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Changeset 142 for codes/icosagcm/trunk/param_sets
- Timestamp:
- 02/18/13 18:37:55 (11 years ago)
- Location:
- codes/icosagcm/trunk/param_sets/dcmip2012
- Files:
-
- 3 edited
-
test1/run11.def (modified) (6 diffs)
-
test4/test4.1/test4.1-0/earth_const.def (modified) (1 diff)
-
test4/test4.1/test4.1-0/run.def (modified) (4 diffs)
Legend:
- Unmodified
- Added
- Removed
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codes/icosagcm/trunk/param_sets/dcmip2012/test1/run11.def
r92 r142 6 6 # ------------------------------- Mesh --------------------------------- 7 7 8 # nbp 20 40 80 160 9 # T-edge length (km) 500 250 120 60 10 8 11 # Number of subdivision on a main triangle (nbp) : integer (default=40) 9 #nbp=80 10 nbp=20 12 nbp=80 11 13 12 14 # sub splitting of main rhombus : integer (default=1) 13 nsplit_i= 114 nsplit_j= 115 nsplit_i=2 16 nsplit_j=2 15 17 16 18 # Number of vertical layer (llm) : integer (default=19) 17 #llm=60 18 llm=20 19 llm=60 19 20 20 21 # disvert : vertical discretisation : string (default='std') : std, ncar, ncar30l … … 23 24 # ncar_dz : model layer thickness in meters: real (default=400) 24 25 # used if disvert=ncar 25 #ncar_dz=200. 26 ncar_dz=600 26 ncar_dz=200. 27 27 28 28 # optim_it : mesh optimisation : number of iteration : integer (default=0) 29 optim_it= 029 optim_it=100 30 30 31 # ---------------------------------- --------------------------------------31 # ---------------------------------- Time -------------------------------- 32 32 33 # scheme type : string ( default='runge_kutta') euler, leapfrog_matsuno, runge_kutta ) 34 scheme = runge_kutta 33 35 36 # matsuno period : integer ( default=5) 37 matsuno_period = 5 34 38 35 # ---------------------------------- Misc -------------------------------- 39 # timestep : real (default=480s) 40 dt = 180. 36 41 37 # number of tracer (nqtot) : integer (default 1) 38 nqtot=5 39 40 # timestep : real (default=90s) 41 #dt = 45. 42 dt=180 42 # advection called every itau_adv time steps : integer (default 2) 43 # standard : umax=100m/s vs c=340m/s (ratio 1:3) 44 # in JW06 umax=35m/s vs c=340m/s (ratio 1:10) 45 itau_adv=1 43 46 44 47 # number of timestep (default 100) … … 46 49 47 50 # run length : real (default=dt*itaumax) 48 run_length=86400 49 # run_length=1036800 51 run_length=1036800 50 52 51 53 # output field period : integer (default none) 52 write_period=3600 53 #write_period=86400 54 write_period=86400 55 56 # ---------------------------------- Misc -------------------------------- 57 58 59 # number of tracer (nqtot) : integer (default 1) 60 nqtot=5 54 61 55 62 # etat0 : initial state : string (default=jablonowsky06) : 56 # jablonowsky06, academic, ncar63 # jablonowsky06, academic, dcmip[1-4] 57 64 etat0=dcmip1 65 66 # ------------------------------ Dynamics -------------------------------- 58 67 59 68 # caldyn : computation type for gcm equation : string (default=gcm) : gcm, adv 60 69 caldyn=adv 61 70 62 # ----------------------------------------------------------------------63 64 65 66 67 # ------------------------------ Dynamics --------------------------------68 69 # scheme type : string ( default='adam_bashforth') euler, leapfrog, leapfrog_matsuno, adam_bashforth)70 scheme = adam_bashforth71 72 # matsuno period : integer ( default=5)73 matsuno_period = 574 75 71 # guided_type : string (default=none) : none, ncar 76 72 guided_type=dcmip1 77 78 # ----------------------------------------------------------------------79 80 81 73 82 74 # ------------------------------ Dissipation --------------------------- … … 88 80 nitergdiv = 1 89 81 90 91 82 # dissipation time nxgradrot (default=5000) 92 83 tau_gradrot = 1800 … … 94 85 # number of iteration for nxgradrot : integer (default=1) 95 86 nitergrot=2 96 97 87 98 88 # dissipation time divgrad (theta) (default=5000) … … 102 92 niterdivgrad=2 103 93 94 # Rayleigh friction : string (default=none) : none, dcmip2_schaer_noshear, dcmip2_schaer_shear 104 95 rayleigh_friction_type=none 105 #rayleigh_friction_type=dcmip2_schaer_noshear106 #rayleigh_friction_tau=360.107 96 108 # ----------------------------------------------------------------------- 109 110 111 112 113 # -------------------- parameters for NCAR test cases ------------------------ 97 # -------------------- Parameters for NCAR test cases ------------------------ 114 98 115 99 # NCAR advection test, initial tracer : string ( default='cos_bell') -
codes/icosagcm/trunk/param_sets/dcmip2012/test4/test4.1/test4.1-0/earth_const.def
r86 r142 19 19 # Scale factor for small planet experiment : real (default=1.) 20 20 scale_factor=1. 21 22 # Precision of NetCDF output 23 netcdf_prec = float -
codes/icosagcm/trunk/param_sets/dcmip2012/test4/test4.1/test4.1-0/run.def
