#!/bin/bash function create_exp() { # executable expname output_grid output_freq - $* passed to rundef_$expname EXEC=$1 ; shift EXP=$1 ; shift OUTPUT_GRID=$1 ; shift OUTPUT_FREQ=$1 ; shift EXPDIR=${EXP}_${EXEC}_$1 echo "Creating $EXPDIR" rm -rf $EXPDIR mkdir $EXPDIR cd $EXPDIR ln -sf ../../RUNS_ref/$EXPDIR/netcdf netcdf_ref ln -sf $ROOT/build_${EXEC} build ln -sf build/bin/icosa_gcm.exe gcm.exe cp $ROOT/python/common.py post.py echo "post_${EXP}()" >> post.py # ln -sf $ROOT/python/post_${EXP}.py post.py rundef_$EXP $* > tmp.def sort tmp.def | cut -c 7- > run.def rm -f tmp.def # xml_iodef > iodef.xml # xml_icosa > icosa.xml # xml_field_def > field_def.xml ln -s build/xml/*.xml . rm -f file_def_dynamico_regular.xml xml_dcmip_regular $EXP $OUTPUT_GRID $OUTPUT_FREQ > file_def_dynamico_regular.xml job_${EXP} ${EXEC} $* > job.sh cd .. } function rundef_all() { cat < 1)) ; do ii=${idx[$1]} echo "$ii $1=$2" shift ; shift done } function order() { ii=$1 ; shift for name in $* ; do ((ii+=1)) idx[${name}]=$ii # echo $name ${idx[${name}]} done } #----------------------------- pre-defined resolutions --------------------------- function set_nbp_40() { setvar dt 480 optim_it 500 split_${EXEC}_40 } function set_nbp_80() { setvar dt 240 optim_it 1000 split_${EXEC}_80 } #-------------------------------- Williamson (1991) ------------------------------ function rundef_W91() { NBP=$1 ; TAU=$2 rundef_all set_nbp_$NBP setvar caldyn_conserv enstrophy caldyn_eta eta_lag boussinesq .TRUE. llm 1 radius 6.37122e6 g 9.80616 setvar nitergdiv 2 nitergrot 2 niterdivgrad 2 tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU setvar write_period 86400 run_length 2592000 etat0 williamson91.6 } function job_W91() { job_$1_$2 W91_$1 } #-------------------------------- Jablonowsky & Williamson (2006) ------------------------------ function rundef_DCMIP(){ rundef_all set_nbp_$1 setvar radius 6.37122e6 g 9.80616 kappa 0.2857143 cpp 1004.5 preff 1e5 setvar nitergdiv 2 nitergrot 2 niterdivgrad 2 tau_graddiv } function rundef_JW06() { # NBP TAU NBP=$1 ; TAU=$2 rundef_DCMIP $NBP setvar hydrostatic .FALSE. setvar omega 7.292e-5 llm 60 disvert ncar ncar_dz 500 nqtot 2 itau_adv 3 setvar tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU setvar write_period 21600 run_length 864000 etat0 jablonowsky06 } function job_JW06() { # EXEC NBP job_$1_$2 JW06_$1 # e.g. job_mpi_80 JW06_mpi } #------------------------------------- DCMIP 2012 --------------------------------- function rundef_DCMIP21() { # NBP TAU NBP=$1 ; TAU=$2 rundef_DCMIP $NBP setvar dysl_caldyn_vert .TRUE. caldyn_vert conservative setvar omega 0. llm 60 disvert ncar ncar_T0 300 ncar_p0 1e5 ncar_disvert_c 1 ncar_dz 500 setvar tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU setvar scale_factor 500 write_period 50000 run_length 1.8e6 etat0 dcmip2_schaer_noshear setvar rayleigh_friction_type dcmip2_schaer_noshear rayleigh_friction_tau 12500 } function rundef_DCMIP31() { # NBP TAU HYDRO NBP=$1 ; TAU=$2 ; HYDRO=$3 rundef_DCMIP $NBP setvar dysl .TRUE. hydrostatic $3 setvar omega 0. llm 10 disvert ncar ncar_T0 300 ncar_p0 1e5 ncar_disvert_c 1 ncar_dz 1118 setvar tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU setvar scale_factor 125 write_period 7500 run_length 4.5e5 etat0 dcmip3 } function rundef_DCMIP41() { # NBP TAU NBP=$1 ; TAU=$2 rundef_DCMIP $NBP # setvar dysl .TRUE. # setvar hydrostatic .FALSE. setvar diagflux .TRUE. setvar omega 7.292e-5 llm 30 disvert ncarl30 nqtot 2 itau_adv 3 setvar tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU setvar write_period 21600 run_length 2592000 etat0 dcmip4 dcmip4_testcase 1 } function rundef_DCMIP51() { # NBP TAU NBP=$1 ; TAU=$2 rundef_DCMIP $NBP setvar omega 7.292e-5 llm 30 disvert ncarl30 nqtot 1 itau_adv 