WRF-Fire merge testing

Please see Talk:WRF-Fire_merge_testing for permanent notes.

The basics

The version to test is branch fuel-moisture-model currently at commit c1cedfc7eba28a2ed

The baseline is WRF4 branch develop currently at commit 0f296f9c0f674f9

When either branch advances we have to retest - after any fix in fuel-moisture-model, and, after we are done, we will have to forward branch develop to current WRF4 and merge it into fuel-moisture-model. For this reason (and to reduce confusion), I am trying to organize the tests in a way that they are really easy to rerun without modifying any files - separate clones for different compilation options and separate copies of test/em_fire directory for different test cases.

The namelist.input and namelist.fire with variables that turn the fuel moisture model and fire on are in test/em_fire_rain/rain. The description of the namelist variables is at Fuel_moisture_model#Configuration. Other features from WRF-SFIRE are not carried over - only the fuel moisture model.

Who is doing what

Angel - WTF, parallel testing of both branches for identical results, all test cases in test/em_fire
Adam - a real problem
Jan - fixing, selected testing as needed

How to test

Record also unsuccessful tests, when fixed, replace by the final result and include link to the commit used
All tests should be reproducible by checking out the commit noted, which should include all data for ideal runs
For real runs, please link to the datasets to be reproducible

What needs to be tested

Fuel moisture model off vs. WRF4 baseline, with and without fire, did we change anything?
reading fmc_g, is it doing what it should?
Fuel moisture model on, fire on, is it doing what it should?
Serial and parallel execution with different numbers of CPUs, are the numbers same?
WTF as specified in WRF testing requirements
All ideal cases in test/em_fire and some real

Jan's test results

All kingspeak runs are in /uufs/chpc.utah.edu/common/home/u6015690/merge and run on node kingspeak11 (nodes can be different).

Baseline

branch develop 0f296f9c0f674f9

ifort serial (13), nesting 0, configure -d, WRF-Fire-merge-develop/test/em_fire/

Using fmc_g

ifort serial (13), nesting 0, configure -d, WRF-Fire-merge-fuel-moisture-model/test/em_fire/ branch fuel-moisture-model c1cedfc7eba28a2ed namelist.input -> namelist.input_hill_simple:

Fuel moisture model

branch fuel-moisture-model, copies of test/em_fire as em_fire_xxxx

ifort serial (13), nesting 1, configure -d, WRF-Fire-merge-fuel-moisture-model-jm branch fuel-moisture-model-jm 21e4b028d80723ca
- em_fire_orig (no change)
- em_fire_fmc/fmc
- em_fire_rain/rain commit 8b3acf710816d8e10 no change for 1,2,3,4,6 cpus

Angel's test results

All kingspeak runs are in /uufs/chpc.utah.edu/common/home/kochanski-group3/farguella/merge.

Branch develop vs. added-fmc_g

The branch develop and branch added-fmc_g are in kingspeak in folders WRF-Fire-merge-develop and WRF-Fire-merge-added-fmc_g respectively. They are tested in order to see the first new functionalities of adding variable FMC_G in WRF4 baseline. Tests are from list in https://www.openwfm.org/index.php?title=Porting_WRF-SFIRE_fuel_moisture_model_to_WRF4#Testing_to_be_done.

All the runs are on node kingspeak11 and kinspeak12 and all the compilations are done using ifort serial (13), nesting 0.

fire_fmc_read not present in namelist.input

One can observe that both simple hill simulations are exactly the same running

diff WRF-Fire-merge-develop/test/em_fire/wrf.log WRF-Fire-merge-added-fmc_g/test/em_fire/hill_tests/original/wrf.log -I Timing

which returns

10c10
<    alloc_space_field: domain            1 ,              344571608  bytes allocated
---
>    alloc_space_field: domain            1 ,              345388824  bytes allocated

Therefore, the only difference is in the allocation size as expected.

