- Top level directory for web access:
- Top level directory for web access to dr3.1 sweeps (see known issues for a description of dr3.1):
-
https://portal.nersc.gov/cfs/cosmo/data/legacysurvey/dr3/sweep/3.1/
- Top level directory local to NERSC computers (for collaborators):
-
/global/cfs/cdirs/cosmo/data/legacysurvey/dr3/
- Top level directory local to NERSC computers for dr3.1 sweeps (see known issues for a description of dr3.1):
-
/global/cfs/cdirs/cosmo/data/legacysurvey/dr3/sweep/3.1/
Summary Files
survey-bricks.fits.gz
FITS binary table with the RA, DEC bounds of each geometrical "brick" on the sky. This includes all bricks on the sky, not just the ones in our footprint or with coverage in DR3. For that information, see the next file description.
HDU1 (only HDU) - tags in the
survey-bricks.fits.gzfile
Column |
Type |
Description |
|---|---|---|
|
char[8] |
Name of the brick. |
|
int32 |
A unique integer with 1-to-1 mapping to |
|
int16 |
A "priority" factor used for processing. |
|
int32 |
Dec row number. |
|
int32 |
Number of the brick within a Dec row. |
|
double |
RA of the center of the brick. |
|
double |
Dec of the center of the brick. |
|
double |
Lower RA boundary. |
|
double |
Upper RA boundary. |
|
double |
Lower Dec boundary. |
|
double |
Upper Dec boundary. |
survey-bricks-dr3.fits.gz
A FITS binary table with information that summarizes the contents of each brick, as of DR3.
Column |
Type |
Description |
|---|---|---|
|
char[8] |
Name of the brick. |
|
double |
RA of the center of the brick. |
|
double |
Dec of the center of the brick. |
|
int16 |
Median number of exposures in the unique area (i.e. |
|
int16 |
Median number of exposures in the unique area of the brick in \(r\)-band. |
|
int16 |
Median number of exposures in the unique area of the brick in \(z\)-band. |
|
int32[6] |
Histogram of number of pixels in the unique brick area with 0, 1, 2, 3, 4, or > 5 exposures in \(g\) |
|
int32[6] |
Histogram of number of pixels in the unique brick area with 0, 1, 2, 3, 4, or > 5 exposures in \(r\) |
|
int32[6] |
Histogram of number of pixels in the unique brick area with 0, 1, 2, 3, 4, or > 5 exposures in \(z\) |
|
int16 |
Total number of |
|
int16 |
Total number of |
|
int16 |
Total number of |
|
int16 |
Total number of |
|
int16 |
Total number of |
|
int16 |
Total number of |
|
float32 |
Median PSF size, in arcsec, evaluated at the |
|
float32 |
Median PSF size, in arcsec, evaluated at the |
|
float32 |
Median PSF size, in arcsec, evaluated at the |
|
float32 |
Median SFD dust map E(B-V) extinction, in magnitudes, evaluated at |
|
float32 |
Median Milky Way dust transparency in \(g\)-band, based on |
|
float32 |
Median Milky Way dust transparency in \(r\)-band, based on |
|
float32 |
Median Milky Way dust transparency in \(z\)-band, based on |
Note that, for the nexphist rows, pixels that are masked by the NOIRLab Community Pipeline as, e.g., cosmic rays or saturation, do NOT count toward the number of exposures. More information about the morphological types and DECAM_MW_TRANSMISSION can be found on the catalogs page.
survey-ccds-decals.fits.gz
A FITS binary table with almanac information (e.g. seeing, etc.) about each individual CCD image.
This file contains information regarding the photometric and astrometric zero points for each CCD of every DECam image that is part of the DECaLS DR3 data release. Photometric zero points for each CCD are computed by identifying stars and comparing their instrumental magnitudes (measured in an approximately 7 arcsec diameter aperture) to color-selected stars in the PanSTARRS "qz" catalog.
