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Re: [thredds] Limit on diminsion when using Godiva?

  • To: "thredds@xxxxxxxxxxxxxxxx" <thredds@xxxxxxxxxxxxxxxx>
  • Subject: Re: [thredds] Limit on diminsion when using Godiva?
  • From: Phil Scadden <P.Scadden@xxxxxxxxxx>
  • Date: Thu, 6 Aug 2020 22:28:58 +0000
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Whoops, the second netcdf file isnt working either.

From: thredds <thredds-bounces@xxxxxxxxxxxxxxxx> On Behalf Of Phil Scadden
Sent: Friday, 7 August 2020 10:05
To: thredds@xxxxxxxxxxxxxxxx
Subject: [thredds] Limit on diminsion when using Godiva?

We have a 5D netCDF which works fine in Panoply, but when we try to use it in 
thredds, we don’t get a list of variable. Digging deeper, I see that call to 
/thredds/wms/gwAll/hpm_outputs.nc?item=menu&menu=&request=GetMetadata returns:

{"label":"GNS Thredds","children":[{"label":"hpm model 
outputs","children":[]}]}  I don’t see any errors reports in the 
threddsServlet.log.

A very similar file in the same datascan but with one less dimension is working 
ok.

The header  for the failing file is:
netcdf hpm_outputs {
dimensions:
                lay = 8 ;
                x = 501 ;
                y = 302 ;
                realn = 91 ;
                datetime = 76 ;
variables:
                char transverse_mercator ;
                                transverse_mercator:grid_mapping_name = 
"transverse_mercator" ;
                                
transverse_mercator:longitude_of_central_meridian = 173. ;
                                transverse_mercator:false_easting = 1600000. ;
                                transverse_mercator:false_northing = 10000000. ;
                                
transverse_mercator:latitude_of_projection_origin = 0. ;
                                
