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This page links to tools used for the NorESM model evaluation.

NorESM Diagnostic Packages

Output from the latest NCAR diagnostic pages can be found on nird here:

via the web:

via the filesystem on nird here: /projects/NS2345K/www/diagnostics/noresm

NB: The following wiki page for the NorESM diagnostic tools is moved!!

Last updated: 12-Dec-2020.

Please go to the following NorESM documentation page for the latest description:

The diagnostics packages are currently available on NIRD. Each package can be run/configured from the command line using the program diag_run:

Version: 2.1
Short description:
A wrapper script for NorESM diagnostic packages.

Basic usage:
diag_run -m [model] -c [test case name] -s [test case start yr] -e [test case end yr] # Run model-obs diagnostics
diag_run -m [model] -c [test case name] -s [test case start yr] -e [test case end yr] -c2 [cntl case name] -s2 [cntl case start yr] -e2 [cntl case end yr] # Run model1-model2 diagnostics
nohup /projects/NS2345K/diagnostics/noresm/bin/diag_run -m [model] -c [test case name] -s [test case start yr] -e [test case end yr] &> out & # Run model-obs diagnostics in the background with nohup

Command-line options:
-m, --model=MODEL                             Specify the diagnostics package (REQUIRED).
                                              Valid arguments:
                                                cam    : atmospheric package (AMWG)
                                                clm    : land package (LMWG)
                                                cice   : sea-ice package
                                                blom   : ocean package
                                                hamocc : biogeochemistry package
                                                all    : configure all available packages.
-c, -c1, --case=CASE1, --case1=CASE1          Test case simulation (OPTIONAL).
-s, -s1, --start_yr=SYR1, --start_yr1=SYR1    Start year of test case climatology (OPTIONAL).
-e, -e1, --end_yr=EYR1, --end_yr1=EYR1        End year of test case climatology (OPTIONAL).
-c2, --case2=CASE2                            Control case simulation (OPTIONAL).
-s2, --start_yr2=SYR2                         Start year of control case climatology (OPTIONAL).
-e2, --end_yr2=EYR2                           End year of control case climatology (OPTIONAL).
-i, -i1, --input-dir=DIR, --input-dir1=DIR    Specify the directory where the test case history files are located (OPTIONAL).
                                              Default is --input-dir=/projects/NS2345K/noresm/cases
-i2, --input-dir2=DIR                         Specify the directory where the control case history files are located (OPTIONAL).
                                              Default is --input-dir=/projects/NS2345K/noresm/cases
-o, --output-dir=DIR                          Specify the directory where the package(s) the climatology and time-series files should be stored (OPTIONAL).
                                              Default is --output-dir=/projects/NS2345K/diagnostics/noresm/out/yanchun
-p, --passive-mode                            Run the script in passive mode: the diagnostic script will be configured but not executed (OPTIONAL).
-t, --type=TYPE                               Specify climatology or time series diagnostics (OPTIONAL): valid options are --type=climo and --type=time_series.
                                              Default is to run both. Note that the time series are computed over the entire simulation.
-w, --web-dir=DIR                             Specify the directory where the html should be published (OPTIONAL).
                                              Default is --web-dir=/projects/NS2345K/www/diagnostics/noresm/yanchun
--no-atm                                      Run CLM diagnostics without CAM data. Must be used for offline CLM simulations.