The photometric zeropoints (zpt, ccdzpt, etc)
are magnitude-like numbers (e.g. 25.04), and
indicate the magnitude of a source that would contribute one count per
second to the image. For example, in an image with zeropoint of 25.04
and exposure time of 30 seconds, a source of magnitude 22.5 would
contribute
\(30 * 10^{((25.04 - 22.5) / 2.5)} = 311.3\)
counts.
Column |
Type |
Description |
|---|---|---|
|
char[35] |
Name listed in the object tag from the CCD header. For propid 2014B-0404, in most cases, this has the form: DECaLS_<tile_number>_<filter>, but this can differ for older and non-DECaLS data. |
|
int32 |
Unique DECam exposure number, eg 348224. |
|
float |
Exposure time in seconds, eg 30. |
|
char[1] |
Filter used for observation, eg "g", "r", "z". |
|
float |
Seeing in arcseconds determined by fitting a 2-dimensional gaussian to the median PSF of stars on the CCD, eg 1.1019. |
|
char[10] |
Date of observation start, eg "2014-08-15". Can be combined with |
|
double |
Date of observation in MJD (in UTC system), eg 56884.99373389. |
|
char[15] |
Time of observation start, eg "23:50:58.608241". |
|
char[13] |
Hour angle of the observation (HH:MM:SS) |
|
float |
Airmass, eg 1.35. |
|
char[10] |
Proposal ID of the program that took this image, eg "2014B-0404". |
|
float |
Median zero point for the entire image (median of all CCDs of the image), eg 25.0927. |
|
float |
Average sky level in this image, in ADU, eg 36.9324. |
|
float |
Average gain for this CCD, eg 4.34. |
|
float |
[use "seeing" instead] |
|
float |
Astrometric header value: X reference pixel. |
|
float |
Astrometric header value: Y reference pixel. |
|
double |
Astrometric header value: RA of reference pixel. |
|
double |
Astrometric header value: Dec of reference pixel. |
|
float |
Astrometric header value: transformation matrix. |
|
float |
Astrometric header value: transformation matrix. |
|
float |
Astrometric header value: transformation matrix. |
|
float |
Astrometric header value: transformation matrix. |
|
int16 |
CCD number (see DECam layout), eg 1. |
|
char[3] |
CCD name (see DECam layout), eg "N10", "S7". |
|
float |
Zeropoint for the CCD (AB mag). |
|
float |
Zeropoint for amp A (AB mag). |
|
float |
Zeropoint for amp B (AB mag). |
|
float |
(ignore) |
|
float |
Photometric rms for the CCD (in mag). |
|
float |
Sky rms (in counts) |
|
float |
Mean sky background in AB mag/arcsec2 on each CCD; measured from the CP-processed frames as -2.5*alog10( |
|
float |
Mean sky count level per pixel in the CP-processed frames measured (with iterative rejection) for each CCD in the image section [500:1500,1500:2500] |
|
float |
Median astrometric offset for the CCD <PS1-DECaLS> in arcsec. |
|
float |
Median astrometric offset for the CCD <PS1-DECaLS> in arcsec |
|
float |
(ignore) |
|
int16 |
Number of stars found on the CCD. |
|
int16 |
Number of stars matched to PS1 (and used to compute the photometric zero points and astrometric offsets). |
|
int16 |
Number of stars in amp A matched. |
|
int16 |
Number of stars in amp B matched. |
|
float |
Median (g-i) color from the PS1 catalog of the matched stars. |
|
float |
Outside temperature in oC listed in the |
|
char[5] |
The camera that took this image; "decam". |
|
char[12] |
Exposure ID string, eg "00348224-S29" (from |
|
int16 |
FITS HDU number in the |
|
char[61] |
Path to FITS image, eg "decam/CP20140810_g_v2/c4d_140815_235218_ooi_g_v2.fits.fz". |
|
int16 |
Width in pixels of this image, eg 2046. |
|
int16 |
Height in pixels of this image, eg 4096. |
|
double |
Telescope boresight RA of this exposure (deg). |
|
double |
Telescope boresight Dec of this exposure (deg). |
|
double |
Approximate RA center of this CCD (deg). |
|
double |
Approximate Dec center of this CCD (deg). |
survey-ccds-nondecals.fits.gz
As for survey-ccds-decals.fits.gz, but for areas of the sky covered with DECam by surveys other than DECaLS.
