| 1 |
(PID.TID 0000.0001) |
| 2 |
(PID.TID 0000.0001) // ====================================================== |
| 3 |
(PID.TID 0000.0001) // MITgcm UV |
| 4 |
(PID.TID 0000.0001) // ========= |
| 5 |
(PID.TID 0000.0001) // ====================================================== |
| 6 |
(PID.TID 0000.0001) // execution environment starting up... |
| 7 |
(PID.TID 0000.0001) |
| 8 |
(PID.TID 0000.0001) // MITgcmUV version: checkpoint65l |
| 9 |
(PID.TID 0000.0001) // Build user: mlosch |
| 10 |
(PID.TID 0000.0001) // Build host: baudelaire |
| 11 |
(PID.TID 0000.0001) // Build date: Tue May 5 08:10:47 EDT 2015 |
| 12 |
(PID.TID 0000.0001) |
| 13 |
(PID.TID 0000.0001) // ======================================================= |
| 14 |
(PID.TID 0000.0001) // Execution Environment parameter file "eedata" |
| 15 |
(PID.TID 0000.0001) // ======================================================= |
| 16 |
(PID.TID 0000.0001) ># Example "eedata" file |
| 17 |
(PID.TID 0000.0001) ># Lines beginning "#" are comments |
| 18 |
(PID.TID 0000.0001) ># nTx - No. threads per process in X |
| 19 |
(PID.TID 0000.0001) ># nTy - No. threads per process in Y |
| 20 |
(PID.TID 0000.0001) > &EEPARMS |
| 21 |
(PID.TID 0000.0001) > nTx=1, |
| 22 |
(PID.TID 0000.0001) > nTy=1, |
| 23 |
(PID.TID 0000.0001) > / |
| 24 |
(PID.TID 0000.0001) ># Note: Some systems use & as the namelist terminator (as shown here). |
| 25 |
(PID.TID 0000.0001) ># Other systems use a / character. |
| 26 |
(PID.TID 0000.0001) |
| 27 |
(PID.TID 0000.0001) // ======================================================= |
| 28 |
(PID.TID 0000.0001) // Computational Grid Specification ( see files "SIZE.h" ) |
| 29 |
(PID.TID 0000.0001) // ( and "eedata" ) |
| 30 |
(PID.TID 0000.0001) // ======================================================= |
| 31 |
(PID.TID 0000.0001) nPx = 1 ; /* No. processes in X */ |
| 32 |
(PID.TID 0000.0001) nPy = 1 ; /* No. processes in Y */ |
| 33 |
(PID.TID 0000.0001) nSx = 2 ; /* No. tiles in X per process */ |
| 34 |
(PID.TID 0000.0001) nSy = 2 ; /* No. tiles in Y per process */ |
| 35 |
(PID.TID 0000.0001) sNx = 40 ; /* Tile size in X */ |
| 36 |
(PID.TID 0000.0001) sNy = 21 ; /* Tile size in Y */ |
| 37 |
(PID.TID 0000.0001) OLx = 3 ; /* Tile overlap distance in X */ |
| 38 |
(PID.TID 0000.0001) OLy = 3 ; /* Tile overlap distance in Y */ |
| 39 |
(PID.TID 0000.0001) nTx = 1 ; /* No. threads in X per process */ |
| 40 |
(PID.TID 0000.0001) nTy = 1 ; /* No. threads in Y per process */ |
| 41 |
(PID.TID 0000.0001) Nr = 1 ; /* No. levels in the vertical */ |
| 42 |
(PID.TID 0000.0001) Nx = 80 ; /* Total domain size in X ( = nPx*nSx*sNx ) */ |
| 43 |
(PID.TID 0000.0001) Ny = 42 ; /* Total domain size in Y ( = nPy*nSy*sNy ) */ |
| 44 |
(PID.TID 0000.0001) nTiles = 4 ; /* Total no. tiles per process ( = nSx*nSy ) */ |
| 45 |
(PID.TID 0000.0001) nProcs = 1 ; /* Total no. processes ( = nPx*nPy ) */ |
| 46 |
(PID.TID 0000.0001) nThreads = 1 ; /* Total no. threads per process ( = nTx*nTy ) */ |
| 47 |
(PID.TID 0000.0001) usingMPI = F ; /* Flag used to control whether MPI is in use */ |
| 48 |
(PID.TID 0000.0001) /* note: To execute a program with MPI calls */ |
| 49 |
(PID.TID 0000.0001) /* it must be launched appropriately e.g */ |
| 50 |
(PID.TID 0000.0001) /* "mpirun -np 64 ......" */ |
| 51 |
(PID.TID 0000.0001) useCoupler= F ;/* Flag used to control communications with */ |
| 52 |
(PID.TID 0000.0001) /* other model components, through a coupler */ |
| 53 |
(PID.TID 0000.0001) debugMode = F ; /* print debug msg. (sequence of S/R calls) */ |
| 54 |
(PID.TID 0000.0001) printMapIncludesZeros= F ; /* print zeros in Std.Output maps */ |
| 55 |
(PID.TID 0000.0001) maxLengthPrt1D= 65 /* maxLength of 1D array printed to StdOut */ |
| 56 |
(PID.TID 0000.0001) |
| 57 |
(PID.TID 0000.0001) // ====================================================== |
| 58 |
(PID.TID 0000.0001) // Mapping of tiles to threads |
| 59 |
(PID.TID 0000.0001) // ====================================================== |
| 60 |
(PID.TID 0000.0001) // -o- Thread 1, tiles ( 1: 2, 1: 2) |
| 61 |
(PID.TID 0000.0001) |
| 62 |
(PID.TID 0000.0001) // ====================================================== |
| 63 |
(PID.TID 0000.0001) // Tile <-> Tile connectvity table |
| 64 |
(PID.TID 0000.0001) // ====================================================== |
| 65 |
(PID.TID 0000.0001) // Tile number: 000001 (process no. = 000000) |
| 66 |
(PID.TID 0000.0001) // WEST: Tile = 000002, Process = 000000, Comm = put |
| 67 |
(PID.TID 0000.0001) // bi = 000002, bj = 000001 |
| 68 |
(PID.TID 0000.0001) // EAST: Tile = 000002, Process = 000000, Comm = put |
| 69 |
(PID.TID 0000.0001) // bi = 000002, bj = 000001 |
| 70 |
(PID.TID 0000.0001) // SOUTH: Tile = 000003, Process = 000000, Comm = put |
| 71 |
(PID.TID 0000.0001) // bi = 000001, bj = 000002 |
| 72 |
(PID.TID 0000.0001) // NORTH: Tile = 000003, Process = 000000, Comm = put |
| 73 |
(PID.TID 0000.0001) // bi = 000001, bj = 000002 |
| 74 |
(PID.TID 0000.0001) // Tile number: 000002 (process no. = 000000) |
| 75 |
(PID.TID 0000.0001) // WEST: Tile = 000001, Process = 000000, Comm = put |
| 76 |
(PID.TID 0000.0001) // bi = 000001, bj = 000001 |
| 77 |
(PID.TID 0000.0001) // EAST: Tile = 000001, Process = 000000, Comm = put |
| 78 |
(PID.TID 0000.0001) // bi = 000001, bj = 000001 |
| 79 |
(PID.TID 0000.0001) // SOUTH: Tile = 000004, Process = 000000, Comm = put |
| 80 |
(PID.TID 0000.0001) // bi = 000002, bj = 000002 |
| 81 |
(PID.TID 0000.0001) // NORTH: Tile = 000004, Process = 000000, Comm = put |
| 82 |
(PID.TID 0000.0001) // bi = 000002, bj = 000002 |
| 83 |
(PID.TID 0000.0001) // Tile number: 000003 (process no. = 000000) |
| 84 |
(PID.TID 0000.0001) // WEST: Tile = 000004, Process = 000000, Comm = put |
| 85 |
(PID.TID 0000.0001) // bi = 000002, bj = 000002 |
| 86 |
(PID.TID 0000.0001) // EAST: Tile = 000004, Process = 000000, Comm = put |
| 87 |
(PID.TID 0000.0001) // bi = 000002, bj = 000002 |
| 88 |
(PID.TID 0000.0001) // SOUTH: Tile = 000001, Process = 000000, Comm = put |
| 89 |
(PID.TID 0000.0001) // bi = 000001, bj = 000001 |
| 90 |
(PID.TID 0000.0001) // NORTH: Tile = 000001, Process = 000000, Comm = put |
| 91 |
(PID.TID 0000.0001) // bi = 000001, bj = 000001 |
| 92 |
(PID.TID 0000.0001) // Tile number: 000004 (process no. = 000000) |
| 93 |
(PID.TID 0000.0001) // WEST: Tile = 000003, Process = 000000, Comm = put |
| 94 |
(PID.TID 0000.0001) // bi = 000001, bj = 000002 |
| 95 |
(PID.TID 0000.0001) // EAST: Tile = 000003, Process = 000000, Comm = put |
| 96 |
(PID.TID 0000.0001) // bi = 000001, bj = 000002 |
| 97 |
(PID.TID 0000.0001) // SOUTH: Tile = 000002, Process = 000000, Comm = put |
| 98 |
(PID.TID 0000.0001) // bi = 000002, bj = 000001 |
| 99 |
(PID.TID 0000.0001) // NORTH: Tile = 000002, Process = 000000, Comm = put |
| 100 |
(PID.TID 0000.0001) // bi = 000002, bj = 000001 |
| 101 |
(PID.TID 0000.0001) |
| 102 |
(PID.TID 0000.0001) INI_PARMS: opening model parameter file "data" |
| 103 |
(PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data |
| 104 |
(PID.TID 0000.0001) // ======================================================= |
| 105 |
(PID.TID 0000.0001) // Parameter file "data" |
| 106 |
(PID.TID 0000.0001) // ======================================================= |
| 107 |
(PID.TID 0000.0001) ># ==================== |
| 108 |
(PID.TID 0000.0001) ># | Model parameters | |
| 109 |
(PID.TID 0000.0001) ># ==================== |
| 110 |
(PID.TID 0000.0001) ># |
| 111 |
(PID.TID 0000.0001) > &PARM01 |
| 112 |
(PID.TID 0000.0001) > tRef= -1.62, |
