Get payu:
module use /g/data/hh5/public/modules
module load conda/analysis3-unstable
Create a directory in which to keep the model configurations:
mkdir -p ~/access-esm
cd ~/access-esm
git clone https://github.com/coecms/access-esm
cd access-esm
Then check out the branch of the experiment you want to run (or base your run on), for example for pre-industrial, chose:
git checkout pre-industrial
Other branches include:
historicalssp585last-interglaciallast-millenium82ka
We strongly recommend to switch to a new branch for the running of the model:
git checkout -b runs
Run the model:
payu run
Check the output:
ls archive/
The default configuration is a 1 year per model run. To run the model for, say, 25 years:
payu run -n 25
Note:
We have noticed that some modules interfere with the git commands, for example matlab/R2018a.
If you are running into issues during the installation, it might be a good idea to module purge first before starting again.
payu was designed to help users of the NCI system run climate models. It was initially created for MOM, but has been adapted for other models, including coupled ones.
The aim of payu is to make it easy and intuitive to configure and run the models.
payu knows certain models and how to run them. Adding more models needs additions to the payu sources. This will not be part of this document.
To understand payu, it helps to distinguish certain terms:
- The laboratory is a directory where all parts of the model are kept.
It is typically in the user's short directory, usually at
/scratch/$PROJECT/$USER/<MODEL> - The Control Directory is the directory where the model configuration is kept and from where the model is run.
- The work directory is where the model will actually be run. It is typically a subdirectory of the Laboratory. Submodels will have their own subdirectories in the work directory, named after their name in the master configuration file. It is ephemeral, that means payu will clean it up after the run.
- The archive directory is where payu puts all output files after each run.
The work and archive directories will be automatically created by payu.
In the Control Directory, the file config.yaml is the master control file.
Examples of what is configured in this file are:
- The actual model to run.
- Where to find the model binaries and configurations
- What resources to request from the scheduling system (PBS)
- Links to the laboratory
- Start date and run length per submission pf the model
The model configuration files are typically in subdirectories of the Control Directory, the location of which is referenced in the master control file. Since the models itself do need different ways to set up the model, the contents of these subdirectories will differ between different models.
ACCESS (Australian Community Climate and Earth System Simulator) is a Coupled Climate Model.
The ESM 1.5 subversion of ACCESS specifically contains these models:
| Component | Model | Version |
|---|---|---|
| Atmosphere | UM-HG3 | 7.3 |
| Ocean | MOM | 5 |
| Sea Ice | CICE | 4.1 |
| Land | CABLE | 2.2.4 |
| Coupler | OASIS-MCT | 3.5 |
Pre-compiled executables for these models are available on raijin at
/short/public/access-esm/payu/bin/csiro/.
On gadi, first make sure that you have access to our modules.
This can most easily been done by adding the line
module use /g/data/hh5/public/modules
to your ~/.profile, then logging back in. Then all you have to do is
module load conda/analysis3-unstable
to load the payu module. Please check again after 7/2019 to see whether it has been made part of the stable conda module.
as payu will use git to keep track of all configuration changes automatically.
Create a directory in your home directory to keep all the Control Directories you might want.
mkdir ~/ACCESS-ESM
cd ~/ACCESS-ESM
Then clone the most recent version of the ACCESS-ESM control directory:
git clone https://github.com/coecms/esm-pre-industrial
cd esm-pre-industrial
Every time you run the model, payu will check whether anything has changed, including the configuration files, the ancillary files, and executables. If anything has changed, it will create a new commit in the git repository to keep track of the changes.
This can quickly create a lot new commits with such helpful names 'Run 1', 'Run 2', and so forth.
For this reason, it is strongly recommended that you switch to a branch specifically for you running the experiment.
You can do this by running
git checkout -b runs
Open the config.yaml file with your preferred text editor.
Let's have a closer look at the parts:
jobname: pre-industrial
queue: normal
walltime: 20:00:00
These are settings for the PBS system. Name, walltime and queue to use.
# note: if laboratory is relative path, it is relative to /short/$PROJECT/$USER
laboratory: access-esm
The location of the laboratory. At this point, payu can not expand shell environment variables (it's in our TO-DO), so as a work-around, if you use relative paths, it will be relative to your default short directory.
In this default configuration, it will be in /scratch/$PROJECT/$USER/access-esm.