transverse_mercator:scale_factor_at_central_meridian = 0.9996 ;
                                transverse_mercator:long_name = "CRS 
definition" ;
                                transverse_mercator:longitude_of_prime_meridian 
= 0. ;
                                transverse_mercator:semi_major_axis = 6378137. ;
                                transverse_mercator:semi_minor_axis = 
6356752.31414036 ;
                                transverse_mercator:reference_ellipsoid_name = 
"GRS 1980" ;
                                transverse_mercator:prime_meridian_name = 
"Greenwich" ;
                                transverse_mercator:geographic_crs_name = 
"NZGD2000" ;
                                transverse_mercator:horizontal_datum_name = 
"New Zealand Geodetic Datum 2000" ;
                                transverse_mercator:projected_crs_name = 
"NZGD2000 / New Zealand Transverse Mercator 2000" ;
                                transverse_mercator:inverse_flattening = 
298.257222101 ;
                                transverse_mercator:spatial_ref = 
"PROJCRS[\"NZGD2000 / New Zealand Transverse Mercator 
2000\",BASEGEOGCRS[\"NZGD2000\",DATUM[\"New Zealand Geodetic Datum 
2000\",ELLIPSOID[\"GRS 
1980\",6378137,298.257222101,LENGTHUNIT[\"metre\",1]]],PRIMEM[\"Greenwich\",0,ANGLEUNIT[\"degree\",0.0174532925199433]],
 ID[\"EPSG\",4167]],CONVERSION[\"New Zealand Transverse Mercator 
2000\",METHOD[\"Transverse Mercator\", ID[\"EPSG\",9807]],PARAMETER[\"Latitude 
of natural origin\",0,ANGLEUNIT[\"degree\",0.0174532925199433], 
ID[\"EPSG\",8801]],PARAMETER[\"Longitude of natural 
origin\",173,ANGLEUNIT[\"degree\",0.0174532925199433], 
ID[\"EPSG\",8802]],PARAMETER[\"Scale factor at natural 
origin\",0.9996,SCALEUNIT[\"unity\",1],ID[\"EPSG\",8805]],PARAMETER[\"False 
easting\",1600000,LENGTHUNIT[\"metre\",1],ID[\"EPSG\",8806]],PARAMETER[\"False 
northing\",10000000,LENGTHUNIT[\"metre\",1],ID[\"EPSG\",8807]]], 
CS[Cartesian,2], AXIS[\"northing (N)\",north,ORDER[1],LENGTHUNIT[\"metre\",1]], 
AXIS[\"easting 
(E)\",east,ORDER[2],LENGTHUNIT[\"metre\",1]],USAGE[SCOPE[\"unknown\"],AREA[\"New
 Zealand - onshore\"],BBOX[-47.33,166.37,-34.1,178.63]],ID[\"EPSG\",2193]]" ;
                int lay(lay) ;
                                lay:standard_name = "(no standard name)" ;
                                lay:long_name = "Model layer" ;
                double x(x) ;
                                x:standard_name = "projection_x_coordinate" ;
                                x:long_name = "x coordinate of projection" ;
                                x:units = "m" ;
                double y(y) ;
                                y:standard_name = "projection_y_coordinate" ;
                                y:long_name = "y coordinate of projection" ;
                                y:units = "m" ;
                string realn(realn) ;
                                realn:long_name = "Realisation" ;
                                realn:standard_name = "realization" ;
                int64 datetime(datetime) ;
                                datetime:standard_name = "(no standard name)" ;
                                datetime:long_name = "Datetime" ;
                                datetime:units = "YYYYMMDD" ;
                float head(realn, datetime, lay, y, x) ;
                                head:_FillValue = -1.e+30f ;
                                head:grid_mapping = "transverse_mercator" ;
                                head:long_name = "Simulated GW Head" ;
                                head:standard_name = "(no standard name)" ;
                                head:units = "m" ;
                float s_flow(realn, datetime, y, x) ;
                                s_flow:_FillValue = -1.e+30f ;
                                s_flow:grid_mapping = "transverse_mercator" ;
                                s_flow:long_name = "Simulated Stream Flow" ;
                                s_flow:standard_name = "(no standard name)" ;
                                s_flow:units = "m3/d" ;
                float s_flux(realn, datetime, y, x) ;
                                s_flux:_FillValue = -1.e+30f ;
                                s_flux:grid_mapping = "transverse_mercator" ;
                                s_flux:long_name = "Simulated Stream Flux to 
GW" ;
                                s_flux:standard_name = "(no standard name)" ;
                                s_flux:units = "m3/d" ;

// global attributes:
                                :title = "hpm model outputs" ;
                                :description = "ensemble simulated outputs" ;
                                :file_creation_time = "2020-08-03 
15:03:00.336462" ;
                                :Conventions = "CF-1.7" ;
                                :institution = "GNS Science" ;
                                :source = "PEST++/pyEMU" ;
}

And for the good file is:
netcdf hpm_inputs {
dimensions:
                lay = 8 ;
                x = 501 ;
                y = 302 ;
                realn = 100 ;
variables:
                char transverse_mercator ;
                                transverse_mercator:grid_mapping_name = 
"transverse_mercator" ;
                                
transverse_mercator:longitude_of_central_meridian = 173. ;
                                transverse_mercator:false_easting = 1600000. ;
                                transverse_mercator:false_northing = 10000000. ;
                                
transverse_mercator:latitude_of_projection_origin = 0. ;
                                
