Add files using upload-large-folder tool

.gitattributes

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 GLOBAL/FLOAT_IMG/GLOBAL/FLOAT_IMG/FLOAT_IMG/256/SLDEM2015_256_60S_60N_000_360_FLOAT.IMG filter=lfs diff=lfs merge=lfs -text
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+GLOBAL/FLOAT_IMG/GLOBAL/FLOAT_IMG/FLOAT_IMG/DATA_QUALITY/SLDEM2015_DATA_QUALITY_FLOAT.IMG filter=lfs diff=lfs merge=lfs -text
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TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/045_090/SLDEM2015_512_30N_60N_045_090_FLOAT_gdalinfo.json

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+      "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_045_090_FLOAT\"",
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TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/045_090/SLDEM2015_512_30N_60N_045_090_FLOAT_gdalinfo.txt

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+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/045_090/SLDEM2015_512_30N_60N_045_090_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/045_090/SLDEM2015_512_30N_60N_045_090_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
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+        PARAMETER["False easting",0,
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+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
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+  CENTER_FILTER_WAVELENGTH=
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+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30N_60N_045_090_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
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TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL

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+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30N_60N_090_135_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30N_60N_090_135_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30N_60N_090_135_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 3.531
+    MINIMUM               = -6.858
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 60 <deg>
+ MINIMUM_LATITUDE             = 30 <deg>
+ WESTERNMOST_LONGITUDE        = 90 <deg>
+ EASTERNMOST_LONGITUDE        = 135 <deg>
+ LINE_PROJECTION_OFFSET       = 30719.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = 46079.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
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+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.IMG"
+  ],
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+    23040,
+    15360
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+  "coordinateSystem":{
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+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
+  "geoTransform":[
+    -2729101.5383040001615882,
+    59.2252938,
+    0.0,
+    1819401.0255360000301152,
+    0.0,
+    -59.2252938
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+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_090_135_FLOAT\"",
+      "PRODUCT_TYPE":"",
+      "SPACECRAFT_NAME":"",
+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
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+  },
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+  },
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+    "type":"Polygon",
+    "coordinates":[
+      [
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+      "offset":1737.4,
+      "scale":1.0,
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+  "stac":{
+    "proj:shape":[
+      23040,
+      15360
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+    "proj:epsg":null,
+    "proj:projjson":{
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+            "name":"Reference_Meridian",
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+        "coordinate_system":{
+          "subtype":"ellipsoidal",
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+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
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+            "value":0,
+            "unit":"degree",
+            "id":{
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+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
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+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
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+            }
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+            "value":0,
+            "unit":"metre",
+            "id":{
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+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
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+      -2729101.5383040001615882,
+      59.2252938,
+      0.0,
+      1819401.0255360000301152,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
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+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (-2729101.538304000161588,1819401.025536000030115)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30N_60N_090_135_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
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+Lower Left  (-2729101.538,  909700.513) ( 90d 0' 0.00"E, 30d 0' 0.00"N)
+Upper Right (-1364550.769, 1819401.026) (135d 0' 0.00"E, 60d 0' 0.00"N)
+Lower Right (-1364550.769,  909700.513) (135d 0' 0.00"E, 30d 0' 0.00"N)
+Center      (-2046826.154, 1364550.769) (112d30' 0.00"E, 45d 0' 0.00"N)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30N_60N_135_180_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30N_60N_135_180_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30N_60N_135_180_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 5.629
+    MINIMUM               = -3.969
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 60 <deg>
+ MINIMUM_LATITUDE             = 30 <deg>
+ WESTERNMOST_LONGITUDE        = 135 <deg>
+ EASTERNMOST_LONGITUDE        = 180 <deg>
+ LINE_PROJECTION_OFFSET       = 30719.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = 23039.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
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+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
