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revision 1.4 by dimitri, Sat Dec 28 10:11:11 2002 UTC revision 1.15 by dimitri, Tue Apr 6 21:42:33 2004 UTC
# Line 24  NCEP reanalysis (see pkg/seaice/SEAICE_F Line 24  NCEP reanalysis (see pkg/seaice/SEAICE_F
24    vwindFile      = 'v10m.labsea79'    # 10-m meridional wind    vwindFile      = 'v10m.labsea79'    # 10-m meridional wind
25    atempFile      = 'tair.labsea1979'  # 2-m air temperature    atempFile      = 'tair.labsea1979'  # 2-m air temperature
26    aqhFile        = 'qa.labsea1979'    # 2-m specific humidity    aqhFile        = 'qa.labsea1979'    # 2-m specific humidity
27    lwfluxFile     = 'flo.labsea1979'   # longwave radiation    lwdownFile     = 'flo.labsea1979'   # downward longwave radiation
28    swfluxFile     = 'fsh.labsea1979'   # shortwave radiation    swdownFile     = 'fsh.labsea1979'   # downward shortwave radiation
29    precipFile     = 'prate.labsea1979' # precipitation    precipFile     = 'prate.labsea1979' # precipitation
30    evapFile       = 'evap.labsea1979'  # evaporation  
31    The experiment uses pkg/gmredi, pkg/kpp, pkg/seaice, and pkg/exf.
32    The test is a 1-cpu, 10-hour integration.   Both the atmospheric
33    state and the open-water surface fluxes are provided by pkg/exf.
34    
35    More pkg/seaice test experiments, configured for low and
36    high-resolution global cube-sphere domains are described
37    in MITgcm_contrib/high_res_cube/README_ice.
38    
39    
40  Using testscript to test sea-ice code  Using testscript to test sea-ice code
41  =====================================  =====================================
42    
43  Running the testscript experiment:  Running the testscript experiment:
44    cd verification    cd MITgcm/verification
45    ./testscript -force lab_sea    ./testreport -t lab_sea
 The default experiment is Experiment 8, below.  
 It uses pkg/gmredi, pkg/kpp, pkg/seaice, and pkg/exf.  
46    
47  Note that fairly large differences in accuracy occur across different  Note that fairly large differences in accuracy occur across different
48  platforms.  For example, testscript comparisons between g77 (Linux)  platforms.  For example, testscript comparisons between g77 (Linux)
# Line 52  g d e n  d  n  x  n  .  n  x  n  .  n  x Line 57  g d e n  d  n  x  n  .  n  x  n  .  n  x
57  Y Y Y Y  8 10  9 11 10  9 11 13 10  9  8  8  9  8  9  8  9 FAIL  lab_sea  Y Y Y Y  8 10  9 11 10  9 11 13 10  9  8  8  9  8  9  8  9 FAIL  lab_sea
58    
59    
60  Instructions for generating 1-CPU and 2-CPU executables  Instructions for generating and running a 1-CPU experiment
61  =======================================================  ==========================================================
62    
63  Generating 1-CPU executable:    cd MITgcm/verification/lab_sea
64    cd verification/lab_sea/input    mkdir build
65    ln -sf ../code/SIZE.h .    cd build
66    ln -sf ../code/CPP_EEOPTIONS.h .    cp ../code/*.h ../code/packages.conf .
67    ln -sf ../code/CPP_OPTIONS.NOEXF.h CPP_OPTIONS.h    ../../../tools/genmake2
   rm -f SEAICE_OPTIONS.h  
   ../../../tools/genmake -makefile  
     ==> on alhena use:  
     ../../../tools/genmake -platform=o2k_noopt -makefile  
   make clean  
   make depend  
   make  
   mv mitgcmuv mitgcmuv_1  
   
 Generating 1-CPU executable with SEAICE_EXTERNAL_FORCING:  
   cd ../../../verification/lab_sea/input  
   ln -sf ../code/SIZE.h .  
   ln -sf ../code/CPP_EEOPTIONS.h .  
   ln -sf ../code/CPP_OPTIONS.h .  
   ln -sf ../code/ECCO_CPPOPTIONS.h .  
   ln -sf ../code/SEAICE_OPTIONS.h .  
   ../../../tools/genmake -makefile  
     ==> on alhena use:  
     ../../../tools/genmake -platform=o2k_noopt -makefile  
   make clean  
   make depend  
   make  
   mv mitgcmuv mitgcmuv_exf_forcing  
   
 Generating 1-CPU executable with SEAICE_EXTERNAL_FLUXES:  
   cd ../../../verification/lab_sea/input  
   ln -sf ../code/SIZE.h .  
   ln -sf ../code/CPP_EEOPTIONS.h .  
   ln -sf ../code/CPP_OPTIONS.h .  
   ln -sf ../code/ECCO_CPPOPTIONS.BULK.h ECCO_CPPOPTIONS.h  
   ln -sf ../code/SEAICE_OPTIONS.EXF_FLUXES.h SEAICE_OPTIONS.h  
   ../../../tools/genmake -makefile  
     ==> on alhena use:  
     ../../../tools/genmake -platform=o2k_noopt -makefile  
   make clean  
   make depend  
   make  
   mv mitgcmuv mitgcmuv_exf_fluxes  
     
