Regridding restarts for Fortuna 2.0: Difference between revisions

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Here are the basic instructions on how to regrid restarts.
Here are basic instructions on how to regrid restarts, based on a README by Larry Takacs.
 
== Where to get MERRA Restarts ==
 
MERRA restarts are available on the NCCS discover cluster under the following directories:
 
/archive/g_proj5/production/GEOSdas-2_1_4/d5_merra_jan79/rs/
/archive/g_proj5/production/GEOSdas-2_1_4/d5_merra_jan89/rs/
/archive/g_proj5/production/GEOSdas-2_1_4/d5_merra_jan98/rs/
 
Restarts are in subdirectories according to their respective year and month.  The are in the form (as an example) <code>d5_merra_jan79.catch_internal_rst.19910128_21z.bin</code>, which you would otherwise know as <code>catch_internal_rst</code> (with the appropriate <code>cap_restart</code>).  MERRA restart filenames need to be changed to the latter, "entropic" name for the regridding programs.


== Required Restarts ==
== Required Restarts ==
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These are the finished restarts.  They will have to be renamed -- truncated after <code>rst</code> -- in order to be recognized by the model in its standard configuration.
These are the finished restarts.  They will have to be renamed -- truncated after <code>rst</code> -- in order to be recognized by the model in its standard configuration.
Note that even if you have no restarts that fall under the <code>-other</code> option, you still have to include that option (with nothing after it) in the command.


==Regridding Land-Surface Related Restarts==
==Regridding Land-Surface Related Restarts==
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Run  <code>mk_Restarts</code>
Run  <code>mk_Restarts</code>


Your regridded restarts will be produced in the <code>OutData</code> directory.
Your regridded restarts will be produced in the <code>OutData</code> directory.
 
Finally, ''in the case of Fortuna 2.0'', you will need to run <code>newcatch</code> on the catchment restart file.  Rename <code>catch_internal_rst</code> to <code>catch_internal_rst_old</code>, and then run:
 
../newcatch catch_internal_rst_old catch_internal_rst


Caveats:
===Old and New Tile Files===


There are two possible scenarios for regridding land-surface related
There are two possible scenarios for regridding land-surface related
Line 150: Line 166:
Depending on which tile file you are regridding to, there are two procedures:
Depending on which tile file you are regridding to, there are two procedures:


===1) Target tile file is from OLD set (model tags <code>Fortuna-1_4</code> and earlier)===
====1) Target tile file is from OLD set (model tags <code>Fortuna-1_4</code> and earlier)====
Since your target tile file is OLD (and not consistent with the new
Since your target tile file is OLD (and not consistent with the new
<code>mosaic_veg_typs_fracs</code> data), you have to remove the
<code>mosaic_veg_typs_fracs</code> data), you have to remove the
Line 172: Line 188:
/discover/nobackup/ltakacs/bcs/Fortuna-1_4/540x361/lai_green_clim_540x361_DC.data</code>
/discover/nobackup/ltakacs/bcs/Fortuna-1_4/540x361/lai_green_clim_540x361_DC.data</code>


===2) Target tile file is from NEW set (model tags <code>Fortuna-1_5</code> and later)===
====2) Target tile file is from NEW set (model tags <code>Fortuna-1_5</code> and later)====
----------------------------------------------------------------------
 
In this case, the target TILE files are consistent with the
In this case, the target tile files are consistent with the <code>mosaic_veg_typs_fracs</code> dataset which resides in the <code>InData</code> directory.
<code>mosaic_veg_typs_fracs dataset</code> which resides in the <code>InData</code> directory.
Therefore you do not have link in the old <code>nirdf.dat</code>, <code>visdf.dat</code>, and
Therefore you do not have link in the old <code>nirdf.dat</code>, <code>visdf.dat</code>, and
<code>lai_grn_clim</code> datasets.
<code>lai_grn_clim</code> datasets.
== Bootstrapping for a Complete Set of Restarts ==
The above procedure produces all the necessary restart files for the model to run, but others are needed for proper function.  The model can produce them starting from the minimal set created by the regridding procedure; this requires some modification of the <code>AGCM.tmpl</code> file in your experiment home directory (probably under your account home directory). 
In <code>AGCM.tmpl</code> -- you probably want to keep a copy of the default version for normal runs -- and using <code>turb_import_rst</code> as an example, comment out the lines referring to <code>RESTART</code>:
TURBULENCE_IMPORT_RESTART_FILE:        turb_import_rst
TURBULENCE_IMPORT_RESTART_TYPE:        binary
TURBULENCE_IMPORT_CHECKPOINT_FILE:      turb_import_checkpoint
TURBULENCE_IMPORT_CHECKPOINT_TYPE:      binary
#TURBULENCE_IMPORT_RESTART_FILE:        turb_import_rst
#TURBULENCE_IMPORT_RESTART_TYPE:        binary
TURBULENCE_IMPORT_CHECKPOINT_FILE:      turb_import_checkpoint
TURBULENCE_IMPORT_CHECKPOINT_TYPE:      binary
Running the model for a model day using this modified <code>AGCM.tmpl</code> will produce a full set of restart files, which can be used with the default model configuration.