+  "geoTransform":[
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+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
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+      "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_135_180_FLOAT\"",
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+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
+    }
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+  },
+  "bands":[
+    {
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+      "block":[
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+      "type":"Float32",
+      "colorInterpretation":"Undefined",
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+      "offset":1737.4,
+      "scale":1.0,
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+    }
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+      15360
+    ],
+    "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "proj:epsg":null,
+    "proj:projjson":{
+      "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json",
+      "type":"ProjectedCRS",
+      "name":"SIMPLE_CYLINDRICAL MOON",
+      "base_crs":{
+        "name":"GCS_MOON",
+        "datum":{
+          "type":"GeodeticReferenceFrame",
+          "name":"D_MOON",
+          "ellipsoid":{
+            "name":"MOON",
+            "radius":1737400
+          },
+          "prime_meridian":{
+            "name":"Reference_Meridian",
+            "longitude":0
+          }
+        },
+        "coordinate_system":{
+          "subtype":"ellipsoidal",
+          "axis":[
+            {
+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
+        "method":{
+          "name":"Equidistant Cylindrical",
+          "id":{
+            "authority":"EPSG",
+            "code":1028
+          }
+        },
+        "parameters":[
+          {
+            "name":"Latitude of 1st standard parallel",
+            "value":0,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8823
+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
+              "authority":"EPSG",
+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8802
+            }
+          },
+          {
+            "name":"False easting",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
+    "proj:transform":[
+      -1364550.7691520000807941,
+      59.2252938,
+      0.0,
+      1819401.0255360000301152,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
+      {
+        "data_type":"float32",
+        "nodata":null,
+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (-1364550.769152000080794,1819401.025536000030115)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30N_60N_135_180_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
+Upper Left  (-1364550.769, 1819401.026) (135d 0' 0.00"E, 60d 0' 0.00"N)
+Lower Left  (-1364550.769,  909700.513) (135d 0' 0.00"E, 30d 0' 0.00"N)
+Upper Right (       0.000, 1819401.026) (180d 0' 0.00"E, 60d 0' 0.00"N)
+Lower Right (       0.000,  909700.513) (180d 0' 0.00"E, 30d 0' 0.00"N)
+Center      ( -682275.385, 1364550.769) (157d30' 0.00"E, 45d 0' 0.00"N)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30N_60N_180_225_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30N_60N_180_225_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30N_60N_180_225_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 6.991
+    MINIMUM               = -3.622
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 60 <deg>
+ MINIMUM_LATITUDE             = 30 <deg>
+ WESTERNMOST_LONGITUDE        = 180 <deg>
+ EASTERNMOST_LONGITUDE        = 225 <deg>
+ LINE_PROJECTION_OFFSET       = 30719.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = -0.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
+    "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
+  "geoTransform":[
+    -0.0,
+    59.2252938,
+    0.0,
+    1819401.0255360000301152,
+    0.0,
+    -59.2252938
+  ],
+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_180_225_FLOAT\"",
+      "PRODUCT_TYPE":"",
+      "SPACECRAFT_NAME":"",
+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
+    }
+  },
+  "cornerCoordinates":{
+    "upperLeft":[
+      0.0,
+      1819401.026
+    ],
+    "lowerLeft":[
+      0.0,
+      909700.513
+    ],
+    "lowerRight":[
+      1364550.769,
+      909700.513
+    ],
+    "upperRight":[
+      1364550.769,
+      1819401.026
+    ],
+    "center":[
+      682275.385,
+      1364550.769
+    ]
+  },
+  "extent":{
+    "type":"Polygon",
+    "coordinates":[
+      [
+        [
+          180.0,
+          60.0
+        ],
+        [
+          180.0,
+          30.0
+        ],
+        [
+          -135.0,
+          30.0
+        ],
+        [
+          -135.0,
+          60.0
+        ],
+        [
+          180.0,
+          60.0
+        ]
+      ]
+    ]
+  },
+  "bands":[
+    {
+      "band":1,
+      "block":[
+        23040,
+        1
+      ],
+      "type":"Float32",
+      "colorInterpretation":"Undefined",
+      "noDataValue":-3.4028227e+38,
+      "offset":1737.4,
+      "scale":1.0,
+      "metadata":{}
+    }
+  ],
+  "stac":{
+    "proj:shape":[
+      23040,
+      15360
+    ],
+    "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "proj:epsg":null,
+    "proj:projjson":{
+      "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json",
+      "type":"ProjectedCRS",
+      "name":"SIMPLE_CYLINDRICAL MOON",
+      "base_crs":{
+        "name":"GCS_MOON",
+        "datum":{
+          "type":"GeodeticReferenceFrame",
+          "name":"D_MOON",
+          "ellipsoid":{
+            "name":"MOON",
+            "radius":1737400
+          },
+          "prime_meridian":{
+            "name":"Reference_Meridian",
+            "longitude":0
+          }
+        },
+        "coordinate_system":{
+          "subtype":"ellipsoidal",
+          "axis":[
+            {
+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
+        "method":{
+          "name":"Equidistant Cylindrical",
+          "id":{
+            "authority":"EPSG",
+            "code":1028
+          }
+        },
+        "parameters":[
+          {
+            "name":"Latitude of 1st standard parallel",
+            "value":0,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8823