| 113 |
(PID.TID 0000.0001) > sRef= 30., |
| 114 |
(PID.TID 0000.0001) > no_slip_sides=.FALSE., |
| 115 |
(PID.TID 0000.0001) > no_slip_bottom=.TRUE., |
| 116 |
(PID.TID 0000.0001) >#bottomDragLinear=1.E-3, |
| 117 |
(PID.TID 0000.0001) > bottomDragQuadratic=5.E-3, |
| 118 |
(PID.TID 0000.0001) > viscAr=3.E-2, |
| 119 |
(PID.TID 0000.0001) > viscAh=3.E+2, |
| 120 |
(PID.TID 0000.0001) > HeatCapacity_Cp = 3986., |
| 121 |
(PID.TID 0000.0001) > rhoNil = 1030., |
| 122 |
(PID.TID 0000.0001) > rhoConstFresh = 1000., |
| 123 |
(PID.TID 0000.0001) > eosType='LINEAR', |
| 124 |
(PID.TID 0000.0001) > tAlpha=2.E-4, |
| 125 |
(PID.TID 0000.0001) > sBeta= 0., |
| 126 |
(PID.TID 0000.0001) > staggerTimeStep=.TRUE., |
| 127 |
(PID.TID 0000.0001) > saltStepping=.FALSE., |
| 128 |
(PID.TID 0000.0001) > tempStepping=.FALSE., |
| 129 |
(PID.TID 0000.0001) >#tempAdvection=.FALSE., |
| 130 |
(PID.TID 0000.0001) > momStepping=.FALSE., |
| 131 |
(PID.TID 0000.0001) > f0=0.e-4, |
| 132 |
(PID.TID 0000.0001) > beta=0., |
| 133 |
(PID.TID 0000.0001) > useJamartWetPoints=.TRUE., |
| 134 |
(PID.TID 0000.0001) > rigidLid=.FALSE., |
| 135 |
(PID.TID 0000.0001) > implicitFreeSurface=.TRUE., |
| 136 |
(PID.TID 0000.0001) >#exactConserv=.TRUE., |
| 137 |
(PID.TID 0000.0001) > convertFW2Salt=-1, |
| 138 |
(PID.TID 0000.0001) > readBinaryPrec=64, |
| 139 |
(PID.TID 0000.0001) > writeBinaryPrec=64, |
| 140 |
(PID.TID 0000.0001) >#globalFiles=.TRUE., |
| 141 |
(PID.TID 0000.0001) > useSingleCpuIO=.TRUE., |
| 142 |
(PID.TID 0000.0001) >#debugLevel=4, |
| 143 |
(PID.TID 0000.0001) > / |
| 144 |
(PID.TID 0000.0001) > |
| 145 |
(PID.TID 0000.0001) ># Elliptic solver parameters |
| 146 |
(PID.TID 0000.0001) > &PARM02 |
| 147 |
(PID.TID 0000.0001) > cg2dMaxIters=500, |
| 148 |
(PID.TID 0000.0001) > cg2dTargetResidual=1.E-12, |
| 149 |
(PID.TID 0000.0001) > / |
| 150 |
(PID.TID 0000.0001) > |
| 151 |
(PID.TID 0000.0001) ># Time stepping parameters |
| 152 |
(PID.TID 0000.0001) > &PARM03 |
| 153 |
(PID.TID 0000.0001) > startTime=0.0, |
| 154 |
(PID.TID 0000.0001) >#endTime=432000., |
| 155 |
(PID.TID 0000.0001) > deltaT=1800.0, |
| 156 |
(PID.TID 0000.0001) > abEps=0.1, |
| 157 |
(PID.TID 0000.0001) > forcing_In_AB = .FALSE., |
| 158 |
(PID.TID 0000.0001) > pChkptFreq=3600000., |
| 159 |
(PID.TID 0000.0001) > dumpFreq = 432000., |
| 160 |
(PID.TID 0000.0001) > monitorFreq=864000., |
| 161 |
(PID.TID 0000.0001) > monitorSelect=2, |
| 162 |
(PID.TID 0000.0001) > nTimeSteps=12, |
| 163 |
(PID.TID 0000.0001) > / |
| 164 |
(PID.TID 0000.0001) > |
| 165 |
(PID.TID 0000.0001) ># Gridding parameters |
| 166 |
(PID.TID 0000.0001) > &PARM04 |
| 167 |
(PID.TID 0000.0001) > usingCartesianGrid=.TRUE., |
| 168 |
(PID.TID 0000.0001) > delX=80*5.E3, |
| 169 |
(PID.TID 0000.0001) > delY=42*5.E3, |
| 170 |
(PID.TID 0000.0001) > ygOrigin=-110.E3, |
| 171 |
(PID.TID 0000.0001) >#delR= 20., 30., 50., |
| 172 |
(PID.TID 0000.0001) > delR= 10., |
| 173 |
(PID.TID 0000.0001) > / |
| 174 |
(PID.TID 0000.0001) > |
| 175 |
(PID.TID 0000.0001) ># Input datasets |
| 176 |
(PID.TID 0000.0001) > &PARM05 |
| 177 |
(PID.TID 0000.0001) > bathyFile = 'bathy_3c.bin', |
| 178 |
(PID.TID 0000.0001) > uVelInitFile = 'uVel_3c0.bin', |
| 179 |
(PID.TID 0000.0001) > vVelInitFile = 'vVel_3c0.bin', |
| 180 |
(PID.TID 0000.0001) > pSurfInitFile = 'eta_3c0.bin', |
| 181 |
(PID.TID 0000.0001) >#uVelInitFile = 'uVel_3c1.bin', |
| 182 |
(PID.TID 0000.0001) >#vVelInitFile = 'vVel_3c1.bin', |
| 183 |
(PID.TID 0000.0001) >#pSurfInitFile = 'eta_3c1.bin', |
| 184 |
(PID.TID 0000.0001) >#bathyFile = 'channel.bin', |
| 185 |
(PID.TID 0000.0001) >#uVelInitFile = 'const+40.bin', |
| 186 |
(PID.TID 0000.0001) >#vVelInitFile = 'const-10.bin', |
| 187 |
(PID.TID 0000.0001) > / |
| 188 |
(PID.TID 0000.0001) |
| 189 |
(PID.TID 0000.0001) INI_PARMS ; starts to read PARM01 |
| 190 |
(PID.TID 0000.0001) INI_PARMS ; read PARM01 : OK |
| 191 |
(PID.TID 0000.0001) INI_PARMS ; starts to read PARM02 |
| 192 |
(PID.TID 0000.0001) INI_PARMS ; read PARM02 : OK |
| 193 |
(PID.TID 0000.0001) INI_PARMS ; starts to read PARM03 |
| 194 |
(PID.TID 0000.0001) INI_PARMS ; read PARM03 : OK |
| 195 |
(PID.TID 0000.0001) INI_PARMS ; starts to read PARM04 |
| 196 |
(PID.TID 0000.0001) INI_PARMS ; read PARM04 : OK |
| 197 |
(PID.TID 0000.0001) INI_PARMS ; starts to read PARM05 |
| 198 |
(PID.TID 0000.0001) INI_PARMS ; read PARM05 : OK |
| 199 |
(PID.TID 0000.0001) INI_PARMS: finished reading file "data" |
| 200 |
(PID.TID 0000.0001) PACKAGES_BOOT: opening data.pkg |
| 201 |
(PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.pkg |
| 202 |
(PID.TID 0000.0001) // ======================================================= |
| 203 |
(PID.TID 0000.0001) // Parameter file "data.pkg" |
| 204 |
(PID.TID 0000.0001) // ======================================================= |
| 205 |
(PID.TID 0000.0001) ># Packages |
| 206 |
(PID.TID 0000.0001) > &PACKAGES |
| 207 |
(PID.TID 0000.0001) > useEXF = .TRUE., |
| 208 |
(PID.TID 0000.0001) > useSEAICE = .TRUE., |
| 209 |
(PID.TID 0000.0001) ># useThSIce = .TRUE., |
| 210 |
(PID.TID 0000.0001) > useDiagnostics=.TRUE., |
| 211 |
(PID.TID 0000.0001) > / |
| 212 |
(PID.TID 0000.0001) |
| 213 |
(PID.TID 0000.0001) PACKAGES_BOOT: finished reading data.pkg |
| 214 |
(PID.TID 0000.0001) PACKAGES_BOOT: On/Off package Summary |
| 215 |
-------- pkgs with a standard "usePKG" On/Off switch in "data.pkg": -------- |
| 216 |
pkg/cal compiled and used ( useCAL = T ) |
| 217 |
pkg/exf compiled and used ( useEXF = T ) |
| 218 |
pkg/seaice compiled and used ( useSEAICE = T ) |
| 219 |
pkg/thsice compiled but not used ( useThSIce = F ) |
| 220 |
pkg/diagnostics compiled and used ( useDiagnostics = T ) |
| 221 |
-------- pkgs without standard "usePKG" On/Off switch in "data.pkg": -------- |
| 222 |
pkg/generic_advdiff compiled but not used ( useGAD = F ) |
| 223 |
pkg/mom_common compiled but not used ( momStepping = F ) |
| 224 |
pkg/mom_vecinv compiled but not used ( +vectorInvariantMomentum = F ) |
| 225 |
pkg/mom_fluxform compiled but not used ( & not vectorInvariantMom = F ) |
| 226 |
pkg/monitor compiled and used ( monitorFreq > 0. = T ) |
| 227 |
pkg/debug compiled but not used ( debugMode = F ) |
| 228 |
pkg/rw compiled and used |
| 229 |
pkg/mdsio compiled and used |
| 230 |
(PID.TID 0000.0001) PACKAGES_BOOT: End of package Summary |
| 231 |
(PID.TID 0000.0001) |
| 232 |
(PID.TID 0000.0001) CAL_READPARMS: opening data.cal |
| 233 |
(PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.cal |
| 234 |
(PID.TID 0000.0001) // ======================================================= |
| 235 |
(PID.TID 0000.0001) // Parameter file "data.cal" |
| 236 |
(PID.TID 0000.0001) // ======================================================= |
| 237 |
(PID.TID 0000.0001) ># |
| 238 |
(PID.TID 0000.0001) ># ******************* |
| 239 |
(PID.TID 0000.0001) ># Calendar Parameters |
| 240 |
(PID.TID 0000.0001) ># ******************* |
| 241 |
(PID.TID 0000.0001) > &CAL_NML |
| 242 |
(PID.TID 0000.0001) > TheCalendar='gregorian', |
| 243 |
(PID.TID 0000.0001) ># TheCalendar='model', |
| 244 |
(PID.TID 0000.0001) > startDate_1=19790101, |
| 245 |
(PID.TID 0000.0001) > startDate_2=000000, |
| 246 |
(PID.TID 0000.0001) > / |
| 247 |
(PID.TID 0000.0001) |
| 248 |
(PID.TID 0000.0001) CAL_READPARMS: finished reading data.cal |
| 249 |
(PID.TID 0000.0001) EXF_READPARMS: opening data.exf |
| 250 |
(PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.exf |
| 251 |
(PID.TID 0000.0001) // ======================================================= |
