOUBLE   deg  pos.eq.ra  RAcoordinate of the center of the object for the Point Source model at time radecTai.  
 psRaSigma  FLOAT   deg  stat.error;pos.eq.ra  Uncertainty of psRa.  
 psDecl  DOUBLE   deg  pos.eq.dec  Declcoordinate of the center of the object for the Point Source model at time radecTai.  
 psDeclSigma  FLOAT   deg  stat.error;pos.eq.dec  Uncertainty of psDecl.  
 psFlux_psRa_Cov  FLOAT     Covariance of psFlux and psRa.  
 psFlux_psDecl_Cov  FLOAT     Covariance of psFlux and psRa.  
 x  FLOAT  y  pixel  pos.cartesian.x  x position computed using an algorithm similar to that used by SDSS.  
 xSigma  FLOAT  y  pixel  stat.error:pos.cartesian.x  Uncertainty of x.  
 y  FLOAT  y  pixel  pos.cartesian.y  y position computed using an algorithm similar to that used by SDSS.  
 ySigma  FLOAT  y  pixel  stat.error:pos.cartesian.y  Uncertainty of y.  
 x_y_Cov  FLOAT  y  pixel^2   Covariance between x and y.  
 ra  DOUBLE  y  arcsec  pos.eq.ra  Calibrated RAcoordinate of the center of the source transformed from xy.  
 raSigma  FLOAT   arcsec  stat.error;pos.eq.ra  Uncertainty of ra.  
 decl  DOUBLE  y  arcsec  pos.eq.dec  Calibated Declcoordinate of the center of the source transformed from xy.  
 declSigma  FLOAT   arcsec  stat.error;pos.eq.dec  Uncertainty of decl.  
 ra_decl_Cov  FLOAT  y  arcsec^2   Covariance of ra and decl.  
 E1  FLOAT    phys.size.axisRatio  Adaptive e1 shape measure of the source as measured on the difference image.  
 E1Sigma  FLOAT    stat.error:phys.size.axisRatio  Uncertainty of E1.  
 E2  FLOAT    phys.size.axisRatio  Adaptive e2 shape measure of the source as measured on the difference image.  
 E2Sigma  FLOAT    stat.error:phys.size.axisRatio  Uncertainty of E2.  
 E1_E2_Cov  FLOAT     Covariance of E1 and E2  
 mSum  FLOAT     Sum of second adaptive moments.  
 mSumSigma  FLOAT     Uncertainty of mSum.  
 m4  FLOAT     Fourth order adaptive moment.  
 apN  TINYINT  y    Number of elliptical annuli.  
 flags  BIGINT  y    Flags. Tbd.  
++++++++
Forced Source table schema :
++++++++
 name  type  not null  unit  ucd  description  
++++++++
 objectId  BIGINT  y   meta.id;src   
 ccdVisitId  BIGINT  y   meta.id;obs.image  Id of the ccd visit where this forcedSource was measured. Note that we are allowing a forcedSource to belong to multiple amplifiers, but it may not span multiple ccds.  
 psFlux  FLOAT  y  nmgy  phot.count  Point Source model flux.  
 psFlux_Sigma  FLOAT   nmgy  stat.error;phot.count  Uncertainty of psFlux.  
 flags  TINYINT  y   meta.code  Flags, bitwise OR tbd  
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
++++++++
2017 11 15
The size of this dataset is more than 4000 Mb
Url of the dataset
Other metadata

Subjects:
Astrophysics and Astronomy 
Keywords:
LSST 
Encoding data format:
csv
LSST. [Data set]. Stored in Galactica platform. Published 2017 via PerscidoGrenobleAlpes;