survey-ccds-extra.fits.gz
As for survey-ccds-nondecals.fits.gz but for some additional regions of the sky. The "nondecals" and "extra" files are currently split up simply to make them easier to store on github.
ccds-annotated-decals.fits.gz
A version of the survey-ccds-decals.fits.gz file with additional information gathered during calibration pre-processing before running the Tractor reductions.
Includes everything listed in the survey-ccds-decals.fits.gz files plus the following:
Column |
Type |
Description |
|---|---|---|
|
boolean |
True if this CCD was considered photometric and used in the DR3 reductions |
|
boolean |
We blacklisted certain programs (Proposal IDs) from other PIs where there were a large number of images covering a single patch of sky, because our pipeline code didn't handle the extreme depth very well. True if this CCD was not blacklisted, ie, was used. |
|
int[4] |
If only a subset of the CCD images was used, this array of x0,x1,y0,y1 values gives the coordinates that were used, [x0,x1), [y0,y1). -1 for no cut (most CCDs). |
|
double |
RA coordinate of pixel (1,1) |
|
double |
Dec coordinate of pixel (1,1) |
|
double |
RA coordinate of pixel (1,H) |
|
double |
Dec coordinate of pixel (1,H) |
|
double |
RA coordinate of pixel (W,H) |
|
double |
Dec coordinate of pixel (W,H) |
|
double |
RA coordinate of pixel (W,1) |
|
double |
Dec coordinate of pixel (W,1) |
|
float |
Maximum distance from RA,Dec center to the edge midpoints, in RA |
|
float |
Maximum distance from RA,Dec center to the edge midpoints, in Dec |
|
double |
RA coordinate of CCD center |
|
double |
Dec coordinate of CCD center |
|
float |
Median per-pixel error standard deviation, in nanomaggies. |
|
float |
Our pipeline (not the CP) estimate of the sky level, average over the image, in ADU. |
|
float |
Standard deviation of our sky level |
|
float |
Max of our sky level |
|
float |
Min of our sky level |
|
float |
Pixel scale (via sqrt of area of a 10x10 pixel patch evaluated in a 5x5 grid across the image), in arcsec/pixel. |
|
float |
Standard deviation of pixel scale |
|
float |
Max of pixel scale |
|
float |
Min of pixel scale |
|
float |
PSF norm = 1/sqrt of N_eff = sqrt(sum(psf_i^2)) for normalized PSF pixels i; mean of the PSF model evaluated on a 5x5 grid of points across the image. Point-source detection standard deviation is |
|
float |
Standard deviation of PSF norm |
|
float |
Norm of the PSF model convolved by a 0.45" exponential galaxy. |
|
float |
Standard deviation of galaxy norm. |
|
float |
PSF model second moment in x (pixels^2) |
|
float |
PSF model second moment in y (pixels^2) |
|
float |
PSF model second moment in x-y (pixels^2) |
|
float |
PSF model major axis (pixels) |
|
float |
PSF model minor axis (pixels) |
|
float |
PSF position angle (deg) |
|
float |
PSF ellipticity 1 - minor/major |
|
float |
Percent humidity outside |
|
float |
Outside temperate (deg C). |
|
int32 |
DECaLS tile number, if this was a DECaLS observation; or 0 for data from other programs. |
|
uint8 |
DECaLS tile pass number, 1, 2 or 3, if this was a DECaLS observation, or 0 for data from other programs. Set by the observers; pass 1 is supposed to be photometric with good seeing, pass 3 unphotometric or bad seeing, and pass 2 in between. |
|
float |
Mean SFD E(B-V) extinction in the DECaLS tile, or 0 for non-DECaLS data. |
|
char[6] |
Community Pipeline (CP) PLVER version string |
|
float |
SFD E(B-V) extinction for CCD center |
|
float[6] |
Extinction for DECam filters ugrizY |
|
float[4] |
Extinction for WISE bands W1,W2,W3,W4 |
|
float |
5-sigma PSF detection depth in AB mag, using PsfEx PSF model |
|
float |
5-sigma galaxy (0.45" round exp) detection depth in AB mag |
|
float |
5-sigma PSF detection depth in AB mag, using Gaussian PSF approximation (using |
|
float |
5-sigma galaxy detection depth in AB mag, using Gaussian PSF approximation |
ccds-annotated-nondecals.fits.gz
As for ccds-annotated-decals.fits.gz, but for areas of the sky covered with DECam by surveys other than DECaLS.