r130 r142 6 6 nbp=80 7 7 8 # nbp 20 40 80 160 9 # T-edge length (km) 500 250 120 60 10 8 11 # sub splitting of main rhombus : integer (default=1) 9 nsplit_i= 410 nsplit_j= 412 nsplit_i=2 13 nsplit_j=2 11 14 12 15 # Number of vertical layer (llm) : integer (default=19) … … 21 24 22 25 # optim_it : mesh optimisation : number of iteration : integer (default=0) 23 optim_it=0 26 #optim_it=1000 27 optim_it=100 24 28 25 # ------------------------------------------------------------------------ 26 27 28 29 # ---------------------------------- Misc -------------------------------- 30 31 # number of tracer (nqtot) : integer (default 1) 32 nqtot=2 33 34 # timestep : real (default=240s) 35 dt = 240. 36 37 # number of timestep (default 100) 38 # itaumax = 10000 39 40 # run length : real (default=dt*itaumax) 41 run_length=2592000 42 43 # output field period : integer (default none) 44 write_period=86400 45 46 # pression value whera output is interpolated : real (default=0, no output) 47 out_pression_level=85000 48 49 50 # etat0 : initial state : string (default=jablonowsky06) : 51 # jablonowsky06, academic, ncar 52 etat0=dcmip4 53 54 # caldyn : computation type for gcm equation : string (default=gcm) : gcm, adv 55 caldyn=gcm 56 57 # ---------------------------------------------------------------------- 58 59 60 61 62 # ------------------------------ Dynamics -------------------------------- 29 # ---------------------------------- Time--------------------------------- 63 30 64 31 # scheme type : string ( default='runge_kutta') euler, leapfrog_matsuno, runge_kutta ) … … 68 35 matsuno_period = 5 69 36 37 # timestep : real (default=480s) 38 dt = 240. 39 40 # advection called every itau_adv time steps : integer (default 2) 41 # standard : umax=100m/s vs c=340m/s (ratio 1:3) 42 # in JW06 umax=35m/s vs c=340m/s (ratio 1:10) 43 itau_adv=3 44 45 # number of timestep (default 100) 46 # itaumax = 10000 47 48 # run length : real (default=dt*itaumax) 49 run_length=2592000 50 #run_length=432000 51 #run_length=86400 52 53 # output field period : integer (default none) 54 write_period=86400 55 # write_period=14400 56 57 # ---------------------------------- Misc -------------------------------- 58 59 # number of tracer (nqtot) : integer (default 1) 60 nqtot=2 61 62 # pression value where output is interpolated : real (default=0, no output) 63 out_pression_level=85000 64 65 # etat0 : initial state : string (default=jablonowsky06) : 66 # jablonowsky06, academic, ncar 67 etat0=dcmip4 68 69 # ------------------------------ Dynamics -------------------------------- 70 71 # caldyn : computation type for gcm equation : string (default=gcm) : gcm, adv 72 caldyn=gcm 73 74 # caldyn_conserv : string (default=energy) : energy,enstrophy 75 caldyn_conserv=energy 76 77 # caldyn_exner : scheme for computing Exner function : string (default=direct) : direct,lmdz 78 caldyn_exner=direct 79 80 # caldyn_hydrostat : scheme for computing geopotential : string (default=direct) : direct,lmdz 81 caldyn_hydrostat=direct 82 70 83 # guided_type : string (default=none) : none, ncar 71 84 guided_type=none 72 85 73 caldyn_conserv=energy 74 75 # ---------------------------------------------------------------------- 76 77 78 79 # ------------------------------ Dissipation --------------------------- 86 # ---------------------------------- Dissipation --------------------------------- 80 87 81 88 # dissipation time graddiv : real (default=5000) 82 tau_graddiv = 35089 tau_graddiv = 2500 83 90 84 91 # number of iteration for graddiv : integer (default=1) 85 nitergdiv = 1 86 92 nitergdiv = 2 87 93 88 94 # dissipation time nxgradrot (default=5000) 89 tau_gradrot = 35095 tau_gradrot = 2500 90 96 91 97 # number of iteration for nxgradrot : integer (default=1) 92 98 nitergrot=2 93 99 94 95 100 # dissipation time divgrad (theta) (default=5000) 96 tau_divgrad= 350101 tau_divgrad=2500 97 102 98 103 # number of iteration for divgrad : integer (default=1) 99 104 niterdivgrad=2 100 105 101 # ----------------------------------------------------------------------- 106 # Rayleigh friction : string (default=none) : none, dcmip2_schaer_noshear, dcmip2_schaer_shear 107 rayleigh_friction_type=none 102 108 103 104 # -------------------- physics ------------------------------------------ 109 # -------------------------------- Physics ------------------------------------- 105 110 106 111 # kind of physics : string : none, dcmip (default=none) … … 109 114 # testcase physics for dcmip : INTEGER : 1, 2 (default=1) 110 115 dcmip_physics=1 111 112 # -----------------------------------------------------------------------113 114 115 116 116 117 # -------------------- parameters for NCAR test cases ------------------------
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