| 252 |
(PID.TID 0000.0001) // Parameter file "data.exf" |
| 253 |
(PID.TID 0000.0001) // ======================================================= |
| 254 |
(PID.TID 0000.0001) ># |
| 255 |
(PID.TID 0000.0001) ># ********************* |
| 256 |
(PID.TID 0000.0001) ># External Forcing Data |
| 257 |
(PID.TID 0000.0001) ># ********************* |
| 258 |
(PID.TID 0000.0001) > &EXF_NML_01 |
| 259 |
(PID.TID 0000.0001) ># |
| 260 |
(PID.TID 0000.0001) > useExfCheckRange = .TRUE., |
| 261 |
(PID.TID 0000.0001) >#repeatPeriod = 2635200.0, |
| 262 |
(PID.TID 0000.0001) > exf_iprec = 64, |
| 263 |
(PID.TID 0000.0001) > exf_monFreq = 86400000., |
| 264 |
(PID.TID 0000.0001) >#useRelativeWind = .TRUE., |
| 265 |
(PID.TID 0000.0001) ># |
| 266 |
(PID.TID 0000.0001) > / |
| 267 |
(PID.TID 0000.0001) > |
| 268 |
(PID.TID 0000.0001) ># ********************* |
| 269 |
(PID.TID 0000.0001) > &EXF_NML_02 |
| 270 |
(PID.TID 0000.0001) ># |
| 271 |
(PID.TID 0000.0001) >#ustressstartdate1 = 19781216, |
| 272 |
(PID.TID 0000.0001) >#ustressstartdate2 = 180000, |
| 273 |
(PID.TID 0000.0001) >#ustressperiod = 0.0, |
| 274 |
(PID.TID 0000.0001) ># |
| 275 |
(PID.TID 0000.0001) >#vstressstartdate1 = 19781216, |
| 276 |
(PID.TID 0000.0001) >#vstressstartdate2 = 180000, |
| 277 |
(PID.TID 0000.0001) >#vstressperiod = 0.0, |
| 278 |
(PID.TID 0000.0001) ># |
| 279 |
(PID.TID 0000.0001) > atempstartdate1 = 19781216, |
| 280 |
(PID.TID 0000.0001) > atempstartdate2 = 180000, |
| 281 |
(PID.TID 0000.0001) > atempperiod = 0.0, |
| 282 |
(PID.TID 0000.0001) ># |
| 283 |
(PID.TID 0000.0001) > aqhstartdate1 = 19781216, |
| 284 |
(PID.TID 0000.0001) > aqhstartdate2 = 180000, |
| 285 |
(PID.TID 0000.0001) > aqhperiod = 0.0, |
| 286 |
(PID.TID 0000.0001) ># |
| 287 |
(PID.TID 0000.0001) > precipstartdate1 = 19781216, |
| 288 |
(PID.TID 0000.0001) > precipstartdate2 = 180000, |
| 289 |
(PID.TID 0000.0001) > precipperiod = 0.0, |
| 290 |
(PID.TID 0000.0001) ># |
| 291 |
(PID.TID 0000.0001) > uwindstartdate1 = 19781216, |
| 292 |
(PID.TID 0000.0001) > uwindstartdate2 = 180000, |
| 293 |
(PID.TID 0000.0001) > uwindperiod = 0.0, |
| 294 |
(PID.TID 0000.0001) ># |
| 295 |
(PID.TID 0000.0001) > vwindstartdate1 = 19781216, |
| 296 |
(PID.TID 0000.0001) > vwindstartdate2 = 180000, |
| 297 |
(PID.TID 0000.0001) > vwindperiod = 0.0, |
| 298 |
(PID.TID 0000.0001) ># |
| 299 |
(PID.TID 0000.0001) > swdownstartdate1 = 19781216, |
| 300 |
(PID.TID 0000.0001) > swdownstartdate2 = 180000, |
| 301 |
(PID.TID 0000.0001) > swdownperiod = 0.0, |
| 302 |
(PID.TID 0000.0001) ># |
| 303 |
(PID.TID 0000.0001) > lwdownstartdate1 = 19781216, |
| 304 |
(PID.TID 0000.0001) > lwdownstartdate2 = 180000, |
| 305 |
(PID.TID 0000.0001) > lwdownperiod = 0.0, |
| 306 |
(PID.TID 0000.0001) ># |
| 307 |
(PID.TID 0000.0001) > climsststartdate1 = 19781216, |
| 308 |
(PID.TID 0000.0001) > climsststartdate2 = 180000, |
| 309 |
(PID.TID 0000.0001) > climsstperiod = 0.0, |
| 310 |
(PID.TID 0000.0001) >#climsstTauRelax = 2592000., |
| 311 |
(PID.TID 0000.0001) ># |
| 312 |
(PID.TID 0000.0001) > climsssstartdate1 = 19781216, |
| 313 |
(PID.TID 0000.0001) > climsssstartdate2 = 180000, |
| 314 |
(PID.TID 0000.0001) > climsssperiod = 0.0, |
| 315 |
(PID.TID 0000.0001) >#climsssTauRelax = 2592000., |
| 316 |
(PID.TID 0000.0001) ># |
| 317 |
(PID.TID 0000.0001) >#ustressfile = ' ', |
| 318 |
(PID.TID 0000.0001) >#vstressfile = ' ', |
| 319 |
(PID.TID 0000.0001) >#atempfile = 'tair_4x.bin', |
| 320 |
(PID.TID 0000.0001) >#aqhfile = 'qa70_4x.bin', |
| 321 |
(PID.TID 0000.0001) > uwindfile = 'windx.bin', |
| 322 |
(PID.TID 0000.0001) >#vwindfile = 'windy.bin', |
| 323 |
(PID.TID 0000.0001) >#precipfile = 'const_00.bin', |
| 324 |
(PID.TID 0000.0001) >#lwdownfile = 'dlw_250.bin', |
| 325 |
(PID.TID 0000.0001) >#swdownfile = 'dsw_100.bin', |
| 326 |
(PID.TID 0000.0001) >#runoffFile = ' ' |
| 327 |
(PID.TID 0000.0001) >#climsstfile = 'tocn.bin', |
| 328 |
(PID.TID 0000.0001) >#climsssfile = 'socn.bin', |
| 329 |
(PID.TID 0000.0001) > / |
| 330 |
(PID.TID 0000.0001) > |
| 331 |
(PID.TID 0000.0001) ># ********************* |
| 332 |
(PID.TID 0000.0001) > &EXF_NML_03 |
| 333 |
(PID.TID 0000.0001) >#exf_offset_atemp=5; |
| 334 |
(PID.TID 0000.0001) > / |
| 335 |
(PID.TID 0000.0001) > |
| 336 |
(PID.TID 0000.0001) ># ********************* |
| 337 |
(PID.TID 0000.0001) ># old open64 compiler (4.2.1) cannot skip this namelist to read in the next one; |
| 338 |
(PID.TID 0000.0001) ># comment out this namelist (not read). |
| 339 |
(PID.TID 0000.0001) >#&EXF_NML_04 |
| 340 |
(PID.TID 0000.0001) >#& |
| 341 |
(PID.TID 0000.0001) > |
| 342 |
(PID.TID 0000.0001) ># ********************* |
| 343 |
(PID.TID 0000.0001) > &EXF_NML_OBCS |
| 344 |
(PID.TID 0000.0001) > / |
| 345 |
(PID.TID 0000.0001) |
| 346 |
(PID.TID 0000.0001) EXF_READPARMS: reading EXF_NML_01 |
| 347 |
(PID.TID 0000.0001) EXF_READPARMS: reading EXF_NML_02 |
| 348 |
(PID.TID 0000.0001) EXF_READPARMS: reading EXF_NML_03 |
| 349 |
(PID.TID 0000.0001) EXF_READPARMS: finished reading data.exf |
| 350 |
(PID.TID 0000.0001) |
| 351 |
(PID.TID 0000.0001) SEAICE_READPARMS: opening data.seaice |
| 352 |
(PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.seaice |
| 353 |
(PID.TID 0000.0001) // ======================================================= |
| 354 |
(PID.TID 0000.0001) // Parameter file "data.seaice" |
| 355 |
(PID.TID 0000.0001) // ======================================================= |
| 356 |
(PID.TID 0000.0001) ># SEAICE parameters |
| 357 |
(PID.TID 0000.0001) > &SEAICE_PARM01 |
| 358 |
(PID.TID 0000.0001) > usePW79thermodynamics=.FALSE., |
| 359 |
(PID.TID 0000.0001) > SEAICE_strength = 2.6780e+04, |
| 360 |
(PID.TID 0000.0001) > OCEAN_drag = 8.1541e-04, |
| 361 |
(PID.TID 0000.0001) > SEAICE_waterDrag = 5.3508, |
| 362 |
(PID.TID 0000.0001) > SEAICE_no_Slip = .FALSE., |
| 363 |
(PID.TID 0000.0001) > LSR_ERROR = 1.E-12, |
| 364 |
(PID.TID 0000.0001) > SOLV_MAX_ITERS = 1500, |
| 365 |
(PID.TID 0000.0001) > LSR_mixIniGuess = 1, |
| 366 |
(PID.TID 0000.0001) > SEAICEadvScheme = 77, |
| 367 |
(PID.TID 0000.0001) > AreaFile = 'const100.bin', |
| 368 |
(PID.TID 0000.0001) > HeffFile = 'const+20.bin', |
| 369 |
(PID.TID 0000.0001) > HsnowFile = 'const_00.bin', |
| 370 |
(PID.TID 0000.0001) > SEAICEwriteState = .TRUE., |
| 371 |
(PID.TID 0000.0001) > SEAICE_monFreq = 1800., |
| 372 |
(PID.TID 0000.0001) > / |
| 373 |
(PID.TID 0000.0001) > |
| 374 |
(PID.TID 0000.0001) > &SEAICE_PARM03 |
| 375 |
(PID.TID 0000.0001) > / |
| 376 |
(PID.TID 0000.0001) |
| 377 |
(PID.TID 0000.0001) SEAICE_READPARMS: finished reading data.seaice |
| 378 |
(PID.TID 0000.0001) DIAGNOSTICS_READPARMS: opening data.diagnostics |
| 379 |
(PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.diagnostics |
| 380 |
(PID.TID 0000.0001) // ======================================================= |
| 381 |
(PID.TID 0000.0001) // Parameter file "data.diagnostics" |
| 382 |
(PID.TID 0000.0001) // ======================================================= |
| 383 |
(PID.TID 0000.0001) ># Diagnostic Package Choices |
| 384 |
(PID.TID 0000.0001) >#-------------------- |
| 385 |
(PID.TID 0000.0001) ># dumpAtLast (logical): always write output at the end of simulation (default=F) |
| 386 |
(PID.TID 0000.0001) ># diag_mnc (logical): write to NetCDF files (default=useMNC) |
| 387 |
(PID.TID 0000.0001) >#--for each output-stream: |
| 388 |
(PID.TID 0000.0001) ># fileName(n) : prefix of the output file name (max 80c long) for outp.stream n |
| 389 |