+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
+              "authority":"EPSG",
+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8802
+            }
+          },
+          {
+            "name":"False easting",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
+    "proj:transform":[
+      -0.0,
+      59.2252938,
+      0.0,
+      1819401.0255360000301152,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
+      {
+        "data_type":"float32",
+        "nodata":null,
+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (-0.000000000000000,1819401.025536000030115)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30N_60N_180_225_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
+Upper Left  (       0.000, 1819401.026) (180d 0' 0.00"E, 60d 0' 0.00"N)
+Lower Left  (       0.000,  909700.513) (180d 0' 0.00"E, 30d 0' 0.00"N)
+Upper Right ( 1364550.769, 1819401.026) (135d 0' 0.00"W, 60d 0' 0.00"N)
+Lower Right ( 1364550.769,  909700.513) (135d 0' 0.00"W, 30d 0' 0.00"N)
+Center      (  682275.385, 1364550.769) (157d30' 0.00"W, 45d 0' 0.00"N)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30N_60N_225_270_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30N_60N_225_270_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30N_60N_225_270_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 6.350
+    MINIMUM               = -4.852
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 60 <deg>
+ MINIMUM_LATITUDE             = 30 <deg>
+ WESTERNMOST_LONGITUDE        = 225 <deg>
+ EASTERNMOST_LONGITUDE        = 270 <deg>
+ LINE_PROJECTION_OFFSET       = 30719.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = -23040.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
+    "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
+  "geoTransform":[
+    1364550.7691520000807941,
+    59.2252938,
+    0.0,
+    1819401.0255360000301152,
+    0.0,
+    -59.2252938
+  ],
+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_225_270_FLOAT\"",
+      "PRODUCT_TYPE":"",
+      "SPACECRAFT_NAME":"",
+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
+    }
+  },
+  "cornerCoordinates":{
+    "upperLeft":[
+      1364550.769,
+      1819401.026
+    ],
+    "lowerLeft":[
+      1364550.769,
+      909700.513
+    ],
+    "lowerRight":[
+      2729101.538,
+      909700.513
+    ],
+    "upperRight":[
+      2729101.538,
+      1819401.026
+    ],
+    "center":[
+      2046826.154,
+      1364550.769
+    ]
+  },
+  "extent":{
+    "type":"Polygon",
+    "coordinates":[
+      [
+        [
+          -135.0,
+          60.0
+        ],
+        [
+          -135.0,
+          30.0
+        ],
+        [
+          -90.0,
+          30.0
+        ],
+        [
+          -90.0,
+          60.0
+        ],
+        [
+          -135.0,
+          60.0
+        ]
+      ]
+    ]
+  },
+  "bands":[
+    {
+      "band":1,
+      "block":[
+        23040,
+        1
+      ],
+      "type":"Float32",
+      "colorInterpretation":"Undefined",
+      "noDataValue":-3.4028227e+38,
+      "offset":1737.4,
+      "scale":1.0,
+      "metadata":{}
+    }
+  ],
+  "stac":{
+    "proj:shape":[
+      23040,
+      15360
+    ],
+    "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "proj:epsg":null,
+    "proj:projjson":{
+      "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json",
+      "type":"ProjectedCRS",
+      "name":"SIMPLE_CYLINDRICAL MOON",
+      "base_crs":{
+        "name":"GCS_MOON",
+        "datum":{
+          "type":"GeodeticReferenceFrame",
+          "name":"D_MOON",
+          "ellipsoid":{
+            "name":"MOON",
+            "radius":1737400
+          },
+          "prime_meridian":{
+            "name":"Reference_Meridian",
+            "longitude":0
+          }
+        },
+        "coordinate_system":{
+          "subtype":"ellipsoidal",
+          "axis":[
+            {
+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
+        "method":{
+          "name":"Equidistant Cylindrical",
+          "id":{
+            "authority":"EPSG",
+            "code":1028
+          }
+        },
+        "parameters":[
+          {
+            "name":"Latitude of 1st standard parallel",
+            "value":0,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8823
+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
+              "authority":"EPSG",
+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8802
+            }
+          },
+          {
+            "name":"False easting",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
+    "proj:transform":[
+      1364550.7691520000807941,
+      59.2252938,
+      0.0,
+      1819401.0255360000301152,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
+      {
+        "data_type":"float32",
+        "nodata":null,
+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (1364550.769152000080794,1819401.025536000030115)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30N_60N_225_270_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
+Upper Left  ( 1364550.769, 1819401.026) (135d 0' 0.00"W, 60d 0' 0.00"N)
+Lower Left  ( 1364550.769,  909700.513) (135d 0' 0.00"W, 30d 0' 0.00"N)
+Upper Right ( 2729101.538, 1819401.026) ( 90d 0' 0.00"W, 60d 0' 0.00"N)
+Lower Right ( 2729101.538,  909700.513) ( 90d 0' 0.00"W, 30d 0' 0.00"N)
+Center      ( 2046826.154, 1364550.769) (112d30' 0.00"W, 45d 0' 0.00"N)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30N_60N_270_315_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30N_60N_270_315_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30N_60N_270_315_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 2.114
+    MINIMUM               = -5.292
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 60 <deg>
+ MINIMUM_LATITUDE             = 30 <deg>
+ WESTERNMOST_LONGITUDE        = 270 <deg>
+ EASTERNMOST_LONGITUDE        = 315 <deg>
+ LINE_PROJECTION_OFFSET       = 30719.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = -46080.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
+    "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
+  "geoTransform":[
+    2729101.5383040001615882,
+    59.2252938,
+    0.0,
+    1819401.0255360000301152,
+    0.0,
