Input - GC mock Data Catalog Product¶
$SetSchemaPath le3/gc/inp/euc-le3-gc-cat-data-in.xsd
Data Product Name¶
$PrintDataProductName
Data Product Custodian¶
$PrintDataProductCustodian
Name of the Schema File¶
$PrintSchemaFilename
Last Edited for DPDD Version¶
1.1
Processing Elements Creating / Updating / Using the Product¶
Creators:
Created by hand
External tool.
Consumers:
LE3_GC_2PCF
LE3_GC_PK
LE3_GC_3PCF
LE3_GC_BK
Processing function using the data product¶
LE3_GC_TwoPointCorrelation
LE3_GC_PowerSpectrum
LE3_GC_ThreePointCorrelation
LE3_GC_Bispectrum
Proposed for inclusion in EAS/SAS¶
This product is proposed for inclusion in the SAS: Yes
Is going to be used by the SWG-GC for their scientific analysis.
Data Product Elements¶
$PrintDataProductElements
Detailed Description of the Data Product¶
This product is a mock catalog simulating the SEL-ID product and containing only the quantities needed for all the Galaxy Clustering Processing Functions. The purpose of this catalog is to provide test datasets to be used to verify and validate the processing functions. In the EUCLID LE3 pipeline, this product is replaced by the SEL-ID product.
Note
The density column in the FITS table is used only for testing purposes and is not expected to be provided by SEL-ID
XML Keywords¶
The product contains the following keywords:
- Instrument
Identifier of the PF using the mock catalog
- CatalogID
Type of mock catalog
- CoordType
Coordinates used in the mock catalog [CARTESIAN, EQUATORIAL, PSEUDO_EQUATORIAL]
- AngleType
Angular scales used [DEGREES, RADIANS]
- ReleaseName
Name of the release using the product
- Catalog
FITS file with input catalog
Catalog FITS file¶
The FITS type le3.gc.cat.test contains one binary table HDU named CATALOG with the following structure:
$PrintHDUTableContents fit/euc-le3-gc.xml le3.gc.cat.test CATALOG
Note
The values within the COORD_1, COORD_2 and COORD_3 columns depends on the COORD keyword. The CARTESIAN configuration uses X, Y, Z Cartesian distances. The EQUATORIAL configuration uses RA and Dec angles and the radial distance. The PSEUDO_EQUATORIAL configuration uses RA and Dec angles and the Redshift (z) of the object.