(PID.TID 0000.0001) ># frequency(n):< 0 : write snap-shot output every |frequency| seconds |
| 390 |
(PID.TID 0000.0001) ># > 0 : write time-average output every frequency seconds |
| 391 |
(PID.TID 0000.0001) ># timePhase(n) : write at time = timePhase + multiple of |frequency| |
| 392 |
(PID.TID 0000.0001) ># averagingFreq : frequency (in s) for periodic averaging interval |
| 393 |
(PID.TID 0000.0001) ># averagingPhase : phase (in s) for periodic averaging interval |
| 394 |
(PID.TID 0000.0001) ># repeatCycle : number of averaging intervals in 1 cycle |
| 395 |
(PID.TID 0000.0001) ># levels(:,n) : list of levels to write to file (Notes: declared as REAL) |
| 396 |
(PID.TID 0000.0001) ># when this entry is missing, select all common levels of this list |
| 397 |
(PID.TID 0000.0001) ># fields(:,n) : list of selected diagnostics fields (8.c) in outp.stream n |
| 398 |
(PID.TID 0000.0001) ># (see "available_diagnostics.log" file for the full list of diags) |
| 399 |
(PID.TID 0000.0001) ># missing_value(n) : missing value for real-type fields in output file "n" |
| 400 |
(PID.TID 0000.0001) ># fileFlags(n) : specific code (8c string) for output file "n" |
| 401 |
(PID.TID 0000.0001) >#-------------------- |
| 402 |
(PID.TID 0000.0001) ># This example dumps EXF diagnostics as snapshot after 10 time-steps |
| 403 |
(PID.TID 0000.0001) ># Note: EXF air-sea fluxes over Sea-Ice are wrong |
| 404 |
(PID.TID 0000.0001) > &DIAGNOSTICS_LIST |
| 405 |
(PID.TID 0000.0001) > dumpAtLast = .TRUE., |
| 406 |
(PID.TID 0000.0001) >#-- |
| 407 |
(PID.TID 0000.0001) > fields(1:11,1) = 'EXFtaux ','EXFtauy ','EXFqnet ','EXFempmr', |
| 408 |
(PID.TID 0000.0001) > 'EXFhl ','EXFhs ','EXFswnet','EXFlwnet', |
| 409 |
(PID.TID 0000.0001) > 'EXFuwind','EXFvwind','EXFatemp', |
| 410 |
(PID.TID 0000.0001) ># fileName(1) = 'exfDiag', |
| 411 |
(PID.TID 0000.0001) > frequency(1) = 86400., |
| 412 |
(PID.TID 0000.0001) > |
| 413 |
(PID.TID 0000.0001) > fields(1:4,2) = 'SIuice ','SIvice ','SIheff ', |
| 414 |
(PID.TID 0000.0001) > 'SIarea ', |
| 415 |
(PID.TID 0000.0001) ># fileName(2) = 'iceDiag', |
| 416 |
(PID.TID 0000.0001) > frequency(2) = 86400., |
| 417 |
(PID.TID 0000.0001) > missing_value(2) = -999., |
| 418 |
(PID.TID 0000.0001) > |
| 419 |
(PID.TID 0000.0001) > fields(1:4,3) = 'SIuice ','SIvice ','SIheff ', |
| 420 |
(PID.TID 0000.0001) > 'SIarea ', |
| 421 |
(PID.TID 0000.0001) > fileName(3) = 'snapshot', |
| 422 |
(PID.TID 0000.0001) > frequency(3) = -86400., |
| 423 |
(PID.TID 0000.0001) > timePhase(3) = 3600., |
| 424 |
(PID.TID 0000.0001) > missing_value(3) = -999., |
| 425 |
(PID.TID 0000.0001) > / |
| 426 |
(PID.TID 0000.0001) > |
| 427 |
(PID.TID 0000.0001) >#-------------------- |
| 428 |
(PID.TID 0000.0001) ># Parameter for Diagnostics of per level statistics: |
| 429 |
(PID.TID 0000.0001) >#-------------------- |
| 430 |
(PID.TID 0000.0001) ># diagSt_mnc (logical): write stat-diags to NetCDF files (default=diag_mnc) |
| 431 |
(PID.TID 0000.0001) ># diagSt_regMaskFile : file containing the region-mask to read-in |
| 432 |
(PID.TID 0000.0001) ># nSetRegMskFile : number of region-mask sets within the region-mask file |
| 433 |
(PID.TID 0000.0001) ># set_regMask(i) : region-mask set-index that identifies the region "i" |
| 434 |
(PID.TID 0000.0001) ># val_regMask(i) : region "i" identifier value in the region mask |
| 435 |
(PID.TID 0000.0001) >#--for each output-stream: |
| 436 |
(PID.TID 0000.0001) ># stat_fName(n) : prefix of the output file name (max 80c long) for outp.stream n |
| 437 |
(PID.TID 0000.0001) ># stat_freq(n):< 0 : write snap-shot output every |stat_freq| seconds |
| 438 |
(PID.TID 0000.0001) ># > 0 : write time-average output every stat_freq seconds |
| 439 |
(PID.TID 0000.0001) ># stat_phase(n) : write at time = stat_phase + multiple of |stat_freq| |
| 440 |
(PID.TID 0000.0001) ># stat_region(:,n) : list of "regions" (default: 1 region only=global) |
| 441 |
(PID.TID 0000.0001) ># stat_fields(:,n) : list of selected diagnostics fields (8.c) in outp.stream n |
| 442 |
(PID.TID 0000.0001) ># (see "available_diagnostics.log" file for the full list of diags) |
| 443 |
(PID.TID 0000.0001) >#-------------------- |
| 444 |
(PID.TID 0000.0001) > &DIAG_STATIS_PARMS |
| 445 |
(PID.TID 0000.0001) > stat_fields(1:5,1) = 'SIarea ','SIheff ','SIhsnow ', |
| 446 |
(PID.TID 0000.0001) > 'SIuice ','SIvice ', |
| 447 |
(PID.TID 0000.0001) > stat_fName(1) = 'iceStDiag', |
| 448 |
(PID.TID 0000.0001) > stat_freq(1) = 7200., |
| 449 |
(PID.TID 0000.0001) > stat_phase(1) = 1800., |
| 450 |
(PID.TID 0000.0001) > / |
| 451 |
(PID.TID 0000.0001) |
| 452 |
(PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "diagnostics_list": start |
| 453 |
(PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "diagnostics_list": OK |
| 454 |
(PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "DIAG_STATIS_PARMS": start |
| 455 |
(PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "DIAG_STATIS_PARMS": OK |
| 456 |
(PID.TID 0000.0001) DIAGNOSTICS_READPARMS: global parameter summary: |
| 457 |
(PID.TID 0000.0001) dumpAtLast = /* always write time-ave diags at the end */ |
| 458 |
(PID.TID 0000.0001) T |
| 459 |
(PID.TID 0000.0001) ; |
| 460 |
(PID.TID 0000.0001) diag_mnc = /* write NetCDF output files */ |
| 461 |
(PID.TID 0000.0001) F |
| 462 |
(PID.TID 0000.0001) ; |
| 463 |
(PID.TID 0000.0001) useMissingValue = /* put MissingValue where mask = 0 */ |
| 464 |
(PID.TID 0000.0001) F |
| 465 |
(PID.TID 0000.0001) ; |
| 466 |
(PID.TID 0000.0001) diagCG_maxIters = /* max number of iters in diag_cg2d */ |
| 467 |
(PID.TID 0000.0001) 500 |
| 468 |
(PID.TID 0000.0001) ; |
| 469 |
(PID.TID 0000.0001) diagCG_resTarget = /* residual target for diag_cg2d */ |
| 470 |
(PID.TID 0000.0001) 1.000000000000000E-12 |
| 471 |
(PID.TID 0000.0001) ; |
| 472 |
(PID.TID 0000.0001) diagCG_pcOffDFac = /* preconditioner off-diagonal factor */ |
| 473 |
(PID.TID 0000.0001) 9.611687812379854E-01 |
| 474 |
(PID.TID 0000.0001) ; |
| 475 |
(PID.TID 0000.0001) ----------------------------------------------------- |
| 476 |
(PID.TID 0000.0001) DIAGNOSTICS_READPARMS: active diagnostics summary: |
| 477 |
(PID.TID 0000.0001) ----------------------------------------------------- |
| 478 |
(PID.TID 0000.0001) Creating Output Stream: snapshot |
| 479 |
(PID.TID 0000.0001) Output Frequency: -86400.000000 ; Phase: 3600.000000 |
| 480 |
(PID.TID 0000.0001) Averaging Freq.: 0.000000 , Phase: 0.000000 , Cycle: 1 |
| 481 |
(PID.TID 0000.0001) missing value: -9.990000000000E+02 |
| 482 |
(PID.TID 0000.0001) Levels: will be set later |
| 483 |
(PID.TID 0000.0001) Fields: SIuice SIvice SIheff SIarea |
| 484 |
(PID.TID 0000.0001) ----------------------------------------------------- |
| 485 |
(PID.TID 0000.0001) DIAGNOSTICS_READPARMS: statistics diags. summary: |
| 486 |
(PID.TID 0000.0001) Creating Stats. Output Stream: iceStDiag |
| 487 |
(PID.TID 0000.0001) Output Frequency: 7200.000000 ; Phase: 1800.000000 |
| 488 |
(PID.TID 0000.0001) Regions: 0 |
| 489 |
(PID.TID 0000.0001) Fields: SIarea SIheff SIhsnow SIuice SIvice |
| 490 |
(PID.TID 0000.0001) ----------------------------------------------------- |
| 491 |
(PID.TID 0000.0001) |
| 492 |
(PID.TID 0000.0001) SET_PARMS: done |
| 493 |
(PID.TID 0000.0001) Enter INI_VERTICAL_GRID: setInterFDr= T ; setCenterDr= F |
| 494 |
(PID.TID 0000.0001) %MON XC_max = 3.9750000000000E+05 |
| 495 |
(PID.TID 0000.0001) %MON XC_min = 2.5000000000000E+03 |
| 496 |
(PID.TID 0000.0001) %MON XC_mean = 2.0000000000000E+05 |
| 497 |
(PID.TID 0000.0001) %MON XC_sd = 1.1546103238755E+05 |