However, the new branch added-fmc_g is creating new variable FMC_G taken constant value of fuelmc_g from namelist.fire all over the domain. Changing value of fuelmc_g in namelist.fire changes the value of the new variable FMC_G.

fire_fmc_read present in namelist.input

Setting

fire_fmc_read=0

and poblating FMC_G variable in wrfinput_d01 using ncreplace in Matlab. The branch added-fmc_g uses the new FMC_G in the simulation from new wrfinputs. Tested using:

Constant FMC_G field of 0.07: WRF-Fire-merge-added-fmc_g/test/em_fire/hill_tests/fmc_07.

Constant FMC_G field of 0.08: WRF-Fire-merge-added-fmc_g/test/em_fire/hill_tests/fmc_08. Exactly the same results that branch develop which was taking the information from namelist.fire file.

Random FMC_G field: WRF-Fire-merge-added-fmc_g/test/em_fire/hill_tests/fmc_rand. Gives the progression with random bumps as expected.

Slope FMC_G field: RF-Fire-merge-added-fmc_g/test/em_fire/hill_tests/fmc_slope.

Branch develop vs. fuel-moisture-model without fuel moisture

The experiments tested are hill_simple and two_fires ideal cases. In the branch fuel-moisture-model, the fuel moisture model is turned off and we want to obtain exactly the same results than using branch develop.

The branch develop and branch fuel-moisture-model are compiled and runned in Cheyenne in folders /gpfs/fs1/p/univ/ucud0004/angelfc/merge/develop* and /gpfs/fs1/p/univ/ucud0004/angelfc/merge/fuel-moiture-model* respectively.

All the simulations are done in folders test/em_fire/hill_simple and test/em_fire/two_fires.

Intel

Serial executions: develop-intel-serial and fuel-moisture-model-intel-serial.

They are compiled using configure option: ifort compiler with icc serial (13), nesting 0.

Both hill simple and two fires cases give exactly the same results.

OpenMP executions: develop-intel-openmp and fuel-moisture-model-intel-openmp.

They are compiled using configure option: ifort compiler with icc dmpar (14), nesting 0.

MPI executions: develop-intel-mpi and fuel-moisture-model-intel-mpi.

They are compiled using configure option: ifort compiler with icc dmpar (15), nesting 1.

In both ideal cases hill simple and two fires, same results in variables U, V, and TIGN_G from wrfouts. Using 1, 2, 4 and 8 MPI processes.

Hybrid executions: develop-intel-hybrid and fuel-moisture-model-intel-hybrid.

They are compiled using configure option: ifort compiler with icc dmpar (16), nesting 1.

All the executions crash because of memory corruption.

PGI

GNU

WRF in fuel-moisture-model branch

In order to test WRF in the new branch fuel-moisture-model, the WTF is used.

Running WTF in Cheyenne

The new WTF code is downloaded using

wget http://www2.mmm.ucar.edu/wrf/src/wtf_v04.09_small.tar

After that, the tar file is uncompressed using

tar -xvf wtf_v04.09_small.tar
cd WTF_v04.09

Once one try to use ./run_from_github.py python execution, an error appear which says that Data folder is old. So, the new Data folder is downloaded using

cd ..
wget http://www2.mmm.ucar.edu/wrf/tmp/data_v04.08.tar

After that, the new data is uncompressed and replaced using

tar -xvf data_v04.08.tar
rm -fr WTF_v04.09/Data
mv Data WTF_v04.09

Then, the new version of the data is updated in line 42 of run_from_github.py file as

version="v04.08"

It is also needed to provide the account code to run the qsub in file qsub_this_to_run_all_compiler.csh. In our case, it should be

#PBS -A UCUD0004

Finally, one can run the code doing

./run_from_github.py

One needs to give also the github repository to test and the branch which are going to be:

URL of the repository: https://github.com/openwfm/WRF-Fire-merge
branch: fuel-moisture-model