Difference between revisions of "Advanced Use of the GCM"

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(How to Change Vertical and Horizontal Resolutions)
(How to Manage Tracers)
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== How to Manage Tracers ==
 
== How to Manage Tracers ==
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The model can include different types of tracers:
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* condensed species (e.g., CO<sub>2</sub>, H<sub>2</sub>O, dust)
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* chemically active species
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* radiatively active gases (e.g., water vapor)
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In the code, all tracers are stored in one three-dimensional array q, the third index of which corresponds to each individual tracer.
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In input and output files (“start.nc”, “startfi.nc”), tracers are stored separately using their individual names.
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Loading specific tracers requires that the approriate tracer names are set in the traceur.def file, and specific computations for given tracers (e.g. computing the water or CO2 cycles) is controlled by setting the corresponding options in the callphys.def file.
  
 
TO BE COMPLETED
 
TO BE COMPLETED

Revision as of 08:39, 7 April 2022

Running in parallel

TO BE COMPLETED

Distinctions beween ifort, mpi, etc.

TO BE COMPLETED

Distinction between using IOIPSL or XIOS

TO BE COMPLETED

How to Change Vertical and Horizontal Resolutions

To run at a different grid resolution than available initial conditions files, one needs to use the tools newstart.e and start2archive.e

For example, to create initial states at grid resolution 32×24×25 from NetCDF files start and startfi at grid resolution 64×48×32 :

  • Create file start_archive.nc with start2archive.e compiled at grid resolution 64×48×32 using old file z2sig.def used previously
  • Create files restart.nc and restartfi.nc with newstart.e compiled at grid resolution 32×24×25, using a new file z2sig.def (more details below on the choice of the z2sig.def)

What you need to know about the z2sig.def file (change of vertical resolution only)

TO BE COMPLETED


How to Change the Topography (or remove it)

TO BE COMPLETED

How to Change the Opacity Tables

TO BE COMPLETED

How to Manage Tracers

The model can include different types of tracers:

  • condensed species (e.g., CO2, H2O, dust)
  • chemically active species
  • radiatively active gases (e.g., water vapor)

In the code, all tracers are stored in one three-dimensional array q, the third index of which corresponds to each individual tracer.

In input and output files (“start.nc”, “startfi.nc”), tracers are stored separately using their individual names.

Loading specific tracers requires that the approriate tracer names are set in the traceur.def file, and specific computations for given tracers (e.g. computing the water or CO2 cycles) is controlled by setting the corresponding options in the callphys.def file.

TO BE COMPLETED