| 498 |
(PID.TID 0000.0001) %MON XG_max = 3.9500000000000E+05 |
| 499 |
(PID.TID 0000.0001) %MON XG_min = 0.0000000000000E+00 |
| 500 |
(PID.TID 0000.0001) %MON XG_mean = 1.9750000000000E+05 |
| 501 |
(PID.TID 0000.0001) %MON XG_sd = 1.1546103238755E+05 |
| 502 |
(PID.TID 0000.0001) %MON DXC_max = 5.0000000000000E+03 |
| 503 |
(PID.TID 0000.0001) %MON DXC_min = 5.0000000000000E+03 |
| 504 |
(PID.TID 0000.0001) %MON DXC_mean = 5.0000000000000E+03 |
| 505 |
(PID.TID 0000.0001) %MON DXC_sd = 0.0000000000000E+00 |
| 506 |
(PID.TID 0000.0001) %MON DXF_max = 5.0000000000000E+03 |
| 507 |
(PID.TID 0000.0001) %MON DXF_min = 5.0000000000000E+03 |
| 508 |
(PID.TID 0000.0001) %MON DXF_mean = 5.0000000000000E+03 |
| 509 |
(PID.TID 0000.0001) %MON DXF_sd = 0.0000000000000E+00 |
| 510 |
(PID.TID 0000.0001) %MON DXG_max = 5.0000000000000E+03 |
| 511 |
(PID.TID 0000.0001) %MON DXG_min = 5.0000000000000E+03 |
| 512 |
(PID.TID 0000.0001) %MON DXG_mean = 5.0000000000000E+03 |
| 513 |
(PID.TID 0000.0001) %MON DXG_sd = 0.0000000000000E+00 |
| 514 |
(PID.TID 0000.0001) %MON DXV_max = 5.0000000000000E+03 |
| 515 |
(PID.TID 0000.0001) %MON DXV_min = 5.0000000000000E+03 |
| 516 |
(PID.TID 0000.0001) %MON DXV_mean = 5.0000000000000E+03 |
| 517 |
(PID.TID 0000.0001) %MON DXV_sd = 0.0000000000000E+00 |
| 518 |
(PID.TID 0000.0001) %MON YC_max = 9.7500000000000E+04 |
| 519 |
(PID.TID 0000.0001) %MON YC_min = -1.0750000000000E+05 |
| 520 |
(PID.TID 0000.0001) %MON YC_mean = -5.0000000000000E+03 |
| 521 |
(PID.TID 0000.0001) %MON YC_sd = 6.0604592785256E+04 |
| 522 |
(PID.TID 0000.0001) %MON YG_max = 9.5000000000000E+04 |
| 523 |
(PID.TID 0000.0001) %MON YG_min = -1.1000000000000E+05 |
| 524 |
(PID.TID 0000.0001) %MON YG_mean = -7.5000000000000E+03 |
| 525 |
(PID.TID 0000.0001) %MON YG_sd = 6.0604592785256E+04 |
| 526 |
(PID.TID 0000.0001) %MON DYC_max = 5.0000000000000E+03 |
| 527 |
(PID.TID 0000.0001) %MON DYC_min = 5.0000000000000E+03 |
| 528 |
(PID.TID 0000.0001) %MON DYC_mean = 5.0000000000000E+03 |
| 529 |
(PID.TID 0000.0001) %MON DYC_sd = 0.0000000000000E+00 |
| 530 |
(PID.TID 0000.0001) %MON DYF_max = 5.0000000000000E+03 |
| 531 |
(PID.TID 0000.0001) %MON DYF_min = 5.0000000000000E+03 |
| 532 |
(PID.TID 0000.0001) %MON DYF_mean = 5.0000000000000E+03 |
| 533 |
(PID.TID 0000.0001) %MON DYF_sd = 0.0000000000000E+00 |
| 534 |
(PID.TID 0000.0001) %MON DYG_max = 5.0000000000000E+03 |
| 535 |
(PID.TID 0000.0001) %MON DYG_min = 5.0000000000000E+03 |
| 536 |
(PID.TID 0000.0001) %MON DYG_mean = 5.0000000000000E+03 |
| 537 |
(PID.TID 0000.0001) %MON DYG_sd = 0.0000000000000E+00 |
| 538 |
(PID.TID 0000.0001) %MON DYU_max = 5.0000000000000E+03 |
| 539 |
(PID.TID 0000.0001) %MON DYU_min = 5.0000000000000E+03 |
| 540 |
(PID.TID 0000.0001) %MON DYU_mean = 5.0000000000000E+03 |
| 541 |
(PID.TID 0000.0001) %MON DYU_sd = 0.0000000000000E+00 |
| 542 |
(PID.TID 0000.0001) %MON RA_max = 2.5000000000000E+07 |
| 543 |
(PID.TID 0000.0001) %MON RA_min = 2.5000000000000E+07 |
| 544 |
(PID.TID 0000.0001) %MON RA_mean = 2.5000000000000E+07 |
| 545 |
(PID.TID 0000.0001) %MON RA_sd = 3.7252902984619E-09 |
| 546 |
(PID.TID 0000.0001) %MON RAW_max = 2.5000000000000E+07 |
| 547 |
(PID.TID 0000.0001) %MON RAW_min = 2.5000000000000E+07 |
| 548 |
(PID.TID 0000.0001) %MON RAW_mean = 2.5000000000000E+07 |
| 549 |
(PID.TID 0000.0001) %MON RAW_sd = 3.7252902984619E-09 |
| 550 |
(PID.TID 0000.0001) %MON RAS_max = 2.5000000000000E+07 |
| 551 |
(PID.TID 0000.0001) %MON RAS_min = 2.5000000000000E+07 |
| 552 |
(PID.TID 0000.0001) %MON RAS_mean = 2.5000000000000E+07 |
| 553 |
(PID.TID 0000.0001) %MON RAS_sd = 3.7252902984619E-09 |
| 554 |
(PID.TID 0000.0001) %MON RAZ_max = 2.5000000000000E+07 |
| 555 |
(PID.TID 0000.0001) %MON RAZ_min = 2.5000000000000E+07 |
| 556 |
(PID.TID 0000.0001) %MON RAZ_mean = 2.5000000000000E+07 |
| 557 |
(PID.TID 0000.0001) %MON RAZ_sd = 3.7252902984619E-09 |
| 558 |
(PID.TID 0000.0001) %MON AngleCS_max = 1.0000000000000E+00 |
| 559 |
(PID.TID 0000.0001) %MON AngleCS_min = 1.0000000000000E+00 |
| 560 |
(PID.TID 0000.0001) %MON AngleCS_mean = 1.0000000000000E+00 |
| 561 |
(PID.TID 0000.0001) %MON AngleCS_sd = 0.0000000000000E+00 |
| 562 |
(PID.TID 0000.0001) %MON AngleSN_max = 0.0000000000000E+00 |
| 563 |
(PID.TID 0000.0001) %MON AngleSN_min = 0.0000000000000E+00 |
| 564 |
(PID.TID 0000.0001) %MON AngleSN_mean = 0.0000000000000E+00 |
| 565 |
(PID.TID 0000.0001) %MON AngleSN_sd = 0.0000000000000E+00 |
| 566 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: bathy_3c.bin |
| 567 |
(PID.TID 0000.0001) // ======================================================= |
| 568 |
(PID.TID 0000.0001) // Field Model R_low (ini_masks_etc) |
| 569 |
(PID.TID 0000.0001) // CMIN = -1.000000000000000E+01 |
| 570 |
(PID.TID 0000.0001) // CMAX = -1.000000000000000E+01 |
| 571 |
(PID.TID 0000.0001) // CINT = 0.000000000000000E+00 |
| 572 |
(PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+ |
| 573 |
(PID.TID 0000.0001) // 0.0: . |
| 574 |
(PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 83: 1) |
| 575 |
(PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 45: -2: -1) |
| 576 |
(PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1) |
| 577 |
(PID.TID 0000.0001) // ======================================================= |
| 578 |
(PID.TID 0000.0001) // ======================================================= |
| 579 |
(PID.TID 0000.0001) // END OF FIELD = |
| 580 |
(PID.TID 0000.0001) // ======================================================= |
| 581 |
(PID.TID 0000.0001) |
| 582 |
(PID.TID 0000.0001) // ======================================================= |
| 583 |
(PID.TID 0000.0001) // Field Model Ro_surf (ini_masks_etc) |
| 584 |
(PID.TID 0000.0001) // CMIN = 1.000000000000000E+32 |
| 585 |
(PID.TID 0000.0001) // CMAX = -1.000000000000000E+32 |
| 586 |
(PID.TID 0000.0001) // CINT = 0.000000000000000E+00 |
| 587 |
(PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+ |
| 588 |
(PID.TID 0000.0001) // 0.0: . |
| 589 |
(PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 83: 1) |
| 590 |
(PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 45: -2: -1) |
| 591 |
(PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1) |
| 592 |
(PID.TID 0000.0001) // ======================================================= |
| 593 |
(PID.TID 0000.0001) // ======================================================= |
| 594 |
(PID.TID 0000.0001) // END OF FIELD = |
| 595 |
(PID.TID 0000.0001) // ======================================================= |
| 596 |
(PID.TID 0000.0001) |
| 597 |
(PID.TID 0000.0001) // ======================================================= |
| 598 |
(PID.TID 0000.0001) // Field hFacC at iteration 0 |
| 599 |
(PID.TID 0000.0001) // CMIN = 1.000000000000000E+00 |
| 600 |
(PID.TID 0000.0001) // CMAX = 1.000000000000000E+00 |
| 601 |
(PID.TID 0000.0001) // CINT = 0.000000000000000E+00 |
| 602 |
(PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+ |
| 603 |
(PID.TID 0000.0001) // 0.0: . |
| 604 |
(PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 83: 1) |
| 605 |
(PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 45: -2: -1) |
| 606 |
(PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1) |
| 607 |
(PID.TID 0000.0001) // ======================================================= |
| 608 |
(PID.TID 0000.0001) // ======================================================= |
| 609 |
(PID.TID 0000.0001) // END OF FIELD = |
| 610 |
(PID.TID 0000.0001) // ======================================================= |
| 611 |
(PID.TID 0000.0001) |