diag_run -m all -c N1850_f19_tn11_exp1 -s 21 -e 50 # model-obs diagnostics of case=N1850_f19_tn11_exp1 (climatology between yrs 21 and 50) for all model components.
diag_run -m cam -c N1850_f19_tn11_exp1 -s 21 -e 50 -w /path/to/my/html # model-obs diagnostics in CAM, publish the html in /path/to/my/html.
diag_run -m blom -c N1850_f19_tn11_exp1 -t time_series # model-obs time-series diagnostics in BLOM for all years represented in the model output directory (/projects/NS2345K/noresm/cases/N1850_f19_tn11_exp1/ocn/hist/).
diag_run -m cice -c N1850_f19_tn11_exp1 -s 21 -e 50 -p # configure (but do not run) model-obs diagnostics for CICE.
diag_run -m clm -c N1850_f19_tn11_exp1 -s 21 -e 50 -i /input/directory1 -c2 N1850_f19_tn11_exp2 -s2 21 -e2 50 -i2 /input/directory2 # model1-model2 diagnostics for CLM with user-specified history file directories
diag_run -m blom -c N1850_f19_tn11_exp1 -s 21 -e 50 -t climo # model-obs climatology diagnostics (no time series) for BLOM:
diag_run -m cam -o /my/dir # install CAM diagnostics in /my/dir with minimal configuration.
diag_run -m blom,hamocc -c N1850OC_f19_tn11_exp1 -s 21 -e 50 # model-obs diagnostics for BLOM and HAMOCC.
diag_run -m clm -c N1850_f19_tn11_clmexp1 -s 71 -e 100 --no-atm # model-obs time-series diagnostics for an offline (uncoupled) CLM simulation.
diag_run -m hamocc -c N1850OC_f19_tn11_exp1 -s 31 -e 100 -t time_series # model-obs time-series diagnostics in HAMOCC between yrs 31 and 100.

*** NOTE: '-m micom' should be used for the ocean component of NorESM version 1 ***

A comprehensive technical summary of diag_run (pdf): diag_run_documentation.pdf

Report any problems, comments or suggestions to Yanchun He:

Recent updates

  • 08.08.19. Note: NS2345K is recovered now, please use the normal /projects/NS2345K/noresm_diagnostics/bin/diag_run; put the webpage output to /projects/NS2345K/ and view the results at:
  • 08.08.19. Update to v6.0: add support to TS-derived mlts, global averages: tempga,salnga,sstga and sssga, updated volume transports, support extend Atlantic-Arctic overturning (mmflxd) for the NorESM2 version. And other minor changes
  • 29.08.18. Update to v5.1: update NCO/NCL versions to support efficient process of compressed netcdf-4 files.
  • 29.06.18. Update to v5.0: new fields to HAMOCC and MICOM diagnostics; minor fixes to other issues.
  • 20.04.18. Update to v4.3: added new fields to HAMOCC diagnostics.
  • 19.04.18. Update to v4.2: included ability to do time-series diagnostics between two user-specified years.
  • 18.04.18. Update to v4.1: improved climatology and time-series calculations in CLM, and introduction of the –no-atm option to enable diagnostics for offline CLM simulations.
  • 09.04.18. Update to v4.0: included the HAMOCC diagnostics package.
  • 23.02.18. Update to v3.1: added monthly MLD, seasonal SST/SSS and annual meridional heat/salinity fluxes to the MICOM diagnostics.
  • 17.01.18. Update to v3.0: the first version of MICOM diagnostics has been included.
  • 28.11.17. Update to v2.0: included a set of time series plots in CAM diagnostics, along with an html interface, which can be accessed from the index page (sets.htm).

Using diag_run with cron

If you want to use diag_run with crontab, you first need to load $HOME/.bash_profile, i.e.:

# Min Hour Day Month Weekday Command(s)
50 09 23 11 * . $HOME/.bash_profile; /projects/NS2345K/noresm_diagnostics/bin/diag_run -m cam,cice -c N18_f19_tn11_080617 -s 21 -e 50 -o /scratch/$USER/noresm_diagnostics2 -w \
/projects/NS2345K/www/test -t time_series >& /scratch/$USER/cron_out

Other tips

It is useful to add diag_run as an alias in $HOME/.bashrc, so that you do not need to write out the whole path every time you run it:

alias diag_run='/projects/NS2345K/diagnostics/noresm/bin/diag_run'

NorESM diagnostics on GitHub

The NorESM diagnostics packages and diag_run are included in the Git version control repository:

Aerosol and Chemistry, Clouds and Forcing Diagnostics

In both the default CAM5-aerosol packages (MAM3,MAM7) and the Oslo-aerosol packages, the budget terms can be taken out using a variable in the namelist :

Configuring a run with more aerosol diagnostics in (NorESM2)

history_aerosol = .true.

