WRF Tutorial: Difference between revisions

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  module load wrf/3.8.1
  module load wrf/3.8.1
  module load wps/3.8.1
  module load wps/3.8.1
at the start of each session. It it helpful to add these lines to your <code>~/.bashrc</code>.  
at the start of each session. If you run WRF and WPS often, it is helpful to add these lines to your <code>~/.bashrc</code>.  


To view the options that were used when compiling to configure WRF and WPS, see:
To view the options that were used when compiling to configure WRF and WPS, see:
Line 87: Line 87:


== Running WRF ==
== Running WRF ==
Run WRF from either your <code>/WRF/test/em_real</code> or <code>/WRF/real</code> directory. Link your <code>met_em</code> files to this directory:
  ln -sf path_to_met_em_files/met_em.d0* .
Edit the <code>namelist.input</code> to match the WPS domain and choose physics parameterizations. Best practices can be found [http://www2.mmm.ucar.edu/wrf/OnLineTutorial/Basics/WRF/namelist.input.htm here].
Run <code>./real.exe</code> and then <code>./wrf.exe</code>.
If you're running a high-resolution or large-domain simulation, you may run into memory allocation errors when defining the grid. It is useful to use [[Graham_Tips#Complete_Nodes|complete nodes]] with <code>#SBATCH --mem=125G</code> to run <code>./wrf.exe</code>.
== Post Processing ==
For a quick look at your data (during or after a run), use ncview:
module load ncview
ncview wrfout_d01_YYYY-MM-DD_HH:00:00
For a more detailed look at your data and for creating nicer graphics, you can use [http://www.ncl.ucar.edu/ NCL] or [[VisIt|VisIt]]. To use VisIt, append a <code>.nc</code> to the end of your <code>wrfout</code> files:
cp wrfout_d01_YYYY-MM-DD_HH:00:00 wrfout_d01_YYYY-MM-DD_HH:00:00.nc


== Useful Tips ==
== Useful Tips ==

Revision as of 10:30, 18 May 2018

Super unfinished! Will update soon.

This is a guide for configuring, compiling, and running WRF and the WRF Preprocessing System (WPS) using Sharcnet machines for real data simulations. This guide is meant to supplement the WRF User Tutorial. Graham has pre-compiled WRF modules available. However, you may find yourself needing to compile WRF and WPS yourself. Both of these options, along with supplementary troubleshooting material, can be found below.

Using Pre-compiled Modules

The current (as of May 2018) configuration of WRF and WPS that work together on Graham are WPS 3.8.1 and WRF 3.8.1. Copy the following directories into WRF and WPS directories in your desired ~/projects directory:

/cvmfs/soft.computecanada.ca/easybuild/software/2017/avx2/MPI/intel2016.4/openmpi2.1/wrf/3.8.1/WRF
/cvmfs/soft.computecanada.ca/easybuild/software/2017/avx2/MPI/intel2016.4/openmpi2.1/wps/3.8.1/WPS

To use the modules, type:

module load wrf/3.8.1
module load wps/3.8.1

at the start of each session. If you run WRF and WPS often, it is helpful to add these lines to your ~/.bashrc.

To view the options that were used when compiling to configure WRF and WPS, see:

WRFV3/configure.wrf
WPS/configure.wps

Compiling WRF and WPS

Setting the netCDF variable

WRF and WPS need to know the path to the proper netCDF directory. You will need to set the netCDF path to the fortran-mpi netCDF folder. On graham, this can be done by typing the following:

export NETCDF=/cvmfs/soft.computecanada.ca/easybuild/software/2017/avx2/MPI/intel2016.4/openmpi2.1/netcdf-fortran-mpi/4.4.4

Check to make sure the following file exists: /include/netcdf.inc.

At this point, you may also choose to allow for large (>2GB) netCDF files. This is recommended for any high-resolution WRF simulations.

export WRFIO_NCD_LARGE_FILE_SUPPORT=1

Compiling WRF

In the WRF or WRFV3 directory, type: ./configure. You will be given a list of computer options. Select intel, ifort/icc (dmpar). This is option 15 for WRF 4.0.