ccds-annotated-extra.fits.gz
As for ccds-annotated-nondecals.fits.gz but for some additional regions of the sky. The "nondecals" and "extra" ccds files are currently split up simply to make them easier to store on github.
dr3-depth.fits.gz
A concatenation of the depth histograms for each brick, from the
coadd/*/*/*-depth.fits tables. These histograms describe the
number of pixels in each brick with a 5-sigma AB depth in the given
magnitude bin.
dr3-depth-summary.fits.gz
A summary of the depth histogram of the whole DR3 survey. FITS table with the following columns:
Column |
Type |
Description |
|---|---|---|
|
float |
Lower limit of the depth bin |
|
float |
Upper limit of the depth bin |
|
int |
Number of pixels in histogram for point source depth in g band |
|
int |
Number of pixels in histogram for canonical galaxy depth in g band |
|
int |
Number of pixels in histogram for point source depth in r band |
|
int |
Number of pixels in histogram for canonical galaxy depth in r band |
|
int |
Number of pixels in histogram for point source depth in z band |
|
int |
Number of pixels in histogram for canonical galaxy depth in z band |
The depth histogram goes from magnitude of 20.1 to 24.9 in steps of 0.1 mag. The first and last bins are "catch-all" bins: 0 to 20.1 and 24.9 to 100, respectively. The histograms count the number of pixels in each brick's unique area with the given depth. These numbers can be turned into values in square degrees using the brick pixel area of 0.262 arcseconds square. These depth estimates take into account the small-scale masking (cosmic rays, edges, saturated pixels) and detailed PSF model.
External Files
- The DECaLS photometric catalogs have been matched to the following external spectroscopic files from the SDSS, which can be accessed through the web at:
-
https://portal.nersc.gov/cfs/cosmo/data/legacysurvey/dr3/external/
- Or on the NERSC computers (for collaborators) at:
-
/global/cfs/cdirs/cosmo/data/legacysurvey/dr3/external/
Each row of each external-match file contains the full record of the nearest object in our Tractored survey
imaging catalogs, matched at a radius of 1.0 arcsec. The structure of the imaging catalog files
is documented on the catalogs page. If no match is found, then OBJID is set to -1.
survey-dr3-specObj-dr13.fits
HDU1 (the only HDU) contains Tractored survey photometry that is row-by-row-matched to the SDSS DR13 spectrosopic pipeline file such that the photometric parameters in row "N" of survey-dr3-specObj-dr13.fits matches the spectroscopic parameters in row "N" of specObj-dr13.fits. The spectroscopic file is documented in the SDSS DR13 data model for specObj-dr13.fits.
survey-dr3-DR12Q.fits
HDU1 (the only HDU) contains Tractored survey photometry that is row-by-row-matched to the SDSS DR12 visually inspected quasar catalog (Paris et al. 2017) such that the photometric parameters in row "N" of survey-dr3-DR12Q.fits matches the spectroscopic parameters in row "N" of DR12Q.fits. The spectroscopic file is documented in the SDSS DR12 data model for DR12Q.fits.