Two more diagnostics are useful:

  • Enable estimates multiple calls to radiation which are necessary for effective radiative forcing estimates
  • Enable diagnostics for AEROCOM

To enable this, take the file cam/src/physics/cam_oslo$ vim preprocessorDefinitions.h and copy it to your SourceMods/ folder

Change both preprocessor definitions to true

#define AEROCOM
#define AEROFFL

The AEROCOM-token turns on diagnostics needed for AEROCOM The AEROFFL-token tells the model to do additional radiation-diagnostics for aerosol indirect effect

Tracer Budget terms

Fields produced in monthly average files when running with budgets activated

Running with budgets activated will produce the following terms in the monthly output files:

Output variable name Meaning Comment
SF{Tracer} Emissions from surface
GS_{Tracer} gas phase chemistry 3D-emissions and gas phase washout included in this term
AQ_{Tracer} aquous chemistry
{Tracer}_Mixnuc1 Activation in clouds and evaporation of cloud droplets
{Tracer}_DDF Dry deposition flux (aerosol tracers)
{Tracer}_SFWET Wet deposition flux (aerosol tracers)
{Tracer}_condtend loss/production in condensation/nuclation (CAM-Oslo only)
{Tracer}_coagTend loss/production in coagulation (CAM-Oslo only)
DF_{Tracer} dry deposition flux (gas tracers) output with history_aerosol with CAM-Oslo only
WD_A_{Tracer} wet deposititon flux (gas tracers) output with history_aerosol with CAM-Oslo only
{Tracer}_CLXF 3D-emissions (“external forcing”) output with history_aerosol with CAM-Oslo only
{Tracer}_clcoagTend loss of tracer due to coagulation with cloud droplets output with history_aerosol with CAM-Oslo only

Note: Since 3D-emissions and and gas washout rates are included in the term GS_{Tracer} in the mozart chemistry solver, the individual terms can be found like this (example for SO2):

ncap2 -O -s GS_ONLY_SO2=GS_SO2-WD_A_SO2-SO2_CLXF

More info on SO2 budgets (see /models/atm/cam/tools/diagnostics/ncl/ModIvsModII/ for scripts with info on all tracers):

GS_SO2 contains the SO2 budget terms for all that goes on in the chemistry-routine, which is
1) Gas phase chemistry, 2) Wet deposition, and 3) 3D-emissions.
Gas phase chemistry is both production from DMS (GS_DMS) and loss through OH (GL_OH)
For calculations of net loss, e.g. used to calculate SO2 life-times, we're interested in the
loss through OH from the chemistry-term (GL_OH).
GS_SO2 = GL_OH + SO2_CLXF - WD_A_SO2 - GS_DMS*64/62
GL_OH = GS_SO2 - SO2_CLXF + WD_A_SO2 + GS_DMS*64/62

Estimating chemical loss w.r.t. S (instead of SO2 or DMS), for comparison with CAM4-Oslo numbers:
net chemial loss gas phase = (GS_SO2/1.998 - SO2_CLXF + WD_A_SO2)/1.998 + GS_DMS/1.938
net chemical loss = net chemial loss gas phase + AQ_SO2/1.998

Finally, total net loss (used to calculate life-time = -load/(net loss), where load = cb_SO2/1.998):
net loss =
- WD_A_SO2/1.998 ;wet deposition in kg/m2/sec (positive in output file)
- DF_SO2/1.998 ;dry deposition in kg/m2/sec (positive in output file)
+ AQ_SO2/1.998 ;wet phase production of SO4 in kg/m2/ses (negative in output file)
+ (GS_SO2 - SO2_CLXF + WD_A_SO2)/1.998 + GS_DMS/1.938 ; net chemical loss gas phase

Looking at the aerosol budgets (CAM-Oslo only)

  • Go to the directory models/atm/cam/tools/diagnostics/ncl/budgets
  • Change the filename to use in the file budgets.ncl (“myFileName” around line 18). Should be for example yearly average of month-avg file in a run with budgets
  • Run the script to create a pdf-file (output.pdf)

NCL Model Version Comparison package (Alf K)

Making ncl plots of often used aerosol and cloud fields, including ERFs, for two model versions (CAM-Oslo only)