+    -59.2252938
+  ],
+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_270_315_FLOAT\"",
+      "PRODUCT_TYPE":"",
+      "SPACECRAFT_NAME":"",
+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
+    }
+  },
+  "cornerCoordinates":{
+    "upperLeft":[
+      2729101.538,
+      1819401.026
+    ],
+    "lowerLeft":[
+      2729101.538,
+      909700.513
+    ],
+    "lowerRight":[
+      4093652.307,
+      909700.513
+    ],
+    "upperRight":[
+      4093652.307,
+      1819401.026
+    ],
+    "center":[
+      3411376.923,
+      1364550.769
+    ]
+  },
+  "extent":{
+    "type":"Polygon",
+    "coordinates":[
+      [
+        [
+          -90.0,
+          60.0
+        ],
+        [
+          -90.0,
+          30.0
+        ],
+        [
+          -45.0,
+          30.0
+        ],
+        [
+          -45.0,
+          60.0
+        ],
+        [
+          -90.0,
+          60.0
+        ]
+      ]
+    ]
+  },
+  "bands":[
+    {
+      "band":1,
+      "block":[
+        23040,
+        1
+      ],
+      "type":"Float32",
+      "colorInterpretation":"Undefined",
+      "noDataValue":-3.4028227e+38,
+      "offset":1737.4,
+      "scale":1.0,
+      "metadata":{}
+    }
+  ],
+  "stac":{
+    "proj:shape":[
+      23040,
+      15360
+    ],
+    "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "proj:epsg":null,
+    "proj:projjson":{
+      "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json",
+      "type":"ProjectedCRS",
+      "name":"SIMPLE_CYLINDRICAL MOON",
+      "base_crs":{
+        "name":"GCS_MOON",
+        "datum":{
+          "type":"GeodeticReferenceFrame",
+          "name":"D_MOON",
+          "ellipsoid":{
+            "name":"MOON",
+            "radius":1737400
+          },
+          "prime_meridian":{
+            "name":"Reference_Meridian",
+            "longitude":0
+          }
+        },
+        "coordinate_system":{
+          "subtype":"ellipsoidal",
+          "axis":[
+            {
+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
+        "method":{
+          "name":"Equidistant Cylindrical",
+          "id":{
+            "authority":"EPSG",
+            "code":1028
+          }
+        },
+        "parameters":[
+          {
+            "name":"Latitude of 1st standard parallel",
+            "value":0,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8823
+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
+              "authority":"EPSG",
+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8802
+            }
+          },
+          {
+            "name":"False easting",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
+    "proj:transform":[
+      2729101.5383040001615882,
+      59.2252938,
+      0.0,
+      1819401.0255360000301152,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
+      {
+        "data_type":"float32",
+        "nodata":null,
+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (2729101.538304000161588,1819401.025536000030115)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30N_60N_270_315_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
+Upper Left  ( 2729101.538, 1819401.026) ( 90d 0' 0.00"W, 60d 0' 0.00"N)
+Lower Left  ( 2729101.538,  909700.513) ( 90d 0' 0.00"W, 30d 0' 0.00"N)
+Upper Right ( 4093652.307, 1819401.026) ( 45d 0' 0.00"W, 60d 0' 0.00"N)
+Lower Right ( 4093652.307,  909700.513) ( 45d 0' 0.00"W, 30d 0' 0.00"N)
+Center      ( 3411376.923, 1364550.769) ( 67d30' 0.00"W, 45d 0' 0.00"N)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30N_60N_315_360_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30N_60N_315_360_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30N_60N_315_360_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 1.159
+    MINIMUM               = -5.092
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 60 <deg>
+ MINIMUM_LATITUDE             = 30 <deg>
+ WESTERNMOST_LONGITUDE        = 315 <deg>
+ EASTERNMOST_LONGITUDE        = 360 <deg>
+ LINE_PROJECTION_OFFSET       = 30719.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = -69120.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
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+    "dataAxisToSRSAxisMapping":[
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+      2
+    ]
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+    1819401.0255360000301152,
+    0.0,
+    -59.2252938
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+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_315_360_FLOAT\"",
+      "PRODUCT_TYPE":"",
+      "SPACECRAFT_NAME":"",
+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
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+  "stac":{
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+    "proj:epsg":null,
+    "proj:projjson":{
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+              "name":"Latitude",
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+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
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+          ]
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+            "unit":"degree",
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+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
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+            "unit":"metre",
+            "id":{
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+              "code":8806
+            }
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+            "value":0,
+            "unit":"metre",
+            "id":{
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+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
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+        "scale":null,
+        "offset":null
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+      {
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+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (4093652.307456000242382,1819401.025536000030115)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30N_60N_315_360_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
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+Lower Left  ( 4093652.307,  909700.513) ( 45d 0' 0.00"W, 30d 0' 0.00"N)
