GEOS-Chem in CESM: Difference between revisions
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=== Configuring diagnostics === | === Configuring diagnostics === | ||
Reading the CESM documentation about diagnostics is essential to understand how it works since it is not very intuitive. The section to read is the [https://ncar.github.io/CAM/doc/build/html/CAM6.3_users_guide/model-output.html Model output section of the CAM 6.3 User Guide]. GEOS-Chem is implemented in CESM such that the HISTORY.rc file | Reading the CESM documentation about diagnostics is essential to understand how it works since it is not very intuitive. The section to read is the [https://ncar.github.io/CAM/doc/build/html/CAM6.3_users_guide/model-output.html Model output section of the CAM 6.3 User Guide]. | ||
GEOS-Chem is implemented in CESM such that the HISTORY.rc file is used to specify GEOS-Chem State_Diag, State_Met, and State_Chm fields to output. However, it is important to understand that most of the file is ignored, output files are configured differently, and additional non-GEOS-Chem diagnostics are configured elsewhere but appear in the same file. When you create a case there will be a GEOS-Chem HISTORY.rc file copied to the case control directory. Read the comments in that file to learn about how to use it. | |||
=== Developing the model === | === Developing the model === |
Revision as of 17:06, 22 May 2024
Overview
This page serves as a resource for using GEOS-Chem in the Community Earth System Model (CESM). It is meant to supplement not replace existing CESM documentation and therefore includes a guide to navigating CESM resources maintained by NCAR. The rest of the page focuses on aspects of the model specific to GEOS-Chem and is written primarily to help offline GEOS-Chem users get started. CESM users interested in using GEOS-Chem chemistry may also find it useful but should additionally look at GEOS-Chem documentation listed on the main page of this wiki.
(Brief history of GEOS-Chem in CESM with citable references...here or in a new section)
CESM Resources
Model documentation
The best way to successfully use GEOS-Chem chemistry in CESM is to become familiar with CESM documentation and guides maintained by NCAR. The CESM2 Quickstart Guide contains an overview of the model and instructions for downloading, building, and running CESM2. CESM2 is built upon a framework called Common Infrastructure for Modeling the Earth (CIME, pronounced "SEAM") which handles configuring, compiling, testing, and running the model. Offline GEOS-Chem users can think of CIME as run directory management and testing, containing the equivalent of what is found in the 'run' and 'test' directories within GEOS-Chem. Read through the CIME documentation to become familiar with the concepts of CIME and to get detailed instructions for creating run directories, configuring a run, building the source code, and running the model. Community Atmosphere Model (CAM) is the atmospheric component of CESM and includes both GEOS-Chem and HEMCO as subcomponents. The CAM6.3 documentation builds upon information in the CESM Quickstart Guide and the CIME documentation. Read through it to learn about the atmospheric component's configuration options, data inputs, and model outputs.
Model websites
NCAR maintains several websites with up-to-date information about CESM. The CAM website and CESM with Chemistry Wiki page are of particular interest to GEOS-Chem users.
Data visualization and analysis
NCAR provides jupyter notebook examples of visualizing and analyzing CESM output data. Examples for atmospheric chemistry modeling with CAM-Chem are relevant for modeling with GEOS-Chem.
Getting help
CESM help requests are handled on a searchable forum maintained by NCAR. Consider registering for a free account if you plan to use CESM.
Glossary
CAM = Community Atmosphere Model
case = unique set of compset and grid
case directory = user-created directory for a case where you can configure, build, and run CESM using CIME tools
CESM = Community Earth System Model
CIME = Common Infrastructure for Modeling the Earth
component = building block of CESM; the model is comprised of seven geophysical components, one external system processing component, and one driver/coupler component
compset = named set of components with default component-specific configurations and namelist settings
SIMA = System for Integrated Modeling of the Atmosphere
One-time Setup
Download CESM
NCAR docs: Downloading CESM
To use GEOS-Chem you should checkout CESM tag cesm2_3_alpha17e or later. This version uses CAM tag cam6_3_160 which includes GEOS-Chem v14.1.2. The NCAR CESM documentation will guide you through downloading CESM and populating the externals. "Externals" mean source code repositories that are separate from the CESM source code repository that you download. This is similar to how the GC-Classic initial download is mostly an empty set of directories until you run 'git submodule update --init --recursive' which checks out git submodules. CESM uses a package called manage_externals rather than git submodules and stores information about the externals in local configuration file Externals.cfg (see here for example file). All externals are checked out with command "./manage_externals/checkout_externals". The checkout is recursive, meaning any external that has its own custom externals config file will also have the externals in that file checked out. This is how GEOS-Chem and HEMCO are downloaded. The CAM external includes file Externals_CAM.cfg (example here) which specifies GEOS-Chem, as well as the HEMCO interface (HEMCO_CESM). HEMCO is specified in the HEMCO_CESM externals config file Externals_HCO.cfg (example here).
Download input data
NCAR docs: Downloading input data
On Derecho:
On external cluster:
Configure CIME
Scenario 1: NCAR Derecho HPC cluster
Scenario 2: External HPC cluster
Prerequisites
The paths to these libraries (containing their bin, lib or lib64) is necessary to configure CIME to point to the right locations.
- Intel or GNU compiler
- netCDF, netCDF-Fortran
- MPI
- ESMF built with PIO support (built-in is OK) and netCDF IO support.
Configuring CIME
Relevant NCAR docs: Defining the machine - CIME documentation
Set up is much easier if previous users of your HPC cluster have configured a prior version of CESM.
CIME configuration for CESM2.3 has slightly changed. In previous versions of CESM, environmental configuration specific to your HPC cluster was in one config_machines.xml file. In CESM2.3 and above, the same information is now split into separate files. The following steps should be performed to add your HPC cluster configuration to CIME, while consulting a prior setup of CESM for relevant entries.