  • Make a local copy (on Linux) of the directory models/atm/cam/tools/diagnostics/ncl/ModIvsModII
  • Assuming that you have produced output data from 4 simulations: two different model versions, each with PD and PI emissions, and all run with #define AEROCOM & AEROFFL:
  • In ModIvsModII.csh (note: read the header info):
  • - edit model info for the first model (shown to the left in the plots): modelI = CAM4-Oslo or modelI = CAM5-Oslo ?
  • - provide paths and partial file names of the model data (PD and PI) for Model I (CAM4-Oslo or CAM5-Oslo) and Model II (must be CAM5-Oslo)
  • - choose desired plot format (plotf=ps, eps, pdf or png)
  • Run the script: ./ModIvsModII.csh
  • Furthermore, to display the plots in an organized form by use of a web browser (only possible if the chosen plot format is png):
  • - edit general model info (only) in ModIvsModII.htm, and manually cut and paste the mass budget numbers from the script output into this file
  • - copy all png (plots) and htm files to the desired output (common) directory
  • - open ModIvsModII.htm in your browser: hyper-links to all other htm files, including plots, are found here

Cloud water mass and number analysis (budgets)

Configuring a run with more cloud diagnostics in NorESM2

To switch on extra output for cloud diagnostics (mass and number tendencies for liquid water and mass) change the following namelist variable:

history_budget = .true.

A python script for plotting the mass and number budgets for the cloud microphysics can be found under:


in the same branch. Copy the script to your local computer or lustre and edit the script to read the correct input file(s) (instructions inside the script). Run the script by typing:


in your terminal.

Automatic AEROCOM analysis

To prepare output so that it is processed automatically by the aerocom tools, use the script located at models/atm/cam/tools/aerocom/ in the svn repository. The script prepares files such that the idl aerocom tools prepare plots for the aerocom webinterface: URL link to NorESM on AeroCom webinterface

The script requires <ModelName>_<ExperimentName> and <Period> as input.

<Period>: for a climatological average and run choose 9999 , for nudged simulations choose the year of the meteorology

<ModelName>_<ExperimentName>: is the dataset identifier under which the plots appear on the AeroCom webinterface
in the required format NorESM-CAM5_svn{RevisionNumber}_YYMMDD{initials}_Freetext.

Example: “NorESM-CAM5_svn1094_151201AG_CMIP6endelig
Initials AG: Alf Grini, AK: Alf Kirkevåg, DO: Dirk Olivie…

Where the date YYMMDD corresponds to the time when the AeroCom data preparation script has been executed.

The script creates files named like


<ModelName> ⇒ eg NorESM-CAM53
<ExperimentName> ⇒ svn{RevisionNumber}_YYMMDD{initials}_Freetext
<VariableName> ⇒ aerocom variable names
<VerticalCoordinateType> ⇒ “Surface”, “Column”, “ModelLevel”, “SurfaceAtStations”, “ModelLevelAtStations” 
<Period> ⇒ eg “2008”, “2010”, “9999”
<Frequency> ⇒ “timeinvariant”,”hourly”, “daily”, “monthly”, “sat1000”, “sat1330”, “sat2200”, “sat0130”

Note that VerticalCoordinateType is dependent on the variable!! It is not a question about “vertical coordinate type used in model simulations”!

The script copies files on norstore into /projects/NS2345K/CAM-Oslo/DO_AEROCOM/<ModelName>_<ExperimentName>/renamed/

ESMval CIS JASMIN platform and tools

Post analysis and workup of CAM diagnostics output tables

A tool for post analysis of (multiple) CAM diagnostics ASCII tables can be found in the following repository:


To get started, please follow the instructions in repository README (displayed in repository). Currently, the main analysis tool is a jupyter IPython notebook called

analysis_tool.ipynb (

which includes more detailed instructions about setup and options.

Use the notebook

to download local copies of result tables using a list of URL's.

Short summary: The notebook reads multiple diagnostics files (runs) into one long table and creates heatmap plots of Bias, RMSE and RMSE relative error for a subset of variables (rows → y-axis of heatmap) vs. the individual runs (columns → xaxis).

NOTE: In the current version, you need to download all tables that you are interested in as csv or ascii into one directory, that is specified in the header of the notebook.

Variable groups can be defined in this config file:

NOTE: If you add groups to this file in your local copy of the repository, please consider sending the updated to or to submit a pull request, so that the remote repository remains up to date.


If you run into problems, please raise an issue in the repository or contact

noresm/modeldiagnostics.txt · Last modified: 2020-12-22 12:44:09 by