 Generating 2-CPU executable:  
   cd ../../../verification/lab_sea/input  
   ln -sf ../code/SIZE.2x1.h SIZE.h  
   ln -sf ../code/CPP_EEOPTIONS.MPI.h CPP_EEOPTIONS.h  
   ln -sf ../code/CPP_OPTIONS.NOEXF.h CPP_OPTIONS.h  
   rm -f SEAICE_OPTIONS.h  
   ../../../tools/genmake -mpi -makefile  
     ==> on alhena for comparison purposes use:  
       ../../../tools/genmake -mpi -platform=o2k_noopt -makefile  
     ==> on alhena for fast execution use:  
       ../../../tools/genmake -mpi -platform=o2k -makefile  
   make clean  
68    make depend    make depend
69    make    make
70    mv mitgcmuv mitgcmuv_2x1    cd ../input
71      ../build/mitgcmuv > output.txt
   
 Instructions for running Experiment 1  
 =====================================  
   
 This is a 1-cpu, 10-hour integration used to make sure that all  
 the files are available and that the sea-ice model compiles and  
 runs.  The reading of atmospheric forcing files and the computation  
 of open-water bulk fluxes are carried out within pkg/seaice.  
   
 To run Experiment 1:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.10hours data  
   ln -sf DATA.SEAICE.adi data.seaice  
   mitgcmuv_1 >&! output.txt  
   mkdir exp1  
   mv *tave.0000000010.data exp1  
72    
73  Use matlab script lookat_exp1.m to compare the output  Use matlab script lookat_exp1.m to compare the output
74  of exp1 with that from release1_p10 sea-ice code:  of exp1 with that from checkpoint51f sea-ice code:
75    cd ../../../verification/lab_sea/matlab    cd ../../../verification/lab_sea/matlab
76    matlab    matlab
77    lookat_exp1    lookat_ice
78    
79    
80  Instructions for running Experiment 2  Instructions for generating and running a 2-CPU experiment on kalpana
81  =====================================  =====================================================================
   
 This is a 1-cpu test of the LSR solver.  The solution is  
 compared to that of experiment 1, which used the ADI solver.  
   
 To run Experiment 2:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.10hours data  
   ln -sf DATA.SEAICE.lsr data.seaice  
   mitgcmuv_1 >&! output.txt  
   mkdir exp2  
   mv *tave.0000000010.data exp2  
   
 Use matlab script lookat_exp2.m to compare  
 the output of exp2 to that of exp1:  
   cd ../../../verification/lab_sea/matlab  
   matlab  
   lookat_exp2  
   
   
 Instructions for running Experiment 3  
 =====================================  
   
 This is a test of periodic boundary conditions for LSR  
 and ADI solvers.  The domain has a flat bottom and  
 is periodic both in the x and the y directions.  
 All forcing files are null or constant (u10m = v10m = 5 m/s).  
   
 To run Experiment 3:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.1hour data  
   ln -sf DATA.SEAICE.testadi data.seaice  
   mitgcmuv_1 >&! output.txt  
   mkdir exp3a  
   mv *tave.0000000001.data exp3a  
   ln -sf DATA.SEAICE.testlsr data.seaice  
   mitgcmuv_1 >&! output.txt  
   mkdir exp3b  
   mv *tave.0000000001.data exp3b  
   
 Use matlab script lookat_exp3.m to compare  
 the output of exp2 to that of exp1:  
   cd ../../../verification/lab_sea/matlab  
   matlab  
   lookat_exp3  
   
 If the dynamic ice solvers are correct, they should converge to a  
 constant solution.  The tests above show that both the ADI and the LSR  
 solver are unable to handle periodic domains and therefore that they  
 cannot be "correctly" parallelized.  
   
   
 Instructions for running Experiment 4  
 =====================================  
   
 This is a 2-cpu, 10-hour integration used to test  
 tile edges for sea-ice dynamic solvers.  
   