+Upper Right ( 5458203.077, 1819401.026) (  0d 0' 0.00"E, 60d 0' 0.00"N)
+Lower Right ( 5458203.077,  909700.513) (  0d 0' 0.00"E, 30d 0' 0.00"N)
+Center      ( 4775927.692, 1364550.769) ( 22d30' 0.00"W, 45d 0' 0.00"N)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30S_00S_000_045_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30S_00S_000_045_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30S_00S_000_045_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 4.832
+    MINIMUM               = -4.944
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 0 <deg>
+ MINIMUM_LATITUDE             = -30 <deg>
+ WESTERNMOST_LONGITUDE        = 0 <deg>
+ EASTERNMOST_LONGITUDE        = 45 <deg>
+ LINE_PROJECTION_OFFSET       = -0.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = 92159.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
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+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
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+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
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+      "INSTRUMENT_ID":"\"LOLA\"",
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+  "bands":[
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+      "offset":1737.4,
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+      15360
+    ],
+    "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "proj:epsg":null,
+    "proj:projjson":{
+      "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json",
+      "type":"ProjectedCRS",
+      "name":"SIMPLE_CYLINDRICAL MOON",
+      "base_crs":{
+        "name":"GCS_MOON",
+        "datum":{
+          "type":"GeodeticReferenceFrame",
+          "name":"D_MOON",
+          "ellipsoid":{
+            "name":"MOON",
+            "radius":1737400
+          },
+          "prime_meridian":{
+            "name":"Reference_Meridian",
+            "longitude":0
+          }
+        },
+        "coordinate_system":{
+          "subtype":"ellipsoidal",
+          "axis":[
+            {
+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
+        "method":{
+          "name":"Equidistant Cylindrical",
+          "id":{
+            "authority":"EPSG",
+            "code":1028
+          }
+        },
+        "parameters":[
+          {
+            "name":"Latitude of 1st standard parallel",
+            "value":0,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8823
+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
+              "authority":"EPSG",
+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8802
+            }
+          },
+          {
+            "name":"False easting",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
+    "proj:transform":[
+      -5458203.0766080003231764,
+      59.2252938,
+      0.0,
+      0.0,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
+      {
+        "data_type":"float32",
+        "nodata":null,
+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (-5458203.076608000323176,0.000000000000000)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30S_00S_000_045_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
+Upper Left  (-5458203.077,       0.000) (  0d 0' 0.00"W,  0d 0' 0.01"N)
+Lower Left  (-5458203.077, -909700.513) (  0d 0' 0.00"W, 30d 0' 0.00"S)
+Upper Right (-4093652.307,       0.000) ( 45d 0' 0.00"E,  0d 0' 0.01"N)
+Lower Right (-4093652.307, -909700.513) ( 45d 0' 0.00"E, 30d 0' 0.00"S)
+Center      (-4775927.692, -454850.256) ( 22d30' 0.00"E, 15d 0' 0.00"S)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30S_00S_045_090_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30S_00S_045_090_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30S_00S_045_090_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 3.300
+    MINIMUM               = -5.887
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 0 <deg>
+ MINIMUM_LATITUDE             = -30 <deg>
+ WESTERNMOST_LONGITUDE        = 45 <deg>
+ EASTERNMOST_LONGITUDE        = 90 <deg>
+ LINE_PROJECTION_OFFSET       = -0.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = 69119.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
+    "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
+  "geoTransform":[
+    -4093652.3074560002423823,
+    59.2252938,
+    0.0,
+    0.0,
+    0.0,
+    -59.2252938
+  ],
+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30S_00S_045_090_FLOAT\"",
+      "PRODUCT_TYPE":"",
+      "SPACECRAFT_NAME":"",
+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
+    }
+  },
+  "cornerCoordinates":{
+    "upperLeft":[
+      -4093652.307,
+      0.0
+    ],
+    "lowerLeft":[
+      -4093652.307,
+      -909700.513
+    ],
+    "lowerRight":[
+      -2729101.538,
+      -909700.513
+    ],
+    "upperRight":[
+      -2729101.538,
+      0.0
+    ],
+    "center":[
+      -3411376.923,
+      -454850.256
+    ]
+  },
+  "extent":{
+    "type":"Polygon",
+    "coordinates":[
+      [
+        [
+          45.0,
+          0.0
+        ],
+        [
+          45.0,
+          -30.0
+        ],
+        [
+          90.0,
+          -30.0
+        ],
+        [
+          90.0,
+          0.0
+        ],
+        [
+          45.0,
+          0.0
+        ]
+      ]
+    ]
+  },
+  "bands":[
+    {
+      "band":1,
+      "block":[
+        23040,
+        1
+      ],
+      "type":"Float32",
+      "colorInterpretation":"Undefined",
+      "noDataValue":-3.4028227e+38,
+      "offset":1737.4,
+      "scale":1.0,
+      "metadata":{}
+    }
+  ],
+  "stac":{
+    "proj:shape":[
+      23040,
+      15360
+    ],
+    "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "proj:epsg":null,
+    "proj:projjson":{
+      "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json",
+      "type":"ProjectedCRS",
+      "name":"SIMPLE_CYLINDRICAL MOON",
+      "base_crs":{
+        "name":"GCS_MOON",
+        "datum":{
+          "type":"GeodeticReferenceFrame",
+          "name":"D_MOON",
+          "ellipsoid":{
+            "name":"MOON",
+            "radius":1737400
+          },
+          "prime_meridian":{
+            "name":"Reference_Meridian",
+            "longitude":0
+          }
+        },