survey-dr3-Superset_DR12Q.fits
HDU1 (the only HDU) contains Tractored survey photometry that is row-by-row-matched to the superset of all SDSS DR12 spectroscopically confirmed objects that were visually inspected as possible quasars (Paris et al. 2017) such that the photometric parameters in row "N" of survey-dr3-Superset_DR12Q.fits matches the spectroscopic parameters in row "N" of Superset_DR12Q.fits. The spectroscopic file is documented in the SDSS DR12 data model for Superset_DR12Q.fits.
survey-dr3-DR7Q.fits
HDU1 (the only HDU) contains Tractored survey photometry that is row-by-row-matched to the SDSS DR7 visually inspected quasar catalog (Schneider et al. 2010) such that the photometric parameters in row "N" of survey-dr3-DR7Q.fits matches the spectroscopic parameters in row "N" of DR7qso.fit. The spectroscopic file is documented on the DR7 quasar catalog description page.
Tractor Catalogs
In the file listings outlined below:
brick names (<brick>) have the format <AAAa>c<BBB> where A, a and B are digits and c is either the letter m or p (e.g. 1126p222). The names are derived from the (RA, Dec) center of the brick. The first four digits are \(int(RA \times 10)\), followed by p to denote positive Dec or m to denote negative Dec ("plus"/"minus"), followed by three digits of \(int(Dec \times 10)\). For example the case 1126p222 corresponds to (RA, Dec) = (112.6°, +22.2°).
<brickmin> and <brickmax> denote the corners of a rectangle in (RA, Dec). Explicitly, <brickmin> has the format <AAA>c<BBB> where <AAA> denotes three digits of the minimum \(int(RA)\) in degrees, <BBB> denotes three digits of the minimum \(int(Dec)\) in degrees, and c uses the p/m ("plus"/"minus") format outlined in the previous bullet point. The convention is similar for <brickmax> and the maximum RA and Dec. For example 000m010-010m005 would correspond to a survey region limited by \(0^\circ \leq RA < 10^\circ\) and \(-10^\circ \leq Dec < -5^\circ\).
sub-directories are listed by the RA of the brick center, and sub-directory names (<AAA>) correspond to RA. For example 002 corresponds to brick centers between an RA of 2° and an RA of 3°.
<filter> denotes the g, r or z band, using the corresponding letter.
Note that it is not possible to go from a brick name back to an exact (RA, Dec) center (the bricks are not on 0.1° grid lines). The exact brick center for a given brick name can be derived from columns in the survey-bricks.fits.gz file (i.e. brickname, ra, dec).
tractor/<AAA>/tractor-<brick>.fits
FITS binary table containing Tractor photometry, documented on the catalogs page.
Users interested in database access to the Tractor Catalogs can contact the Astro Data Lab [1] at datalab@noirlab.edu.
Sweep Catalogs
sweep/3.1/sweep-<brickmin>-<brickmax>.fits
Note that previous versions of the sweeps are available in sweep/3.0/sweep-<brickmin>-<brickmax>.fits for reasons detailed on the known issues page.