| 612 |
(PID.TID 0000.0001) // ======================================================= |
| 613 |
(PID.TID 0000.0001) // Field hFacW at iteration 0 |
| 614 |
(PID.TID 0000.0001) // CMIN = 1.000000000000000E+00 |
| 615 |
(PID.TID 0000.0001) // CMAX = 1.000000000000000E+00 |
| 616 |
(PID.TID 0000.0001) // CINT = 0.000000000000000E+00 |
| 617 |
(PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+ |
| 618 |
(PID.TID 0000.0001) // 0.0: . |
| 619 |
(PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 83: 1) |
| 620 |
(PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 45: -2: -1) |
| 621 |
(PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1) |
| 622 |
(PID.TID 0000.0001) // ======================================================= |
| 623 |
(PID.TID 0000.0001) // ======================================================= |
| 624 |
(PID.TID 0000.0001) // END OF FIELD = |
| 625 |
(PID.TID 0000.0001) // ======================================================= |
| 626 |
(PID.TID 0000.0001) |
| 627 |
(PID.TID 0000.0001) // ======================================================= |
| 628 |
(PID.TID 0000.0001) // Field hFacS at iteration 0 |
| 629 |
(PID.TID 0000.0001) // CMIN = 1.000000000000000E+00 |
| 630 |
(PID.TID 0000.0001) // CMAX = 1.000000000000000E+00 |
| 631 |
(PID.TID 0000.0001) // CINT = 0.000000000000000E+00 |
| 632 |
(PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+ |
| 633 |
(PID.TID 0000.0001) // 0.0: . |
| 634 |
(PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 83: 1) |
| 635 |
(PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 45: -2: -1) |
| 636 |
(PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1) |
| 637 |
(PID.TID 0000.0001) // ======================================================= |
| 638 |
(PID.TID 0000.0001) // ======================================================= |
| 639 |
(PID.TID 0000.0001) // END OF FIELD = |
| 640 |
(PID.TID 0000.0001) // ======================================================= |
| 641 |
(PID.TID 0000.0001) |
| 642 |
(PID.TID 0000.0001) |
| 643 |
(PID.TID 0000.0001) // ======================================================= |
| 644 |
(PID.TID 0000.0001) // Calendar configuration >>> START <<< |
| 645 |
(PID.TID 0000.0001) // ======================================================= |
| 646 |
(PID.TID 0000.0001) |
| 647 |
(PID.TID 0000.0001) modelstart = /* Start time of the model integration [s] */ |
| 648 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 649 |
(PID.TID 0000.0001) ; |
| 650 |
(PID.TID 0000.0001) modelend = /* End time of the model integration [s] */ |
| 651 |
(PID.TID 0000.0001) 2.160000000000000E+04 |
| 652 |
(PID.TID 0000.0001) ; |
| 653 |
(PID.TID 0000.0001) modelStep = /* Time interval for a model forward step [s] */ |
| 654 |
(PID.TID 0000.0001) 1.800000000000000E+03 |
| 655 |
(PID.TID 0000.0001) ; |
| 656 |
(PID.TID 0000.0001) usingGregorianCalendar= /* Calendar Type: Gregorian Calendar */ |
| 657 |
(PID.TID 0000.0001) T |
| 658 |
(PID.TID 0000.0001) ; |
| 659 |
(PID.TID 0000.0001) usingJulianCalendar = /* Calendar Type: Julian Calendar */ |
| 660 |
(PID.TID 0000.0001) F |
| 661 |
(PID.TID 0000.0001) ; |
| 662 |
(PID.TID 0000.0001) usingNoLeapYearCal = /* Calendar Type: without Leap Year */ |
| 663 |
(PID.TID 0000.0001) F |
| 664 |
(PID.TID 0000.0001) ; |
| 665 |
(PID.TID 0000.0001) usingModelCalendar = /* Calendar Type: Model Calendar */ |
| 666 |
(PID.TID 0000.0001) F |
| 667 |
(PID.TID 0000.0001) ; |
| 668 |
(PID.TID 0000.0001) modelStartDate YYYYMMDD = /* Model start date YYYY-MM-DD */ |
| 669 |
(PID.TID 0000.0001) 19790101 |
| 670 |
(PID.TID 0000.0001) ; |
| 671 |
(PID.TID 0000.0001) modelStartDate HHMMSS = /* Model start date HH-MM-SS */ |
| 672 |
(PID.TID 0000.0001) 0 |
| 673 |
(PID.TID 0000.0001) ; |
| 674 |
(PID.TID 0000.0001) modelEndDate YYYYMMDD = /* Model end date YYYY-MM-DD */ |
| 675 |
(PID.TID 0000.0001) 19790101 |
| 676 |
(PID.TID 0000.0001) ; |
| 677 |
(PID.TID 0000.0001) modelEndDate HHMMSS = /* Model end date HH-MM-SS */ |
| 678 |
(PID.TID 0000.0001) 60000 |
| 679 |
(PID.TID 0000.0001) ; |
| 680 |
(PID.TID 0000.0001) intyears = /* Number of calendar years affected by the integration */ |
| 681 |
(PID.TID 0000.0001) 1 |
| 682 |
(PID.TID 0000.0001) ; |
| 683 |
(PID.TID 0000.0001) intmonths= /* Number of calendar months affected by the integration */ |
| 684 |
(PID.TID 0000.0001) 1 |
| 685 |
(PID.TID 0000.0001) ; |
| 686 |
(PID.TID 0000.0001) intdays = /* Number of calendar days affected by the integration */ |
| 687 |
(PID.TID 0000.0001) 1 |
| 688 |
(PID.TID 0000.0001) ; |
| 689 |
(PID.TID 0000.0001) modelIter0 = /* Base timestep number */ |
| 690 |
(PID.TID 0000.0001) 0 |
| 691 |
(PID.TID 0000.0001) ; |
| 692 |
(PID.TID 0000.0001) modelIterEnd = /* Final timestep number */ |
| 693 |
(PID.TID 0000.0001) 12 |
| 694 |
(PID.TID 0000.0001) ; |
| 695 |
(PID.TID 0000.0001) modelIntSteps= /* Number of model timesteps */ |
| 696 |
(PID.TID 0000.0001) 12 |
| 697 |
(PID.TID 0000.0001) ; |
| 698 |
(PID.TID 0000.0001) |
| 699 |
(PID.TID 0000.0001) // ======================================================= |
| 700 |
(PID.TID 0000.0001) // Calendar configuration >>> END <<< |
| 701 |
(PID.TID 0000.0001) // ======================================================= |
| 702 |
(PID.TID 0000.0001) |
| 703 |
(PID.TID 0000.0001) GAD_INIT_FIXED: GAD_OlMinSize= 0 0 1 |
| 704 |
(PID.TID 0000.0001) |
| 705 |
(PID.TID 0000.0001) // =================================== |
| 706 |
(PID.TID 0000.0001) // GAD parameters : |
| 707 |
(PID.TID 0000.0001) // =================================== |
| 708 |
(PID.TID 0000.0001) tempAdvScheme = /* Temp. Horiz.Advection scheme selector */ |
| 709 |
(PID.TID 0000.0001) 2 |
| 710 |
(PID.TID 0000.0001) ; |
| 711 |
(PID.TID 0000.0001) tempVertAdvScheme = /* Temp. Vert. Advection scheme selector */ |
| 712 |
(PID.TID 0000.0001) 2 |
| 713 |
(PID.TID 0000.0001) ; |
| 714 |
(PID.TID 0000.0001) tempMultiDimAdvec = /* use Muti-Dim Advec method for Temp */ |
| 715 |
(PID.TID 0000.0001) F |
| 716 |
(PID.TID 0000.0001) ; |
| 717 |
(PID.TID 0000.0001) tempSOM_Advection = /* use 2nd Order Moment Advection for Temp */ |
| 718 |
(PID.TID 0000.0001) F |
| 719 |
(PID.TID 0000.0001) ; |
| 720 |
(PID.TID 0000.0001) AdamsBashforthGt = /* apply Adams-Bashforth extrapolation on Gt */ |
| 721 |
(PID.TID 0000.0001) F |
| 722 |
(PID.TID 0000.0001) ; |
| 723 |
(PID.TID 0000.0001) AdamsBashforth_T = /* apply Adams-Bashforth extrapolation on Temp */ |
| 724 |
(PID.TID 0000.0001) F |
| 725 |
(PID.TID 0000.0001) ; |
| 726 |
(PID.TID 0000.0001) saltAdvScheme = /* Salt. Horiz.advection scheme selector */ |
| 727 |
(PID.TID 0000.0001) 2 |
| 728 |
(PID.TID 0000.0001) ; |
| 729 |
(PID.TID 0000.0001) saltVertAdvScheme = /* Salt. Vert. Advection scheme selector */ |
| 730 |
(PID.TID 0000.0001) 2 |
| 731 |
(PID.TID 0000.0001) ; |
| 732 |
(PID.TID 0000.0001) saltMultiDimAdvec = /* use Muti-Dim Advec method for Salt */ |
| 733 |
(PID.TID 0000.0001) F |
| 734 |
(PID.TID 0000.0001) ; |
| 735 |
(PID.TID 0000.0001) saltSOM_Advection = /* use 2nd Order Moment Advection for Salt */ |
| 736 |
(PID.TID 0000.0001) F |
| 737 |
(PID.TID 0000.0001) ; |
| 738 |
(PID.TID 0000.0001) AdamsBashforthGs = /* apply Adams-Bashforth extrapolation on Gs */ |
| 739 |
(PID.TID 0000.0001) F |
| 740 |
(PID.TID 0000.0001) ; |
| 741 |
(PID.TID 0000.0001) AdamsBashforth_S = /* apply Adams-Bashforth extrapolation on Salt */ |
| 742 |
(PID.TID 0000.0001) F |
| 743 |
(PID.TID 0000.0001) ; |
| 744 |
(PID.TID 0000.0001) // =================================== |
| 745 |