But you can also hard-code the full path, if you want it somewhere different.
model: access
The main model. This mainly tells payu which driver to use. payu knows that access is a coupled model, so it will look for separate configurations of the submodels, which is the next item of the configuration file:
submodels:
- name: atmosphere
model: um
ncpus: 192
exe: /g/data/access/payu/access-esm/bin/coe/um7.3x
input:
- /g/data/access/payu/access-esm/input/pre-industrial/atmosphere
- /g/data/access/payu/access-esm/input/pre-industrial/start_dump
- name: ocean
model: mom
ncpus: 180
exe: /g/data/access/payu/access-esm/bin/coe/mom5xx
input:
- /g/data/access/payu/access-esm/input/pre-industrial/ocean/common
- /g/data/access/payu/access-esm/input/pre-industrial/ocean/pre-industrial
- name: ice
model: cice
ncpus: 12
exe: /g/data/access/payu/access-esm/bin/coe/cicexx
input:
- /g/data/access/payu/access-esm/input/pre-industrial/ice
- name: coupler
model: oasis
ncpus: 0
input:
- /g/data/access/payu/access-esm/input/pre-industrial/coupler
This is probably the meatiest part of the configuration, so let's look at it in more detail.
Each submodel has
- a name
- the model to know which driver to use
- the number of CPUs that this model should receive (ncpus)
- the location of the executable to use (exe)
- one or more locations for the input files.
The name is more than a useful reminder of what the model is. payu expects this submodel's configuration files in a subdirectory with that name.
collate:
exe: /g/data/access/payu/access-esm/bin/mppnccombine
restart: true
mem: 4GB
Collation refers joining together of ocean diagnostics that are output at model runtime
in separate, tiled, files. In a process using minimal resources the output files are
joined back together. The restart files are typically also tiled in the same way. Here
the restart: true option means the restart files from the previous run are also
collated. This saves space and cuts down the number of files which makes more efficient
use of storage and better for archiving in the future.
restart: /g/data/access/payu/access-esm/restart/pre-industrial
This is the location of the warm restart files. payu will use the restart files in there for the initial run.
calendar:
start:
year: 101
month: 1
days: 1
runtime:
years: 1
months: 0
days: 0
Here is the start date, and the runtime per run.
The total time you want to model is runtime * number of runs
runspersub: 5
This runspersub feature is a nifty tool to allow you to bundle several runs into a single submission for the PBS queue.
Let's have an example: Say you told payu to make 7 runs with the above setting. Each run would have a runtime of 1 year. So in the first submission it would run the model 5 times, to model years 101 through 105 respectively.
Then it would automatically resubmit another pbs job to model years 106 and 107, and then end.
The name in config.yaml for the atmosphere submodel is "atmosphere", so the configuration of the UM will be in the atmosphere subdirectory.
ls atmosphere/
CNTLALL SIZES __pycache__ ftxx ihist prefix.CNTLATM
CONTCNTL STASHC cable.nml ftxx.new input_atm.nml prefix.CNTLGEN
INITHIS UAFILES_A errflag ftxx.vars namelists prefix.PRESM_A
PPCNTL UAFLDS_A exstat hnlist parexe um_env.py
There are many configuration files, but I want to note the um_env.py.
This file is used to set environment variables for the UM.
The UM driver of payu will look for this file and add these definitions to the environment when it runs the model.
The name in config.yaml for the ocean submodel is "ocean", so the configuration
of MOM will be in the ocean subdirectory.
ls ocean
data_table diag_table field_table input.nml
The name in config.yaml for the ice submodel is "ice", so the configuration
of CICE will be in the ice subdirectory.
ls ice/
cice_in.nml input_ice.nml
If you have set up the modules system to use the /g/data3/hh5/public/modules folder, a simple module load conda/analysis3-unstable should give you access to the payu system.
From the control directory, type
payu setup
This will prepare a the model run based on the configuration of the experiment.
It will setup work and archive directories and link to them from within the
configuration directory.
You don't have to do that, as the run command also sets it up, but it helps to check for errors.
payu sweep
This command removes the work directory again, but leaves the archive.
Finally,
payu run
will submit a single run to the queue.
It will start from the beginning (as indicated by the start section in the config.yaml) if it has not run before.
To automatically submit several runs (and to take advantage of the runspersub directive), you use the -n option:
payu run -n 7
The output is automatically copied to the archive/outputXXX directories.