The sweeps are light-weight FITS binary tables (containing a subset of the most commonly used
Tractor measurements) of all the Tractor catalogs for which BRICK_PRIMARY==T in rectangles of RA, Dec. Includes:
Name |
Type |
Units |
Description |
|---|---|---|---|
|
int32 |
Brick ID [1,662174] |
|
|
char |
Name of brick, encoding the brick sky position, eg "1126p222" near RA=112.6, Dec=+22.2 |
|
|
int32 |
Catalog object number within this brick; a unique identifier hash is |
|
|
char[4] |
Morphological model: "PSF"=stellar, "SIMP"="simple galaxy" = 0.45" round EXP galaxy, "EXP"=exponential, "DEV"=deVauc, "COMP"=composite. Note that in some FITS readers, a trailing space may be appended for "PSF ", "EXP " and "DEV " since the column data type is a 4-character string |
|
|
float64 |
deg |
Right ascension at equinox J2000 |
|
float32 |
1/deg² |
Inverse variance of RA (no cosine term!), excluding astrometric calibration errors |
|
float64 |
deg |
Declination at equinox J2000 |
|
float32 |
1/deg² |
Inverse variance of DEC, excluding astrometric calibration errors |
|
float32[6] |
nanomaggies |
DECam model flux in ugrizY |
|
float32[6] |
1/nanomaggies² |
Inverse variance oF DECAM_FLUX |
|
float32[6] |
Galactic transmission in ugrizY filters in linear units [0,1] |
|
|
uint8[6] |
Number of images that contribute to the central pixel in each filter for this object (not profile-weighted) |
|
|
float32[6] |
Profile-weighted χ² of model fit normalized by the number of pixels |
|
|
float32[6] |
arcsec |
Weighted average PSF FWHM per band |
|
float32[6] |
Profile-weight fraction of the flux from other sources divided by the total flux (typically [0,1]) |
|
|
float32[6] |
Profile-weighted fraction of pixels masked from all observations of this object, strictly between [0,1] |
|
|
float32[6] |
Fraction of a source's flux within the blob, near unity for real sources |
|
|
float32[6] |
1/nanomaggies² |
For a \(5\sigma\) point source detection limit, \(5/\sqrt(\mathrm{DECAM\_DEPTH})\) gives flux in nanomaggies and \(-2.5[\log_{10}(5 / \sqrt(\mathrm{DECAM\_DEPTH})) - 9]\) gives corresponding magnitude |
|
float32[6] |
1/nanomaggies² |
As for DECAM_DEPTH but for a galaxy (0.45" exp, round) detection sensitivity |
|
boolean |
True for objects whose center is on the brick; less strong of a cut than BRICK_PRIMARY |
|
|
int16[6] |
Bitwise mask set if the central pixel from any image satisfy each condition |
|
|
int16[6] |
Bitwise mask set if the central pixel from all images satisfy each condition |
|
|
float32[4] |
nanomaggies |
WISE model flux in W1,W2,W3,W4 |
|
float32[4] |
1/nanomaggies² |
Inverse variance of WISE_FLUX |
|
float32[4] |
Galactic transmission in W1,W2,W3,W4 filters in linear units [0,1] |
|
|
int16[4] |
Number of images that contribute to the central pixel in each filter for this object (not profile-weighted) |
|
|
float32[4] |
Profile-weight fraction of the flux from other sources divided by the total flux (typically [0,1]) |
|
|
float32[4] |
Profile-weighted χ² of model fit normalized by the number of pixels |
|
|
float32[5] |
Difference in χ² between successively more-complex model fits: PSF, SIMPle, DEV, EXP, COMP. The difference is versus no source. |
|
|
float32 |
Fraction of model in deVauc [0,1] |
|
|
boolean |
Is there a Tycho-2 (very bright) star in this blob? |
|
|
float32 |
arcsec |
Half-light radius of deVaucouleurs model (>0) |
|
float32 |
1/arcsec² |
Inverse variance of SHAPEDEV_R |
|
float32 |
Ellipticity component 1 (documented on the catalogs page) |
|
|
float32 |
Inverse variance of SHAPEDEV_E1 |
|
|
float32 |
Ellipticity component 2 (documented on the catalogs page) |
|
|
float32 |
Inverse variance of SHAPEDEV_E2 |
|
|
float32 |
arcsec |
Half-light radius of exponential model (>0) |
|
float32 |
1/arcsec² |
Inverse variance of R_EXP |
|
float32 |
Ellipticity component 1 (documented on the catalogs page) |
|
|
float32 |
Inverse variance of SHAPEEXP_E1 |
|
|
float32 |
Ellipticity component 2 (documented on the catalogs page) |
|
|
float32 |
Inverse variance of SHAPEEXP_E2 |
|
|
float32 |
mag |
Galactic extinction E(B-V) reddening from SFD98, used to compute DECAM_MW_TRANSMISSION and WISE_MW_TRANSMISSION |
Image Stacks
Image stacks are on tangent-plane (WCS TAN) projections, 3600 × 3600 pixels, at 0.262 arcseconds per pixel.
coadd/<AAA>/<brick>/legacysurvey-<brick>-ccds.fits
FITS binary table with the list of CCD images that were used in this brick.