transverse_mercator:scale_factor_at_central_meridian = 0.9996 ;
                                transverse_mercator:long_name = "CRS 
definition" ;
                                transverse_mercator:longitude_of_prime_meridian 
= 0. ;
                                transverse_mercator:semi_major_axis = 6378137. ;
                                transverse_mercator:semi_minor_axis = 
6356752.31414036 ;
                                transverse_mercator:reference_ellipsoid_name = 
"GRS 1980" ;
                                transverse_mercator:prime_meridian_name = 
"Greenwich" ;
                                transverse_mercator:geographic_crs_name = 
"NZGD2000" ;
                                transverse_mercator:horizontal_datum_name = 
"New Zealand Geodetic Datum 2000" ;
                                transverse_mercator:projected_crs_name = 
"NZGD2000 / New Zealand Transverse Mercator 2000" ;
                                transverse_mercator:inverse_flattening = 
298.257222101 ;
                                transverse_mercator:spatial_ref = 
"PROJCRS[\"NZGD2000 / New Zealand Transverse Mercator 
2000\",BASEGEOGCRS[\"NZGD2000\",DATUM[\"New Zealand Geodetic Datum 
2000\",ELLIPSOID[\"GRS 
1980\",6378137,298.257222101,LENGTHUNIT[\"metre\",1]]],PRIMEM[\"Greenwich\",0,ANGLEUNIT[\"degree\",0.0174532925199433]],
 ID[\"EPSG\",4167]],CONVERSION[\"New Zealand Transverse Mercator 
2000\",METHOD[\"Transverse Mercator\", ID[\"EPSG\",9807]],PARAMETER[\"Latitude 
of natural origin\",0,ANGLEUNIT[\"degree\",0.0174532925199433], 
ID[\"EPSG\",8801]],PARAMETER[\"Longitude of natural 
origin\",173,ANGLEUNIT[\"degree\",0.0174532925199433], 
ID[\"EPSG\",8802]],PARAMETER[\"Scale factor at natural 
origin\",0.9996,SCALEUNIT[\"unity\",1],ID[\"EPSG\",8805]],PARAMETER[\"False 
easting\",1600000,LENGTHUNIT[\"metre\",1],ID[\"EPSG\",8806]],PARAMETER[\"False 
northing\",10000000,LENGTHUNIT[\"metre\",1],ID[\"EPSG\",8807]]], 
CS[Cartesian,2], AXIS[\"northing (N)\",north,ORDER[1],LENGTHUNIT[\"metre\",1]], 
AXIS[\"easting 
(E)\",east,ORDER[2],LENGTHUNIT[\"metre\",1]],USAGE[SCOPE[\"unknown\"],AREA[\"New
 Zealand - onshore\"],BBOX[-47.33,166.37,-34.1,178.63]],ID[\"EPSG\",2193]]" ;
                int lay(lay) ;
                                lay:standard_name = "(no standard name)" ;
                                lay:long_name = "Model layer" ;
                double x(x) ;
                                x:standard_name = "projection_x_coordinate" ;
                                x:long_name = "x coordinate of projection" ;
                                x:units = "m" ;
                double y(y) ;
                                y:standard_name = "projection_y_coordinate" ;
                                y:long_name = "y coordinate of projection" ;
                                y:units = "m" ;
                string realn(realn) ;
                                realn:long_name = "Realisation" ;
                                realn:standard_name = "realization" ;
                float K(realn, lay, y, x) ;
                                K:_FillValue = -1.e+30f ;
                                K:grid_mapping = "transverse_mercator" ;
                                K:long_name = "Hydraulic conductivity" ;
                                K:standard_name = "(no standard name)" ;
                                K:units = "m day-1" ;

// global attributes:
                                :title = "hpm model pars" ;
                                :description = "ensemble parameters for 
MODFLOW" ;
                                :file_creation_time = "2020-08-03 
13:14:55.609150" ;
                                :Conventions = "CF-1.7" ;
                                :institution = "GNS Science" ;
                                :source = "PEST++/pyEMU" ;
}

https://data-dev.gns.cri.nz/thredds/wms/gwAll/hpm_outputs1.nc?item=menu&menu=&request=GetMetadata

________________________________________________
Ngā mihi, Nā Phil Scadden
Te Aroturuki Matepā Aronuku me te Pūtaiao Raraunga
GNS Science Ltd 764 Cumberland St, Private Bag 1930,
Dunedin, New Zealand Ph +64 3 4799663, 027 3463185

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Notice: This email and any attachments are confidential and may not be used, 
published or redistributed without the prior written consent of the Institute 
of Geological and Nuclear Sciences Limited (GNS Science). If received in error 
please destroy and immediately notify GNS Science. Do not copy or disclose the 
contents.
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