In the next section, you may wish to compile for nesting. Option 1, which covers all basic nests, is recommended.

This will create a configure.wrf file, containing configure options based on your environment. In very unlikely cases, some paths may be incorrect. You can edit paths in this file to their correct paths before continuing.

To compile for real-data cases, type ./compile em_real. This will take about an hour, and will create the following executables:

main/ndown.exe
main/wrf.exe
main/real.exe

Compiling WPS

Make sure the netCDF variable is still set from before. In the WPS directory, type ./configure. You will be given a list of computer options. Choose linux/intel/dmpar. This will create a configure.wps file, containing configure options based on your environment. If paths are incorrect, you can edit paths in this file to their correct paths before continuing. This includes the path to your WRF/WRFV3 directory.

To compile WPS, type ./compile. This will create the following executables:

geogrid/src/geogrid.exe
metgrid/src/metgrid.exe
ungrib/src/ungrid.exe

Acquiring Data

To run WRF using real-data, you will need to acquire both static geography data and GRIB (General Regularly-distributed Information in Binary form) data that describes the weather conditions.

Geography Data

Create and navigate to a /geog directory and download the high-resolution geography data found here:

wget http://www2.mmm.ucar.edu/wrf/users/download/get_sources_wps_geog.html

You will need to put the appropriate path to this data in your namelist.wps.

GRIB Data

Download reanalysis data for your simulation preferred dates. It's suggested to use NARR-A data using the HAS data access link on the NOAA Website. Place this data in the /DATA directory. In the /WPS directory, you will have to link the path from WPS to DATA using:

 ./link_grib.csh path/to/data

If you're using NARR data, you will need to link the appropriate Variable Table. In the /WPS directory, type:

ln -sf ungrib/Variable_Tables/Vtable.NARR Vtable

Running WPS

There are three components to WPS:

  • ungrib.exe takes static GRIB data and turns it into an intermediate file format.
  • geogrid.exe takes static geographical data and fits it to your specified grid.
  • metgrid.exe takes output from geogrid.exe and ungrib.exe and interpolates the data to your domain for your specified times.

Ungrib and geogrid can be run independently of each other. Re-running one does not mean you have to re-run the other. However, metgrid must be run after both ungrid and geogrid. If you re-run one of geogrid or ungrib, then you will have to re-run metgrid.

Edit namelist.wps to specify your desired domain. A list of best practices for the namelist can be found here. If you're running with NARR data, set interval_seconds = 10800. To preview a map of your domain, use ncl:

module load ncl
ncl util/plotgrids_old.ncl

Since these three executables all take a small amount of time and computing power, it is helpful to submit them in the same job. At the end of your WPS submit script, put the following:

srun ./geogrid.exe
srun ./ungrib.exe
srun ./metgrid.exe

Check your *.log files for errors. A met_em file should be created for each time in your simulation: met_em.d01.YYYY-MM-DD_HH:00:00.nc.

Running WRF

Run WRF from either your /WRF/test/em_real or /WRF/real directory. Link your met_em files to this directory:

 ln -sf path_to_met_em_files/met_em.d0* . 

Edit the namelist.input to match the WPS domain and choose physics parameterizations. Best practices can be found here. Run ./real.exe and then ./wrf.exe.

If you're running a high-resolution or large-domain simulation, you may run into memory allocation errors when defining the grid. It is useful to use complete nodes with #SBATCH --mem=125G to run ./wrf.exe.

Post Processing

For a quick look at your data (during or after a run), use ncview:

module load ncview
ncview wrfout_d01_YYYY-MM-DD_HH:00:00

For a more detailed look at your data and for creating nicer graphics, you can use NCL or VisIt. To use VisIt, append a .nc to the end of your wrfout files:

cp wrfout_d01_YYYY-MM-DD_HH:00:00 wrfout_d01_YYYY-MM-DD_HH:00:00.nc

Useful Tips

Like ncview, ncdump, ncks, TSlist, bash scripts for TSlist, plotgrids_old, etc.

Troubleshooting Resources

All the WRF errors! Debug level!