Latest revision as of 11:44, 15 February 2010

Here are basic instructions on how to regrid restarts, based on a README by Larry Takacs.

Where to get MERRA Restarts

MERRA restarts are available on the NCCS discover cluster under the following directories: 

/archive/g_proj5/production/GEOSdas-2_1_4/d5_merra_jan79/rs/
/archive/g_proj5/production/GEOSdas-2_1_4/d5_merra_jan89/rs/
/archive/g_proj5/production/GEOSdas-2_1_4/d5_merra_jan98/rs/

Restarts are in subdirectories according to their respective year and month. The are in the form (as an example) d5_merra_jan79.catch_internal_rst.19910128_21z.bin, which you would otherwise know as catch_internal_rst (with the appropriate cap_restart). MERRA restart filenames need to be changed to the latter, "entropic" name for the regridding programs.

Required Restarts

The key restarts to modify are:

Required upper-air related restarts:

  • fvcore_internal_rst
  • moist_internal_rst

Required land-surface related restarts:

  • catch_internal_rst
  • vegdyn_internal_rst
  • landice_internal_rst
  • lake_internal_rst
  • saltwater_internal_rst

Optional upper-air related restarts (if you have them):

  • pchem_internal_rst
  • gocart_internal_rst

For DAS runs, you may also interpolate:

  • agcm_import_rst

Regridding Upper-Air Related Restarts

Within your build, go to the directory: 

 src/GMAO_Shared/GEOS_Util/post

Here you will find the files:

  • rs_hinterp (script to compile the Fortran)
  • rs_hinterp.F (Fortran source to regrid)

By running rs_hinterp, it should produce the executable: 

rs_hinterp_Linux.x

Running rs_hinterp_Linux.x shows the usage: 

> rs_hinterp_Linux.x
Usage:

rs_hinterp_$ARCH.x -dyn      DYNRST
                   -moist    MOISTRST
                   -other    OtherRST1 OtherRST2 OtherRST3 ...
                   -topo_old TOPO_OLD
                   -topo_new TOPO_NEW
                   -im       IM_OUT
                   -jm       JM_OUT

where:

  -dyn         DYNRST:  Filename for DYNAMICS_INTERNAL_RESTART
  -moist     MOISTRST:  Filename for    MOIST_INTERNAL_RESTART
  -other     OtherRST:  Filename for Other Flat Binary_RESTART
  -topo_old  TOPO_OLD:  Filename for OLD Topography (associated with INPUT  resolution)
  -topo_new  TOPO_NEW:  Filename for NEW Topography (associated with OUTPUT resolution)
  -im          IM_OUT:  IM Dimension for Output
  -jm          JM_OUT:  JM Dimension for Output


So, as an example, to regrid from an existing 2x2.5-deg set of restarts to 1x1.25-deg, you have: 

rs_hinterp_$ARCH.x -dyn      fvcore_internal_rst
                    -moist    moist_internal_rst
                    -other    pchem_internal_rst  gocart_internal_rst
                    -topo_old TOPO_OLD
                    -topo_new TOPO_NEW
                    -im       288
                    -jm       181

where TOPO_OLD is linked to: 

/discover/nobackup/dkokron/geos5/bcs/GEOSagcm-Eros-beta7p8/DC/144x91/topo_DYN_ave_144x91_DC.data

and TOPO_NEW is linked to: 

/discover/nobackup/dkokron/geos5/bcs/GEOSagcm-Eros-beta7p8/DC/288x181/topo_DYN_ave_288x181_DC.data


This will produce: 

fvcore_internal_rst.0288x0181
moist_internal_rst.0288x0181
pchem_internal_rst.0288x0181
gocart_internal_rst.0288x0181

These are the finished restarts. They will have to be renamed -- truncated after rst -- in order to be recognized by the model in its standard configuration.

Note that even if you have no restarts that fall under the -other option, you still have to include that option (with nothing after it) in the command.

Regridding Land-Surface Related Restarts

Within your build, go to: 

src/GEOSgcs_GridComp/GEOSgcm_GridComp/GEOSagcm_GridComp/GEOSphysics_GridComp/ ...
GEOSsurface_GridComp/GEOSland_GridComp/GEOScatch_GridComp/mk_restarts

At this point it is best to update your directory to the HEAD of CVS to be sure you have the latest datasets: 

cvs upd -A

Under the mk_restarts directory you have the directories: 

InData
OutData

The basic idea is:

  1. Put your existing land-related restarts in the InData directory
  2. Put the appropriate tile file for your current resolution in the InData directory
  3. Put your target resolution tile file in the OutData directory

Where to find the appropriate tile file depends on the Fortuna versions you are regridding from and to, and is detailed below.