+        "coordinate_system":{
+          "subtype":"ellipsoidal",
+          "axis":[
+            {
+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
+        "method":{
+          "name":"Equidistant Cylindrical",
+          "id":{
+            "authority":"EPSG",
+            "code":1028
+          }
+        },
+        "parameters":[
+          {
+            "name":"Latitude of 1st standard parallel",
+            "value":0,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8823
+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
+              "authority":"EPSG",
+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8802
+            }
+          },
+          {
+            "name":"False easting",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
+    "proj:transform":[
+      -4093652.3074560002423823,
+      59.2252938,
+      0.0,
+      0.0,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
+      {
+        "data_type":"float32",
+        "nodata":null,
+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (-4093652.307456000242382,0.000000000000000)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30S_00S_045_090_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
+Upper Left  (-4093652.307,       0.000) ( 45d 0' 0.00"E,  0d 0' 0.01"N)
+Lower Left  (-4093652.307, -909700.513) ( 45d 0' 0.00"E, 30d 0' 0.00"S)
+Upper Right (-2729101.538,       0.000) ( 90d 0' 0.00"E,  0d 0' 0.01"N)
+Lower Right (-2729101.538, -909700.513) ( 90d 0' 0.00"E, 30d 0' 0.00"S)
+Center      (-3411376.923, -454850.256) ( 67d30' 0.00"E, 15d 0' 0.00"S)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30S_00S_090_135_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30S_00S_090_135_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30S_00S_090_135_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 5.651
+    MINIMUM               = -5.749
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 0 <deg>
+ MINIMUM_LATITUDE             = -30 <deg>
+ WESTERNMOST_LONGITUDE        = 90 <deg>
+ EASTERNMOST_LONGITUDE        = 135 <deg>
+ LINE_PROJECTION_OFFSET       = -0.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = 46079.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
+  "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT.LBL",
+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT.LBL",
+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT.IMG"
+  ],
+  "size":[
+    23040,
+    15360
+  ],
+  "coordinateSystem":{
+    "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
+  "geoTransform":[
+    -2729101.5383040001615882,
+    59.2252938,
+    0.0,
+    0.0,
+    0.0,
+    -59.2252938
+  ],
+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30S_00S_090_135_FLOAT\"",
+      "PRODUCT_TYPE":"",
+      "SPACECRAFT_NAME":"",
+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
+    }
+  },
+  "cornerCoordinates":{
+    "upperLeft":[
+      -2729101.538,
+      0.0
+    ],
+    "lowerLeft":[
+      -2729101.538,
+      -909700.513
+    ],
+    "lowerRight":[
+      -1364550.769,
+      -909700.513
+    ],
+    "upperRight":[
+      -1364550.769,
+      0.0
+    ],
+    "center":[
+      -2046826.154,
+      -454850.256
+    ]
+  },
+  "extent":{
+    "type":"Polygon",
+    "coordinates":[
+      [
+        [
+          90.0,
+          0.0
+        ],
+        [
+          90.0,
+          -30.0
+        ],
+        [
+          135.0,
+          -30.0
+        ],
+        [
+          135.0,
+          0.0
+        ],
+        [
+          90.0,
+          0.0
+        ]
+      ]
+    ]
+  },
+  "bands":[
+    {
+      "band":1,
+      "block":[
+        23040,
+        1
+      ],
+      "type":"Float32",
+      "colorInterpretation":"Undefined",
+      "noDataValue":-3.4028227e+38,
+      "offset":1737.4,
+      "scale":1.0,
+      "metadata":{}
+    }
+  ],
+  "stac":{
+    "proj:shape":[
+      23040,
+      15360
+    ],
+    "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n    BASEGEOGCRS[\"GCS_MOON\",\n        DATUM[\"D_MOON\",\n            ELLIPSOID[\"MOON\",1737400,0,\n                LENGTHUNIT[\"metre\",1,\n                    ID[\"EPSG\",9001]]]],\n        PRIMEM[\"Reference_Meridian\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433,\n                ID[\"EPSG\",9122]]]],\n    CONVERSION[\"Equidistant Cylindrical\",\n        METHOD[\"Equidistant Cylindrical\",\n            ID[\"EPSG\",1028]],\n        PARAMETER[\"Latitude of 1st standard parallel\",0,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8823]],\n        PARAMETER[\"Longitude of natural origin\",180,\n            ANGLEUNIT[\"degree\",0.0174532925199433],\n            ID[\"EPSG\",8802]],\n        PARAMETER[\"False easting\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8806]],\n        PARAMETER[\"False northing\",0,\n            LENGTHUNIT[\"metre\",1],\n            ID[\"EPSG\",8807]]],\n    CS[Cartesian,2],\n        AXIS[\"(E)\",east,\n            ORDER[1],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]],\n        AXIS[\"(N)\",north,\n            ORDER[2],\n            LENGTHUNIT[\"metre\",1,\n                ID[\"EPSG\",9001]]]]",
+    "proj:epsg":null,
+    "proj:projjson":{
+      "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json",
+      "type":"ProjectedCRS",
+      "name":"SIMPLE_CYLINDRICAL MOON",
+      "base_crs":{
+        "name":"GCS_MOON",
+        "datum":{
+          "type":"GeodeticReferenceFrame",
+          "name":"D_MOON",
+          "ellipsoid":{
+            "name":"MOON",
+            "radius":1737400
+          },
+          "prime_meridian":{
+            "name":"Reference_Meridian",
+            "longitude":0
+          }
+        },
+        "coordinate_system":{
+          "subtype":"ellipsoidal",
+          "axis":[
+            {
+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
+            {
+              "name":"Longitude",
+              "abbreviation":"lon",
+              "direction":"east",
+              "unit":"degree"
+            }
+          ]
+        }
+      },
+      "conversion":{
+        "name":"Equidistant Cylindrical",
+        "method":{
+          "name":"Equidistant Cylindrical",
+          "id":{
+            "authority":"EPSG",
+            "code":1028