All of the below configuration is under ccs_config/machines.
1. Edit config_machines.xml to add a new line within <NODENAME_REGEX> with <value MACH="name_of_your_cluster">regex pattern here</value> to match the hostname pattern of your HPC system (consult the hostname command).
2. Create a folder with name_of_your_cluster. It may be easier to copy the existing ubuntu-latest folder.
3. Edit config_machines.xml to insert the machine configuration (<machine> tag) from a previous version of CESM. This usually includes MPI configuration and OS information as well as compiler configuration. The actual entries can be very long.
4. Create a file named name_of_your_cluster.cmake under cmake_macros to include any necessary cmake macros to point the compiler to the correct ESMF, netCDF, MPI library location. Refer to userdefined.cmake for some sample definitions. This .cmake file will automatically be used based on the machine name.
Quickstart basics
This guide assumes you have already read the CIME documentation. If you have not already done this then you should start there. Many details are skipped since they are already included in that guide.
Create case
A "case" in CESM is similar to a GEOS-Chem run directory. You navigate to the source code, create a case which creates a local case directory, navigate to the case directory, and then do all of your configuration, build, and run commands there. Unlike in GEOS-Chem, a second case directory is also created elsewhere on your system. This directory will contain a build directory ("bld") and a run directory ("run") and will store most of the build and run files, including output netCDF files. Having this second directory separate from your source code allows you to keep your source code in your run directory and not risk running out of memory when running CESM. You can think of the first directory as the "case control" directory where you change files and execute commands and the second directory as where files are created and stored. Please be aware that the second directory contains copies of configuration files and you should always only configure your case from the control directory instead.
Each case is created from a CESM compset (set configuration of model components) and a specified grid resolution. You can think of a compset as similar to a GEOS-Chem simulation type. Like GEOS-Chem Classic you should create a new case if changing to a different grid resolultion.
There are four CESM compsets that use GEOS-Chem version 14.1.2. In the future this number will be reduced to two per recommendation from NCAR. The four GEOS-Chem compsets currently used in CESM are:
- FCHIST_GC
- FCnudged_GC
- FC2000climo_GC
- FC2010climo_GC
Creating a case is done by python script create_newcase in the cime/scripts directory in the source code. You can navigate to cime/scripts and execute the script here. This will put the case control directory within cime/scripts.
Here is a generic template for using create_newcase, followed by an example for making a new case for FCHIST_GC on the NCAR derecho compute cluster.
./create_newcase --case {case_name} --compset {compset_name} --res f19_f19_mg17 --run-unsupported --project {project_id} --mach {machine} ./create_newcase --case case.FCHIST_GC_f19 --compset FCHIST_GC --res f19_f19_mg17 --run-unsupported --project UHAR0022 --mach derecho
The case name is whatever you would like it to be and will be the name of the case directories. Including compset name and grid in the case name is useful if you plan to have multiple cases for different compsets and grid resolutions. The project ID is only needed if you are running on derecho and should be a project you are a collaborator on. The machine name is defined in config_machines.xml.
Setup case
Setting up a case is an intermediate step between creating a case and building the model. It is needed to create additional files and directories that incorporate settings you may change after creating the case. Use the xmlquery and xmlchange tools in the case control directory to review and change settings. Below are examples of viewing and changing run duration to 1 day and number of processors used to 72.
./xmlquery STOP_N ./xmlchange STOP_N=1 ./xmlquery NTASKS ./xmlchange NTASKS=72
Once you are satisfied with your settings use the case.setup script in your case control directory to setup the case.
./case.setup
Build the model
Building CESM is done by python script case.build in the case directory. Always remember to setup your case prior to building. For reference, here are the basic commands to (1) build, and (2) clean your build.
./case.build ./case.build --clean
Run the model
Use script case.submit to run the model. It will submit the run as a batch job if you have a job scheduler on your machine. Otherwise it will submit as an interactive run.
./case.submit
Output data and logs
Tips and tricks
Case tools
Many CESM settings are stored in XML files in the case control directory. Viewing and changing these settings can be tricky if you are not familiar with CIME tools xmlquery and xmlchange. While CIME documentation is the best source for how to use CIME tools to configure settings we also put together a guide for this. See Guide to CAM Namelists and Case Tools created by GCST member Lizzie Lundgren.
Build-time settings
Run-time settings
When to create a new case
You will always need to create a new case if you want to have a new combination of compset, grid resolution, and machine. In addition there are certain settings that are fixed when you create a case. These are stored in XML file env_case.xml. If there are any settings in there you want to change then that is a clue you should create a new case, e.g. CAM version used or case directory name or location.
Configuring diagnostics
Reading the CESM documentation about diagnostics is essential to understand how it works since it is not very intuitive. The section to read is the Model output section of the CAM 6.3 User Guide.
GEOS-Chem is implemented in CESM such that the HISTORY.rc file is used to specify GEOS-Chem State_Diag, State_Met, and State_Chm fields to output. However, it is important to understand that most of the file is ignored, output files are configured differently, and additional non-GEOS-Chem diagnostics are configured elsewhere but appear in the same file. When you create a case there will be a GEOS-Chem HISTORY.rc file copied to the case control directory. Read the comments in that file to learn about how to use it.
Developing the model
Debugging and getting help
For general CESM help please use the DiscussCESM forum linked to in the CESM Resources section of this page. For GEOS-Chem help please following support instructions provided on GEOS-Chem ReadTheDocs here. Depending on the issue you may be referred by the CESM Support Team to contact the GEOS-Chem Support Team, or vice versa.