3 setvar tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU setvar write_period 7200 run_length 864000 etat0 dcmip5 setvar physics dcmip dcmip_physics 0 itau_physics 6 } function job_DCMIP21() { # EXEC NBP job_$1_$2 DCMIP21_$1 # e.g. job_mpi_80 DCMIP31_mpi } function job_DCMIP31() { # EXEC NBP job_$1_$2 DCMIP31_$1 # e.g. job_mpi_80 DCMIP31_mpi } function job_DCMIP41() { # EXEC NBP job_$1_$2 DCMIP41_$1 } function job_DCMIP51() { # EXEC NBP job_$1_$2 DCMIP51_$1 } #------------------------------------- OTHER --------------------------------- function rundef_bubble() { # NBP TAU NBP=$1 ; TAU=$2 rundef_all set_nbp_$NBP setvar llm 50 disvert ncar ncar_dz 20 ncar_T0 300 ncar_p0 1e5 # setvar time_scheme ARK2.3 setvar nitergdiv 2 nitergrot 2 niterdivgrad 2 tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU setvar radius 5e6 scale_factor 10000 g 9.80616 kappa 0.2857143 cpp 1004.5 preff 1e5 omega 0. } function job_bubble() { # EXEC NBP job_$1_$2 Bubble_$1 } function rundef_held_suarez() { # NBP TAU NBP=$1 ; TAU=$2 rundef_DCMIP $NBP setvar llm 19 disvert std write_period 86400 run_length 2592000 etat0 held_suarez # physics held_suarez setvar time_scheme RK2.5 setvar nitergdiv 2 nitergrot 2 niterdivgrad 2 tau_graddiv $TAU tau_gradrot $TAU tau_divgrad $TAU } function job_held_suarez() { # EXEC NBP job_$1_$2 HS94_$1 } function rundef_venus() { rundef_all split_mpi_32 setvar nqtot 1 optim_it 1000 dt 480 setvar radius 6.0518e6 g 8.874575 kappa 0.2857248 cpp 669.73533 preff 9.2e6 omega 6.229e-7 setvar llm 49 disvert ncar ncar_dz 3500 ncar_T0 700 ncar_p0 9.2e6 setvar tau_graddiv 21600 nitergdiv 1 tau_gradrot 21600 nitergrot 2 tau_divgrad 21600 niterdivgrad 2 setvar dysl_caldyn_vert .TRUE. caldyn_vert conservative setvar itau_check_conserv 45 check_conservation detailed setvar etat0 venus physics Lebonnois2012 itau_physics 15 friction_time $((3*EARTH_DAY)) setvar write_period $((VENUS_DAY/4)) setvar run_length $((3*VENUS_DAY)) # setvar run_length $((100*VENUS_DAY)) } function job_venus() { # EXEC NBP job_$1_32 venus_$1 } #-------------------------------- END TEST CASES ----------------------------- function basic() { rm -rf RUNS_arch/${arch} mkdir -p RUNS_arch/${arch} rm -f RUNS ln -sf RUNS_arch/${arch} RUNS cd RUNS # Williamson 1991 # create_exp serial W91 two_degree 24h 40 5000 # nbp tau # create_exp mpi W91 two_degree 24h 40 5000 # nbp tau create_exp mpi JW06 two_degree 24h 40 10000 # nbp tau # DCMIP 2012 create_exp mpi DCMIP21 two_degree 100s 40 90000 # nbp tau create_exp mpi DCMIP31 two_degree 60s 40 90000 .TRUE. # nbp tau hydro create_exp mpi_omp DCMIP31 two_degree 60s 40 90000 .FALSE. # nbp tau hydro create_exp mpi_omp DCMIP41 two_degree 24h 40 10000 # nbp tau # create_exp mpi DCMIP51 one_degree 2h 80 10000 # nbp tau # Other create_exp mpi_omp held_suarez two_degree 24h 40 10000 # nbp tau create_exp mpi venus two_degree "$((VENUS_DAY/4))s" 32 } function main() { # the number associated to each run.def parameter is used to sort the lines and order them in a logical way declare -A idx order 100 radius omega g cpp kappa preff scale_factor order 200 boussinesq hydrostatic order 300 nbp optim_it nsplit_i nsplit_j llm omp_level_size disvert ncar_disvert_c ncar_dz ncar_T0 ncar_p0 order 400 caldyn_eta time_scheme caldyn_conserv dt nqtot itau_adv dysl dysl_caldyn_vert caldyn_vert order 500 nitergdiv tau_graddiv nitergrot tau_gradrot niterdivgrad tau_divgrad rayleigh_friction_type rayleigh_friction_tau order 600 physics dcmip_physics itau_physics friction_time order 700 run_length write_period etat0 dcmip4_testcase order 800 itau_check_conserv check_conservation diagflux basic } source current_args source arch/arch-${arch}.sh source bash/xml.sh ROOT=$PWD VENUS_DAY=10087200 EARTH_DAY=86400 main