+          }
+        },
+        "parameters":[
+          {
+            "name":"Latitude of 1st standard parallel",
+            "value":0,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8823
+            }
+          },
+          {
+            "name":"Latitude of natural origin",
+            "value":0,
+            "unit":{
+              "type":"Unit",
+              "name":"",
+              "conversion_factor":1
+            },
+            "id":{
+              "authority":"EPSG",
+              "code":8801
+            }
+          },
+          {
+            "name":"Longitude of natural origin",
+            "value":180,
+            "unit":"degree",
+            "id":{
+              "authority":"EPSG",
+              "code":8802
+            }
+          },
+          {
+            "name":"False easting",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8806
+            }
+          },
+          {
+            "name":"False northing",
+            "value":0,
+            "unit":"metre",
+            "id":{
+              "authority":"EPSG",
+              "code":8807
+            }
+          }
+        ]
+      },
+      "coordinate_system":{
+        "subtype":"Cartesian",
+        "axis":[
+          {
+            "name":"Easting",
+            "abbreviation":"E",
+            "direction":"east",
+            "unit":"metre"
+          },
+          {
+            "name":"Northing",
+            "abbreviation":"N",
+            "direction":"north",
+            "unit":"metre"
+          }
+        ]
+      }
+    },
+    "proj:transform":[
+      -2729101.5383040001615882,
+      59.2252938,
+      0.0,
+      0.0,
+      0.0,
+      -59.2252938
+    ],
+    "raster:bands":[
+      {
+        "data_type":"float32",
+        "nodata":null,
+        "scale":null,
+        "offset":null
+      }
+    ],
+    "eo:bands":[
+      {
+        "name":"b1",
+        "description":"Undefined"
+      }
+    ]
+  }
+}

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT_gdalinfo.txt

@@ -0,0 +1,67 @@
+Driver: PDS/NASA Planetary Data System
+Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT.LBL
+       /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT.IMG
+Size is 23040, 15360
+Coordinate System is:
+PROJCRS["SIMPLE_CYLINDRICAL MOON",
+    BASEGEOGCRS["GCS_MOON",
+        DATUM["D_MOON",
+            ELLIPSOID["MOON",1737400,0,
+                LENGTHUNIT["metre",1,
+                    ID["EPSG",9001]]]],
+        PRIMEM["Reference_Meridian",0,
+            ANGLEUNIT["degree",0.0174532925199433,
+                ID["EPSG",9122]]]],
+    CONVERSION["Equidistant Cylindrical",
+        METHOD["Equidistant Cylindrical",
+            ID["EPSG",1028]],
+        PARAMETER["Latitude of 1st standard parallel",0,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8823]],
+        PARAMETER["Longitude of natural origin",180,
+            ANGLEUNIT["degree",0.0174532925199433],
+            ID["EPSG",8802]],
+        PARAMETER["False easting",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8806]],
+        PARAMETER["False northing",0,
+            LENGTHUNIT["metre",1],
+            ID["EPSG",8807]]],
+    CS[Cartesian,2],
+        AXIS["(E)",east,
+            ORDER[1],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]],
+        AXIS["(N)",north,
+            ORDER[2],
+            LENGTHUNIT["metre",1,
+                ID["EPSG",9001]]]]
+Data axis to CRS axis mapping: 1,2
+Origin = (-2729101.538304000161588,0.000000000000000)
+Pixel Size = (59.225293800000003,-59.225293800000003)
+Metadata:
+  BANDWIDTH=
+  CENTER_FILTER_WAVELENGTH=
+  DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0"
+  FILTER_NAME=
+  INSTRUMENT_ID="LOLA"
+  INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER"
+  MISSION_NAME=
+  NOTE=
+  PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER"
+  PRODUCT_CREATION_TIME=2015-09-15T00:00:00
+  PRODUCT_ID="SLDEM2015_512_30S_00S_090_135_FLOAT"
+  PRODUCT_TYPE=
+  SPACECRAFT_NAME=
+  START_TIME=2009-07-13T17:33:17
+  STOP_TIME=2013-07-18T00:10:56
+  TARGET_NAME=MOON
+Corner Coordinates:
+Upper Left  (-2729101.538,       0.000) ( 90d 0' 0.00"E,  0d 0' 0.01"N)
+Lower Left  (-2729101.538, -909700.513) ( 90d 0' 0.00"E, 30d 0' 0.00"S)
+Upper Right (-1364550.769,       0.000) (135d 0' 0.00"E,  0d 0' 0.01"N)
+Lower Right (-1364550.769, -909700.513) (135d 0' 0.00"E, 30d 0' 0.00"S)
+Center      (-2046826.154, -454850.256) (112d30' 0.00"E, 15d 0' 0.00"S)
+Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined
+  NoData Value=-3.4028227e+38
+  Offset: 1737.4,   Scale:1

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT.LBL

@@ -0,0 +1,103 @@
+PDS_VERSION_ID            = "PDS3"
+
+/*** GENERAL DATA DESCRIPTION PARAMETERS ***/
+PRODUCT_VERSION_ID        = "V2.0"
+DATA_SET_ID               = "LRO-L-LOLA-4-GDR-V1.0"
+PRODUCT_ID                = "SLDEM2015_512_30S_00S_135_180_FLOAT"
+INSTRUMENT_HOST_NAME      = "LUNAR RECONNAISSANCE ORBITER"
+INSTRUMENT_NAME           = "LUNAR ORBITER LASER ALTIMETER"
+INSTRUMENT_ID             = "LOLA"
+MISSION_PHASE_NAME        = {"COMMISSIONING","NOMINAL MISSION","SCIENCE
+                              MISSION","EXTENDED SCIENCE MISSION"}
+TARGET_NAME               = MOON
+START_TIME                = 2009-07-13T17:33:17
+STOP_TIME                 = 2013-07-18T00:10:56
+PRODUCT_CREATION_TIME     = 2015-09-15T00:00:00
+PRODUCER_ID               = LRO_LOLA_TEAM
+PRODUCER_FULL_NAME        = "DAVID E. SMITH"
+PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER"
+DESCRIPTION               = "This data product is a rectangular subsection
+   (tile) of a lunar digital elevation model (DEM) covering latitudes 
+   equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels
+   per degree (~60 meters at the equator).  The DEM uses data acquired by the
+   LOLA instrument through mission phase LRO_ES_09, which have been 
+   coregistered with Kaguya's SELENE terrain camera data.  LOLA data have been
+   geolocated using the gravity field GRGM900B derived using data from the 
+   GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014].
+
+   The map is in the form of a binary table with 
+   one row for each  0.0019531250 degrees of latitude, pixel registered.