Same columns as survey-ccds-*.fits.gz, plus:
Column |
Type |
Description |
|---|---|---|
|
int16 |
Minimum x image coordinate overlapping this brick |
|
int16 |
Maximum x image coordinate overlapping this brick |
|
int16 |
Minimum y image coordinate overlapping this brick |
|
int16 |
Maximum y image coordinate overlapping this brick |
|
int16 |
Minimum x brick image coordinate overlapped by this image |
|
int16 |
Maximum x brick image coordinate overlapped by this image |
|
int16 |
Minimum y brick image coordinate overlapped by this image |
|
int16 |
Maximum y brick image coordinate overlapped by this image |
|
float |
Same as |
|
float |
Same as |
|
char[6] |
Community Pipeline (CP) version |
|
char[16] |
Git version of the sky calibration code |
|
char[16] |
Git version of the WCS calibration code |
|
char[16] |
Git version of the PSF calibration code |
|
char[16] |
CP version of the input to sky calibration |
|
char[16] |
CP version of the input to WCS calibration |
|
char[16] |
CP version of the input to PSF calibration |
coadd/<AAA>/<brick>/legacysurvey-<brick>-image-<filter>.fits
Stacked image centered on a brick location covering 0.25° × 0.25°. The primary HDU contains the coadded image (inverse-variance weighted coadd), in units of nanomaggies per pixel.
NOTE: These are not the images used by Tractor, which operates on the single-epoch images.
NOTE: that these images are resampled using Lanczos-3 resampling.
coadd/<AAA>/<brick>/legacysurvey-<brick>-invvar-<filter>.fits
Corresponding stacked inverse variance image based on the sum of the inverse-variances of the individual input images in units of 1/(nanomaggies)² per pixel.
NOTE: These are not the inverse variance maps used by Tractor, which operates on the single-epoch images.
coadd/<AAA>/<brick>/legacysurvey-<brick>-model-<filter>.fits.gz
Stacked model image centered on a brick location covering 0.25° × 0.25°.
The Tractor's idea of what the coadded images should look like; the Tractor's model prediction.
coadd/<AAA>/<brick>/legacysurvey-<brick>-chi2-<filter>.fits
Stacked χ² image, which is approximately the summed χ² values from the single-epoch images.
coadd/<AAA>/<brick>/legacysurvey-<brick>-depth-<filter>.fits.gz
Stacked depth map in units of the point-source flux inverse-variance at each pixel.
The 5σ point-source depth can be computed as 5 / sqrt(depth_ivar) .
coadd/<AAA>/<brick>/legacysurvey-<brick>-galdepth-<filter>.fits.gz
Stacked depth map in units of the canonical galaxy flux inverse-variance at each pixel. The canonical galaxy is an exponential profile with effective radius 0.45" and round shape.
The 5σ galaxy depth can be computed as 5 / sqrt(galdepth_ivar) .
coadd/<AAA>/<brick>/legacysurvey-<brick>-nexp-<filter>.fits.gz
Number of exposures contributing to each pixel of the stacked images.
coadd/<AAA>/<brick>/legacysurvey-<brick>-image.jpg
JPEG image of calibrated image using the g,r,z filters as the colors.
coadd/<AAA>/<brick>/legacysurvey-<brick>-model.jpg
JPEG image of the Tractor's model image using the g,r,z filters as the colors.
coadd/<AAA>/<brick>/legacysurvey-<brick>-resid.jpg
JPEG image of the residual image (data minus model) using the g,r,z filters as the colors.
Raw Data
See the raw data page.
Footnotes