(PID.TID 0000.0001) |
| 746 |
(PID.TID 0000.0001) // ======================================================= |
| 747 |
(PID.TID 0000.0001) // External forcing (EXF) configuration >>> START <<< |
| 748 |
(PID.TID 0000.0001) // ======================================================= |
| 749 |
(PID.TID 0000.0001) |
| 750 |
(PID.TID 0000.0001) EXF general parameters: |
| 751 |
(PID.TID 0000.0001) |
| 752 |
(PID.TID 0000.0001) exf_iprec = /* exf file precision */ |
| 753 |
(PID.TID 0000.0001) 64 |
| 754 |
(PID.TID 0000.0001) ; |
| 755 |
(PID.TID 0000.0001) useExfYearlyFields = /* add extension _YEAR to input file names */ |
| 756 |
(PID.TID 0000.0001) F |
| 757 |
(PID.TID 0000.0001) ; |
| 758 |
(PID.TID 0000.0001) twoDigitYear = /* use 2-digit year extension */ |
| 759 |
(PID.TID 0000.0001) F |
| 760 |
(PID.TID 0000.0001) ; |
| 761 |
(PID.TID 0000.0001) useExfCheckRange = /* check for fields range */ |
| 762 |
(PID.TID 0000.0001) T |
| 763 |
(PID.TID 0000.0001) ; |
| 764 |
(PID.TID 0000.0001) exf_debugLev = /* select EXF-debug printing level */ |
| 765 |
(PID.TID 0000.0001) 2 |
| 766 |
(PID.TID 0000.0001) ; |
| 767 |
(PID.TID 0000.0001) exf_monFreq = /* EXF monitor frequency [ s ] */ |
| 768 |
(PID.TID 0000.0001) 8.640000000000000E+07 |
| 769 |
(PID.TID 0000.0001) ; |
| 770 |
(PID.TID 0000.0001) repeatPeriod = /* period for cycling forcing dataset [ s ] */ |
| 771 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 772 |
(PID.TID 0000.0001) ; |
| 773 |
(PID.TID 0000.0001) climTempFreeze= /* Minimum climatological temperature [deg.C] */ |
| 774 |
(PID.TID 0000.0001) -1.900000000000000E+00 |
| 775 |
(PID.TID 0000.0001) ; |
| 776 |
(PID.TID 0000.0001) windStressMax = /* Maximum absolute windstress [ Pa ] */ |
| 777 |
(PID.TID 0000.0001) 2.000000000000000E+00 |
| 778 |
(PID.TID 0000.0001) ; |
| 779 |
(PID.TID 0000.0001) stressIsOnCgrid = /* set u,v_stress on Arakawa C-grid */ |
| 780 |
(PID.TID 0000.0001) F |
| 781 |
(PID.TID 0000.0001) ; |
| 782 |
(PID.TID 0000.0001) cen2kel = /* conversion of deg. Centigrade to Kelvin [K] */ |
| 783 |
(PID.TID 0000.0001) 2.731500000000000E+02 |
| 784 |
(PID.TID 0000.0001) ; |
| 785 |
(PID.TID 0000.0001) gravity_mks= /* gravitational acceleration [m/s^2] */ |
| 786 |
(PID.TID 0000.0001) 9.810000000000000E+00 |
| 787 |
(PID.TID 0000.0001) ; |
| 788 |
(PID.TID 0000.0001) atmrho = /* mean atmospheric density [kg/m^3] */ |
| 789 |
(PID.TID 0000.0001) 1.200000000000000E+00 |
| 790 |
(PID.TID 0000.0001) ; |
| 791 |
(PID.TID 0000.0001) atmcp = /* mean atmospheric specific heat [J/kg/K] */ |
| 792 |
(PID.TID 0000.0001) 1.005000000000000E+03 |
| 793 |
(PID.TID 0000.0001) ; |
| 794 |
(PID.TID 0000.0001) flamb = /* latent heat of evaporation [J/kg] */ |
| 795 |
(PID.TID 0000.0001) 2.500000000000000E+06 |
| 796 |
(PID.TID 0000.0001) ; |
| 797 |
(PID.TID 0000.0001) flami = /* latent heat of pure-ice melting [J/kg] */ |
| 798 |
(PID.TID 0000.0001) 3.340000000000000E+05 |
| 799 |
(PID.TID 0000.0001) ; |
| 800 |
(PID.TID 0000.0001) cvapor_fac = /* const. for Saturation calculation [?] */ |
| 801 |
(PID.TID 0000.0001) 6.403800000000000E+05 |
| 802 |
(PID.TID 0000.0001) ; |
| 803 |
(PID.TID 0000.0001) cvapor_exp = /* const. for Saturation calculation [?] */ |
| 804 |
(PID.TID 0000.0001) 5.107400000000000E+03 |
| 805 |
(PID.TID 0000.0001) ; |
| 806 |
(PID.TID 0000.0001) cvapor_fac_ice= /* const. for Saturation calculation [?] */ |
| 807 |
(PID.TID 0000.0001) 1.163780000000000E+07 |
| 808 |
(PID.TID 0000.0001) ; |
| 809 |
(PID.TID 0000.0001) cvapor_exp_ice= /* const. for Saturation calculation [?] */ |
| 810 |
(PID.TID 0000.0001) 5.897800000000000E+03 |
| 811 |
(PID.TID 0000.0001) ; |
| 812 |
(PID.TID 0000.0001) humid_fac = /* humidity coef. in virtual temp. [(kg/kg)^-1] */ |
| 813 |
(PID.TID 0000.0001) 6.060000000000000E-01 |
| 814 |
(PID.TID 0000.0001) ; |
| 815 |
(PID.TID 0000.0001) gamma_blk = /* adiabatic lapse rate [?] */ |
| 816 |
(PID.TID 0000.0001) 1.000000000000000E-02 |
| 817 |
(PID.TID 0000.0001) ; |
| 818 |
(PID.TID 0000.0001) saltsat = /* reduction of Qsat over salty water [-] */ |
| 819 |
(PID.TID 0000.0001) 9.800000000000000E-01 |
| 820 |
(PID.TID 0000.0001) ; |
| 821 |
(PID.TID 0000.0001) noNegativeEvap = /* prevent negative Evaporation */ |
| 822 |
(PID.TID 0000.0001) F |
| 823 |
(PID.TID 0000.0001) ; |
| 824 |
(PID.TID 0000.0001) sstExtrapol = /* extrapolation coeff from lev. 1 & 2 to surf [-] */ |
| 825 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 826 |
(PID.TID 0000.0001) ; |
| 827 |
(PID.TID 0000.0001) cDrag_1 = /* coef used in drag calculation [?] */ |
| 828 |
(PID.TID 0000.0001) 2.700000000000000E-03 |
| 829 |
(PID.TID 0000.0001) ; |
| 830 |
(PID.TID 0000.0001) cDrag_2 = /* coef used in drag calculation [?] */ |
| 831 |
(PID.TID 0000.0001) 1.420000000000000E-04 |
| 832 |
(PID.TID 0000.0001) ; |
| 833 |
(PID.TID 0000.0001) cDrag_3 = /* coef used in drag calculation [?] */ |
| 834 |
(PID.TID 0000.0001) 7.640000000000000E-05 |
| 835 |
(PID.TID 0000.0001) ; |
| 836 |
(PID.TID 0000.0001) cStanton_1 = /* coef used in Stanton number calculation [?] */ |
| 837 |
(PID.TID 0000.0001) 3.270000000000000E-02 |
| 838 |
(PID.TID 0000.0001) ; |
| 839 |
(PID.TID 0000.0001) cStanton_2 = /* coef used in Stanton number calculation [?] */ |
| 840 |
(PID.TID 0000.0001) 1.800000000000000E-02 |
| 841 |
(PID.TID 0000.0001) ; |
| 842 |
(PID.TID 0000.0001) cDalton = /* coef used in Dalton number calculation [?] */ |
| 843 |
(PID.TID 0000.0001) 3.460000000000000E-02 |
| 844 |
(PID.TID 0000.0001) ; |
| 845 |
(PID.TID 0000.0001) exf_scal_BulkCdn= /* Drag coefficient scaling factor [-] */ |
| 846 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 847 |
(PID.TID 0000.0001) ; |
| 848 |
(PID.TID 0000.0001) zolmin = /* minimum stability parameter [?] */ |
| 849 |
(PID.TID 0000.0001) -1.000000000000000E+02 |
| 850 |
(PID.TID 0000.0001) ; |
| 851 |
(PID.TID 0000.0001) psim_fac = /* coef used in turbulent fluxes calculation [-] */ |
| 852 |
(PID.TID 0000.0001) 5.000000000000000E+00 |
| 853 |
(PID.TID 0000.0001) ; |
| 854 |
(PID.TID 0000.0001) zref = /* reference height [ m ] */ |
| 855 |
(PID.TID 0000.0001) 1.000000000000000E+01 |
| 856 |
(PID.TID 0000.0001) ; |
| 857 |
(PID.TID 0000.0001) hu = /* height of mean wind [ m ] */ |
| 858 |
(PID.TID 0000.0001) 1.000000000000000E+01 |
| 859 |
(PID.TID 0000.0001) ; |
| 860 |
(PID.TID 0000.0001) ht = /* height of mean temperature [ m ] */ |
| 861 |
(PID.TID 0000.0001) 2.000000000000000E+00 |
| 862 |
(PID.TID 0000.0001) ; |
| 863 |
(PID.TID 0000.0001) hq = /* height of mean spec.humidity [ m ] */ |
| 864 |
(PID.TID 0000.0001) 2.000000000000000E+00 |
| 865 |
(PID.TID 0000.0001) ; |
| 866 |
(PID.TID 0000.0001) uMin = /* minimum wind speed [m/s] */ |
| 867 |
(PID.TID 0000.0001) 5.000000000000000E-01 |
| 868 |
(PID.TID 0000.0001) ; |
| 869 |
(PID.TID 0000.0001) useStabilityFct_overIce= /* transfert Coeffs over sea-ice depend on stability */ |
| 870 |
(PID.TID 0000.0001) F |
| 871 |
(PID.TID 0000.0001) ; |
| 872 |
(PID.TID 0000.0001) exf_iceCd = /* drag coefficient over sea-ice (fixed) [-] */ |
| 873 |
(PID.TID 0000.0001) 1.630000000000000E-03 |
| 874 |
(PID.TID 0000.0001) ; |
| 875 |
(PID.TID 0000.0001) exf_iceCe = /* transfert coeff. over sea-ice, for Evap (fixed) [-] */ |
| 876 |
(PID.TID 0000.0001) 1.630000000000000E-03 |
| 877 |
(PID.TID 0000.0001) ; |
| 878 |
(PID.TID 0000.0001) exf_iceCh = /* transfert coeff. over sea-ice, Sens.Heat.(fixed)[-] */ |
| 879 |
(PID.TID 0000.0001) 1.630000000000000E-03 |
| 880 |
(PID.TID 0000.0001) ; |
| 881 |
