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GEOSldas Fixture

This document explains how to build, set up, and run the GEOS land modeling and data assimilation system (GEOSldas) on the most common systems used by GMAO. Additional steps are needed on other systems.

Note: GEOSldas Repository Structure Revised (March 2024)

On 26 March 2024, GEOSldas was restructured and split into two repositories. Specifically, the GEOSldas source code was moved from the GEOSldas fixture into a new repository, the GEOSldas_GridComp, which is now imported into the fixture as an external repository. Note that the GEOSldas_GridComp includes the "Applications" directory ./GEOSldas_App.

How to Build GEOSldas

Step 1: Load the Build Modules

Load the GEOSenv module provided by the GMAO Software Infrastructure team. It contains the latest git, CMake, and mepo modules and must be loaded in any interactive window that is used to check out and build the model.

module use -a (path)
module load GEOSenv

where (path) depends on the computing system; at NCCS, (path) also depends on the operating system (SLES12 on Skylake and Cascade Lake nodes; SLES15 on Milan nodes, as of Jan. 2024):

System Path
NCCS Discover /discover/swdev/gmao_SIteam/modulefiles-SLES12
/discover/swdev/gmao_SIteam/modulefiles-SLES15
NAS /nobackup/gmao_SIteam/modulefiles
GMAO desktops /ford1/share/gmao_SIteam/modulefiles

Step 1 can be coded into the user's shell configuration file (e.g., .bashrc or .cshrc). See the GEOSgcm Wiki for sample shell configuration files.

Step 2: Obtain the Model

For development work, clone the entire repository and use the develop branch as your starting point:

git clone -b develop [email protected]:GEOS-ESM/GEOSldas.git

For science runs, you can also obtain a specific tag or branch only (as opposed to the entire repository), e.g.:

git clone -b v17.9.1 --single-branch [email protected]:GEOS-ESM/GEOSldas.git

Step 3: Build the Model

To build the model in a single step, do the following from a head node:

cd ./GEOSldas
parallel_build.csh

This checks out all the external repositories of the model (albeit only on the first run, see subsection on mepo below!) and then builds and installs the model.

At NCCS, the default is to build GEOSldas on SLES12 (Skylake or Cascade Lake nodes); to build GEOSldas on SLES15 (Milan nodes), use parallel_build.csh -mil.

The resulting model build is found in build[-SLESxx]/, and the installation is found in install[-SLESxx]/, with setup scripts like ldas_setup in install[-SLESxx]/bin.

To obtain a build that is suitable for debugging, use parallel_build.csh -debug, which builds in build-Debug[-SLESxx]/ and installs in install-Debug[-SLESxx]/. There is also an option for aggressive optimization. For details, see the GEOSldas Wiki.

Instructions for building the model in multiple steps are provided below.


How to Set Up (Configure) and Run GEOSldas

a) At NCCS, GEOSldas must be built, configured, and run on the same operating system. To run GEOSldas on Milan nodes (SLES15), start with ssh discover-mil.

b) Set up the job as follows:

cd (build_path)/GEOSldas/install[-SLESxx]/bin
source g5_modules                        [for bash or zsh: source g5_modules.[z]sh]
./ldas_setup setup [-v]  (exp_path)  ("exe"_input_filename)  ("bat"_input_filename)

where

Parameter Description
build_path path to build directory
exp_path path of desired experiment directory
"exe"_input_filename filename (with path) of "experiment" inputs
"bat"_input_filename filename (with path) of "batch" (job scheduler) inputs

The three arguments for ldas_setup are positional and must be ordered as indicated above.

The latter two files contain essential information about the experiment setup. Sample files can be generated as follows:

ldas_setup sample --exeinp > YOUR_exeinp.txt
ldas_setup sample --batinp > YOUR_batinp.txt

Edit these sample files following the examples and comments within the sample files.

The ldas_setup script creates a run directory and other directories at: [exp_path]/[exp_name]

Configuration input files are created at: [exp_path]/[exp_name]/run

For more options and documentation, use any of the following:

ldas_setup        -h
ldas_setup sample -h
ldas_setup setup  -h

c) Configure the experiment output by editing the ./run/HISTORY.rc file as needed.

d) Run the job:

cd [exp_path]/[exp_name]/run/
sbatch lenkf.j

At NCCS, the appropriate SLURM directive #SBATCH --constraint=[xxx] is automatically added into lenkf.j depending on the operating system.

For more information, see the files in ./doc/. Moreover, descriptions of the configuration (resource) parameters are included in the sample "exeinp" and "batinp" files that can be generated using ldas_setup.


Additional Information

How to Build the Model in Multiple Steps

The steps detailed below are essentially those performed by parallel_build.csh in Step 3 above. Either method should yield identical builds.

mepo

The GEOSldas is comprised of a set of sub-repositories. These are managed by a tool called mepo. To clone all the sub-repositories, you can run mepo clone inside the fixture:

cd GEOSldas
mepo init
mepo clone

External sub-repositories are stored in directories pre-faced with @. After parallel_build.csh has run once and created ./@env/, parallel_build.csh skips mepo clone in subsequent runs. This means that the sub-repositories in your sandbox could get out of sync with the GEOSldas repository while you are working on your sandbox, which may result in a difficult-to-understand build error when parallel_build.csh is used. If this happens, try a fresh clone, or use mepo commands to update the sub-repositories manually.

Load Compiler, MPI Stack, and Baselibs

On tcsh:

source @env/g5_modules

or on bash:

source @env/g5_modules.sh

Create Build Directory

We currently do not allow in-source builds of GEOSldas. So we must make a directory:

mkdir build

Run CMake

CMake generates the Makefiles needed to build the model.

cd build
cmake .. -DBASEDIR=$BASEDIR/Linux -DCMAKE_Fortran_COMPILER=ifort -DCMAKE_INSTALL_PREFIX=../install

This installs into a directory parallel to your build directory. If you prefer to install elsewhere change the path in:

-DCMAKE_INSTALL_PREFIX=<path>

and CMake will install there.

Build and Install with Make

make -j6 install

If you are at NCCS, you should run make -j6 install on an interactive compute node.

Contributing

Please check out our contributing guidelines.

License

All files are currently licensed under the Apache-2.0 license (LICENSE).

Previously, the code was licensed under the NASA Open Source Agreement, Version 1.3 (LICENSE-NOSA).