 To run Experiment 4:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.10hours data  
   ln -sf DATA.SEAICE.adi data.seaice  
   mpirun -np 2 mitgcmuv_2x1  
   mkdir exp4  
   mv *tave.0000000010.data exp4  
   
 Use the matlab script lookat_exp4.m to compare  
 the 2-cpu output to that of exp1:  
   cd ../../../verification/lab_sea/matlab  
   matlab  
   lookat_exp4  
82    
83  The inaccuracy at the tile boundary can be decreased by increasing    cd MITgcm/verification/lab_sea
84  NPSEUDO in data.seaice at the expense of computation time.    mkdir build
85  Also as sea-ice ages (thickens) the difference at the tiles becomes    cd build
86  increasingly small.  For solver pkg/seaice/adi.F a value of NPSEUDO=10    \cp ../code/*.h ../code/packages.conf .
87  appears adequate for forward integrations but cannot be used for sea-ice    \cp ../code/SIZE.h_mpi SIZE.h
88  adjoint model.  Work is underway to fix this problem.    ../../../tools/genmake2 -of ../../../tools/build_options/linux_ia64_efc+mpi_altix
89      make depend
90      make
91  Instructions for running Experiment 5    cd ../input
92  =====================================    mpirun -np 2 ../build/mitgcmuv
   
 This is a 2-cpu, 2-year, test integration.  It illustrates  
 convention used by seaice_get_forcing.F for multi-year forcing.  
   
 To run Experiment 5:  
   cd ../../../verification/lab_sea/input  
   ln -sf      DATA.2years             data  
   ln -sf  DATA.SEAICE.adi      data.seaice  
   ln -sf  evap.labsea1979  evap.labsea1980    
   ln -sf   flo.labsea1979   flo.labsea1980    
   ln -sf   fsh.labsea1979   fsh.labsea1980    
   ln -sf prate.labsea1979 prate.labsea1980  
   ln -sf    qa.labsea1979    qa.labsea1980      
   ln -sf  tair.labsea1979  tair.labsea1980    
   ln -sf    u10m.labsea79    u10m.labsea80      
   ln -sf    v10m.labsea79    v10m.labsea80      
   mpirun -np 2 mitgcmuv_2x1  
   
 Use the matlab script lookat_exp5.m to compare  
 the 2-cpu output to SMMR-SSM/I data:  
   cd ../../../verification/lab_sea/matlab  
   matlab  
   lookat_exp5  
   
 Disclaimer:  
 The comparison here is just for fun, not really supposed  
 to look anything like the data.  
 Otherwise it would put a lot of people out of business :-)  
   
 Instructions for running Experiment 6  
 =====================================  
   
 This is a 1-cpu test of sea-ice thermodynamics (no dynamics).  
 The solution is compared to that of experiment 1.  
   
 To run Experiment 6:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.10hours data  
   ln -sf DATA.SEAICE.nodynamics data.seaice  
   mitgcmuv_1 >&! output.txt  
   mkdir exp6  
   mv *tave.0000000010.data exp6  
   
 Use the matlab script lookat_exp6.m to compare  
 the output of exp6 to that of exp1:  
   cd ../verification/lab_sea/matlab  
   matlab  
   lookat_exp6  
   
 Instructions for running Experiment 7  
 =====================================  
   
 This is a 2-cpu, 10-hour integration used to test  
 tile edges for sea-ice thermodynamics (no dynamics).  
 2-CPU executable from experiment 4 is required.  
   
 To run Experiment 7:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.10hours data  
   ln -sf DATA.SEAICE.nodynamics data.seaice  
   mpirun -np 2 mitgcmuv_2x1  
   mkdir exp7  
   mv *tave.0000000010.data exp7  
   
 Use the matlab script lookat_exp7.m to compare  
 the output of exp7 to that of exp6:  
   cd ../verification/lab_sea/matlab  
   matlab  
   lookat_exp7  
   
   
 Instructions for running Experiment 8  
 =====================================  
   
 This is the default experiment which is executed by  
 verification/testscript.  It is a 1-cpu, 10-hour integration  
 used to test CPP option SEAICE_EXTERNAL_FORCING.  Atmospheric  
 state is read-in using pkg/exf, rather than pkg/seaice routines.  
 This experiment uses pkg/gmredi, pkg/kpp, pkg/seaice, and pkg/exf.  
   
 To run Experiment 8:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.10hours_exf data  
   ln -sf DATA.SEAICE.adi_exf data.seaice  
   mitgcmuv_exf_forcing >&! output.txt  
   mkdir exp8  
   mv *tave.0000000010.data exp8  
   
 Use matlab script lookat_exp8.m to compare  
 the output of exp8 to that of exp1:  
   cd ../../../verification/lab_sea/matlab  
   matlab  
   lookat_exp8  
   
   
 Instructions for running Experiment 9  
 =====================================  
   
 This is a 1-cpu, 10-hour integration used to test CPP option  
 SEAICE_EXTERNAL_FLUXES.  Both the atmospheric state and the  
 open-water surface fluxes are provided by pkg/exf.  
   
 To run Experiment 9:  
   cd ../../../verification/lab_sea/input  
   ln -sf DATA.10hours_exf data  
   ln -sf DATA.SEAICE.adi_exf data.seaice  
   mitgcmuv_exf_fluxes >&! output.txt  
   mkdir exp9  
   mv *tave.0000000010.data exp9  
   
 Use matlab script lookat_exp9.m to compare  
 the output of exp9 to that of exp8:  
   cd ../../../verification/lab_sea/matlab  
   matlab  
   lookat_exp9  
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