+   Map values are relative to a radius of 1737.4 km.
+
+   This label describes an IMG file in the form of a binary resampling 
+   to pixel registration.
+"
+
+OBJECT                    = UNCOMPRESSED_FILE
+FILE_NAME                 = "SLDEM2015_512_30S_00S_135_180_FLOAT.IMG"
+RECORD_TYPE               = FIXED_LENGTH
+FILE_RECORDS              = 15360
+RECORD_BYTES              = 92160
+^IMAGE                    = "SLDEM2015_512_30S_00S_135_180_FLOAT.IMG"
+
+
+  OBJECT                  = IMAGE
+    NAME                  = HEIGHT
+    DESCRIPTION           = "Each sample represents height relative to a
+      reference radius (OFFSET) and is generated using LOLA data
+      and Kaguya's SELENE Terrain Camera data as refined by the LOLA and 
+      TC teams, respectively."
+    LINES                 = 15360
+    LINE_SAMPLES          = 23040
+    MAXIMUM               = 7.562
+    MINIMUM               = -6.702
+    SAMPLE_TYPE           = PC_REAL
+    SAMPLE_BITS           = 32
+    UNIT                  = KILOMETER
+    SCALING_FACTOR        = 1
+    OFFSET                = 1737.4
+
+/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is:  */
+/* HEIGHT = (DN * SCALING_FACTOR).                                         */
+/* The conversion from Digital Number to PLANETARY_RADIUS in meters is:    */
+/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET                       */
+/* where OFFSET is the radius of a reference sphere.                       */
+/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS,     */
+/* where GEOID_RADIUS is derived from a gravitational equipotential model. */
+/* By convention, the average GEOID_RADIUS at the equator is OFFSET.       */
+
+  END_OBJECT              = IMAGE
+END_OBJECT                = UNCOMPRESSED_FILE
+
+
+OBJECT                    = IMAGE_MAP_PROJECTION
+ ^DATA_SET_MAP_PROJECTION     = "DSMAP.CAT"
+ MAP_PROJECTION_TYPE          = "SIMPLE CYLINDRICAL"
+ MAP_RESOLUTION               = 512 <pix/deg>
+ A_AXIS_RADIUS                = 1737.4 <km>
+ B_AXIS_RADIUS                = 1737.4 <km>
+ C_AXIS_RADIUS                = 1737.4 <km>
+ FIRST_STANDARD_PARALLEL      = 'N/A'
+ SECOND_STANDARD_PARALLEL     = 'N/A'
+ POSITIVE_LONGITUDE_DIRECTION = "EAST"
+ CENTER_LATITUDE              = 0. <deg>
+ CENTER_LONGITUDE             = 180. <deg>
+ REFERENCE_LATITUDE           = 'N/A'
+ REFERENCE_LONGITUDE          = 'N/A'
+ LINE_FIRST_PIXEL             = 1
+ LINE_LAST_PIXEL              = 15360
+ SAMPLE_FIRST_PIXEL           = 1
+ SAMPLE_LAST_PIXEL            = 23040
+ MAP_PROJECTION_ROTATION      = 0.0
+ MAP_SCALE                    = 0.0592252938 <km/pix>
+ MAXIMUM_LATITUDE             = 0 <deg>
+ MINIMUM_LATITUDE             = -30 <deg>
+ WESTERNMOST_LONGITUDE        = 135 <deg>
+ EASTERNMOST_LONGITUDE        = 180 <deg>
+ LINE_PROJECTION_OFFSET       = -0.5 <pix>
+ SAMPLE_PROJECTION_OFFSET     = 23039.5 <pix>
+ COORDINATE_SYSTEM_TYPE       = "BODY-FIXED ROTATING"
+ COORDINATE_SYSTEM_NAME       = "MEAN EARTH/POLAR AXIS OF DE421"
+END_OBJECT                    = IMAGE_MAP_PROJECTION
+
+END

TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT_gdalinfo.json

@@ -0,0 +1,257 @@
+{
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+  "driverShortName":"PDS",
+  "driverLongName":"NASA Planetary Data System",
+  "files":[
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+    "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT.IMG"
+  ],
+  "size":[
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+  ],
+  "coordinateSystem":{
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+    "dataAxisToSRSAxisMapping":[
+      1,
+      2
+    ]
+  },
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+  "metadata":{
+    "":{
+      "BANDWIDTH":"",
+      "CENTER_FILTER_WAVELENGTH":"",
+      "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"",
+      "FILTER_NAME":"",
+      "INSTRUMENT_ID":"\"LOLA\"",
+      "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"",
+      "MISSION_NAME":"",
+      "NOTE":"",
+      "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"",
+      "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00",
+      "PRODUCT_ID":"\"SLDEM2015_512_30S_00S_135_180_FLOAT\"",
+      "PRODUCT_TYPE":"",
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+      "START_TIME":"2009-07-13T17:33:17",
+      "STOP_TIME":"2013-07-18T00:10:56",
+      "TARGET_NAME":"MOON"
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+    "center":[
+      -682275.385,
+      -454850.256
+    ]
+  },
+  "extent":{
+    "type":"Polygon",
+    "coordinates":[
+      [
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+  },
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+  ],
+  "stac":{
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+              "name":"Latitude",
+              "abbreviation":"lat",
+              "direction":"north",
+              "unit":"degree"
+            },
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+            }
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