Run mk_Restarts

Your regridded restarts will be produced in the OutData directory.

Finally, in the case of Fortuna 2.0, you will need to run newcatch on the catchment restart file. Rename catch_internal_rst to catch_internal_rst_old, and then run: 

../newcatch catch_internal_rst_old catch_internal_rst

Old and New Tile Files

There are two possible scenarios for regridding land-surface related restarts:

  1. Converting existing restarts to resolutions: 144x91, 288x181, 540x361, 1080x721 (old tile files for Fortuna 1.4 and earlier)
  2. Converting existing restarts to resolutions: 144x91, 288x181, 576x361, 1152x721 (new tile files for Fortuna 1.5 and later)


The old tile files are currently archived in: 

/discover/nobackup/ltakacs/bcs/Fortuna-1_4/144x91/FV_144x91_DC_360x180_DE.til
/discover/nobackup/ltakacs/bcs/Fortuna-1_4/288x181/FV_288x181_DC_360x180_DE.til
/discover/nobackup/ltakacs/bcs/Fortuna-1_4/540x361/FV_540x361_DC_360x180_DE.til
/discover/nobackup/ltakacs/bcs/Fortuna-1_4/1080x721/FV_1080x721_DC_360x180_DE.til

The new tile files are located in: 

/discover/nobackup/ltakacs/bcs/Fortuna-2_0/144x91/FV_144x91_DC_360x180_DE.til
/discover/nobackup/ltakacs/bcs/Fortuna-2_0/288x181/FV_288x181_DC_360x180_DE.til
/discover/nobackup/ltakacs/bcs/Fortuna-2_0/576x361/FV_576x361_DC_360x180_DE.til
/discover/nobackup/ltakacs/bcs/Fortuna-2_0/1152x721/FV_1152x721_DC_360x180_DE.til

Depending on which tile file you are regridding to, there are two procedures:

1) Target tile file is from OLD set (model tags Fortuna-1_4 and earlier)

Since your target tile file is OLD (and not consistent with the new mosaic_veg_typs_fracs data), you have to remove the mosaic_veg_typs_fracs file from the InData direcory (or simply rename it, eg: mosaic_veg_typs_fracs.hold). In its place you have to copy the OLD nirdf.dat, visdf.dat, and lai_grn_clim boundary condition datasets into the InData directory. These can be found in the corresponding /discover/nobackup/ltakacs/bcs/Fortuna-1_4 directories. Note, the names that the Fortran program is looking for are not the same names in our bcs directory. Therefore you need to link the old datasets to the proper names. For example, regridding FROM the old 540x361 resolution (eg. MERRA), you should have:

nirdf.dat -> /discover/nobackup/ltakacs/bcs/Fortuna-1_4/540x361/nirdf_540x361_DC.dat

visdf.dat -> /discover/nobackup/ltakacs/bcs/Fortuna-1_4/540x361/visdf_540x361_DC.dat

lai_grn_clim -> /discover/nobackup/ltakacs/bcs/Fortuna-1_4/540x361/lai_green_clim_540x361_DC.data

2) Target tile file is from NEW set (model tags Fortuna-1_5 and later)

In this case, the target tile files are consistent with the mosaic_veg_typs_fracs dataset which resides in the InData directory. Therefore you do not have link in the old nirdf.dat, visdf.dat, and lai_grn_clim datasets.

Bootstrapping for a Complete Set of Restarts

The above procedure produces all the necessary restart files for the model to run, but others are needed for proper function. The model can produce them starting from the minimal set created by the regridding procedure; this requires some modification of the AGCM.tmpl file in your experiment home directory (probably under your account home directory).

In AGCM.tmpl -- you probably want to keep a copy of the default version for normal runs -- and using turb_import_rst as an example, comment out the lines referring to RESTART: 

TURBULENCE_IMPORT_RESTART_FILE:         turb_import_rst
TURBULENCE_IMPORT_RESTART_TYPE:         binary 
TURBULENCE_IMPORT_CHECKPOINT_FILE:      turb_import_checkpoint
TURBULENCE_IMPORT_CHECKPOINT_TYPE:      binary

#TURBULENCE_IMPORT_RESTART_FILE:         turb_import_rst
#TURBULENCE_IMPORT_RESTART_TYPE:         binary
TURBULENCE_IMPORT_CHECKPOINT_FILE:      turb_import_checkpoint
TURBULENCE_IMPORT_CHECKPOINT_TYPE:      binary

Running the model for a model day using this modified AGCM.tmpl will produce a full set of restart files, which can be used with the default model configuration.

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