(PID.TID 0000.0001) exf_albedo = /* Sea-water albedo [-] */ |
| 882 |
(PID.TID 0000.0001) 1.000000000000000E-01 |
| 883 |
(PID.TID 0000.0001) ; |
| 884 |
(PID.TID 0000.0001) useExfZenAlbedo = /* Sea-water albedo varies with zenith angle */ |
| 885 |
(PID.TID 0000.0001) F |
| 886 |
(PID.TID 0000.0001) ; |
| 887 |
(PID.TID 0000.0001) select_ZenAlbedo = /* Sea-water albedo computation method */ |
| 888 |
(PID.TID 0000.0001) 0 |
| 889 |
(PID.TID 0000.0001) ; |
| 890 |
(PID.TID 0000.0001) useExfZenIncoming = /* compute incoming solar radiation */ |
| 891 |
(PID.TID 0000.0001) F |
| 892 |
(PID.TID 0000.0001) ; |
| 893 |
(PID.TID 0000.0001) ocean_emissivity = /* longwave ocean-surface emissivity [-] */ |
| 894 |
(PID.TID 0000.0001) 9.700176366843034E-01 |
| 895 |
(PID.TID 0000.0001) ; |
| 896 |
(PID.TID 0000.0001) ice_emissivity = /* longwave seaice emissivity [-] */ |
| 897 |
(PID.TID 0000.0001) 9.500000000000000E-01 |
| 898 |
(PID.TID 0000.0001) ; |
| 899 |
(PID.TID 0000.0001) snow_emissivity = /* longwave snow emissivity [-] */ |
| 900 |
(PID.TID 0000.0001) 9.500000000000000E-01 |
| 901 |
(PID.TID 0000.0001) ; |
| 902 |
(PID.TID 0000.0001) |
| 903 |
(PID.TID 0000.0001) EXF main CPP flags: |
| 904 |
(PID.TID 0000.0001) |
| 905 |
(PID.TID 0000.0001) // USE_EXF_INTERPOLATION: NOT defined |
| 906 |
(PID.TID 0000.0001) // ALLOW_ATM_TEMP: defined |
| 907 |
(PID.TID 0000.0001) // ALLOW_ATM_WIND (useAtmWind): defined |
| 908 |
(PID.TID 0000.0001) // ALLOW_DOWNWARD_RADIATION: defined |
| 909 |
(PID.TID 0000.0001) // ALLOW_BULKFORMULAE: defined |
| 910 |
(PID.TID 0000.0001) |
| 911 |
(PID.TID 0000.0001) Net shortwave flux forcing starts at 0. |
| 912 |
(PID.TID 0000.0001) Net shortwave flux forcing period is 0. |
| 913 |
(PID.TID 0000.0001) Net shortwave flux forcing is read from file: |
| 914 |
(PID.TID 0000.0001) >> << |
| 915 |
(PID.TID 0000.0001) |
| 916 |
(PID.TID 0000.0001) Zonal wind forcing starts at 0. |
| 917 |
(PID.TID 0000.0001) Zonal wind forcing period is 0. |
| 918 |
(PID.TID 0000.0001) Zonal wind forcing is read from file: |
| 919 |
(PID.TID 0000.0001) >> windx.bin << |
| 920 |
(PID.TID 0000.0001) |
| 921 |
(PID.TID 0000.0001) Meridional wind forcing starts at 0. |
| 922 |
(PID.TID 0000.0001) Meridional wind forcing period is 0. |
| 923 |
(PID.TID 0000.0001) Meridional wind forcing is read from file: |
| 924 |
(PID.TID 0000.0001) >> << |
| 925 |
(PID.TID 0000.0001) |
| 926 |
(PID.TID 0000.0001) Atmospheric temperature starts at 0. |
| 927 |
(PID.TID 0000.0001) Atmospheric temperature period is 0. |
| 928 |
(PID.TID 0000.0001) Atmospheric temperature is read from file: |
| 929 |
(PID.TID 0000.0001) >> << |
| 930 |
(PID.TID 0000.0001) |
| 931 |
(PID.TID 0000.0001) Atmospheric specific humidity starts at 0. |
| 932 |
(PID.TID 0000.0001) Atmospheric specific humidity period is 0. |
| 933 |
(PID.TID 0000.0001) Atmospheric specific humidity is read from file: |
| 934 |
(PID.TID 0000.0001) >> << |
| 935 |
(PID.TID 0000.0001) |
| 936 |
(PID.TID 0000.0001) Net longwave flux forcing starts at 0. |
| 937 |
(PID.TID 0000.0001) Net longwave flux forcing period is 0. |
| 938 |
(PID.TID 0000.0001) Net longwave flux forcing is read from file: |
| 939 |
(PID.TID 0000.0001) >> << |
| 940 |
(PID.TID 0000.0001) |
| 941 |
(PID.TID 0000.0001) Precipitation data set starts at 0. |
| 942 |
(PID.TID 0000.0001) Precipitation data period is 0. |
| 943 |
(PID.TID 0000.0001) Precipitation data is read from file: |
| 944 |
(PID.TID 0000.0001) >> << |
| 945 |
(PID.TID 0000.0001) |
| 946 |
(PID.TID 0000.0001) // EXF_READ_EVAP: NOT defined |
| 947 |
(PID.TID 0000.0001) |
| 948 |
(PID.TID 0000.0001) // ALLOW_RUNOFF: defined |
| 949 |
(PID.TID 0000.0001) Runoff starts at 0. |
| 950 |
(PID.TID 0000.0001) Runoff period is 0. |
| 951 |
(PID.TID 0000.0001) Runoff is read from file: |
| 952 |
(PID.TID 0000.0001) >> << |
| 953 |
(PID.TID 0000.0001) // ALLOW_RUNOFTEMP: NOT defined |
| 954 |
(PID.TID 0000.0001) |
| 955 |
(PID.TID 0000.0001) Downward shortwave flux forcing starts at 0. |
| 956 |
(PID.TID 0000.0001) Downward shortwave flux forcing period is 0. |
| 957 |
(PID.TID 0000.0001) Downward shortwave flux forcing is read from file: |
| 958 |
(PID.TID 0000.0001) >> << |
| 959 |
(PID.TID 0000.0001) |
| 960 |
(PID.TID 0000.0001) Downward longwave flux forcing starts at 0. |
| 961 |
(PID.TID 0000.0001) Downward longwave flux forcing period is 0. |
| 962 |
(PID.TID 0000.0001) Downward longwave flux forcing is read from file: |
| 963 |
(PID.TID 0000.0001) >> << |
| 964 |
(PID.TID 0000.0001) |
| 965 |
(PID.TID 0000.0001) Atmospheric pressure forcing starts at 0. |
| 966 |
(PID.TID 0000.0001) Atmospheric pressure forcing period is 0. |
| 967 |
(PID.TID 0000.0001) Atmospheric pressureforcing is read from file: |
| 968 |
(PID.TID 0000.0001) >> << |
| 969 |
(PID.TID 0000.0001) |
| 970 |
(PID.TID 0000.0001) // ======================================================= |
| 971 |
(PID.TID 0000.0001) // External forcing (EXF) climatology configuration : |
| 972 |
(PID.TID 0000.0001) // ======================================================= |
| 973 |
(PID.TID 0000.0001) |
| 974 |
(PID.TID 0000.0001) // ALLOW_CLIMSST_RELAXATION: defined |
| 975 |
(PID.TID 0000.0001) // ALLOW_CLIMSSS_RELAXATION: defined |
| 976 |
(PID.TID 0000.0001) |
| 977 |
(PID.TID 0000.0001) Climatological SST starts at 0. |
| 978 |
(PID.TID 0000.0001) Climatological SST period is 0. |
| 979 |
(PID.TID 0000.0001) Climatological SST is read from file: |
| 980 |
(PID.TID 0000.0001) >> << |
| 981 |
(PID.TID 0000.0001) |
| 982 |
(PID.TID 0000.0001) Climatological SSS starts at 0. |
| 983 |
(PID.TID 0000.0001) Climatological SSS period is 0. |
| 984 |
(PID.TID 0000.0001) Climatological SSS is read from file: |
| 985 |
(PID.TID 0000.0001) >> << |
| 986 |
(PID.TID 0000.0001) |
| 987 |
(PID.TID 0000.0001) // ======================================================= |
| 988 |
(PID.TID 0000.0001) // External forcing (EXF) configuration >>> END <<< |
| 989 |
(PID.TID 0000.0001) // ======================================================= |
| 990 |
(PID.TID 0000.0001) |
| 991 |
(PID.TID 0000.0001) // ======================================================= |
| 992 |
(PID.TID 0000.0001) // Seaice configuration (SEAICE_PARM01) >>> START <<< |
| 993 |
(PID.TID 0000.0001) // ======================================================= |
| 994 |
(PID.TID 0000.0001) |
| 995 |
(PID.TID 0000.0001) Seaice time stepping configuration > START < |
| 996 |
(PID.TID 0000.0001) ---------------------------------------------- |
| 997 |
(PID.TID 0000.0001) SEAICE_deltaTtherm= /* thermodynamic timestep */ |
| 998 |
(PID.TID 0000.0001) 1.800000000000000E+03 |
| 999 |
(PID.TID 0000.0001) ; |
| 1000 |
(PID.TID 0000.0001) SEAICE_deltaTdyn = /* dynamic timestep */ |
| 1001 |
(PID.TID 0000.0001) 1.800000000000000E+03 |
| 1002 |
(PID.TID 0000.0001) ; |
| 1003 |
(PID.TID 0000.0001) SEAICE_deltaTevp = /* EVP timestep */ |
| 1004 |
(PID.TID 0000.0001) 1.234567000000000E+05 |
| 1005 |
(PID.TID 0000.0001) ; |
| 1006 |
(PID.TID 0000.0001) SEAICEuseBDF2 = /* use backw. differencing for mom. eq. */ |
| 1007 |
(PID.TID 0000.0001) F |
| 1008 |
(PID.TID 0000.0001) ; |
| 1009 |
(PID.TID 0000.0001) SEAICErestoreUnderIce = /* restore T and S under ice */ |
| 1010 |
(PID.TID 0000.0001) F |
| 1011 |
(PID.TID 0000.0001) ; |
| 1012 |
(PID.TID 0000.0001) |
| 1013 |
(PID.TID 0000.0001) Seaice dynamics configuration > START < |
| 1014 |
(PID.TID 0000.0001) ------------------------------------------ |
| 1015 |
(PID.TID 0000.0001) SEAICEuseDYNAMICS = /* use dynamics */ |
| 1016 |
(PID.TID 0000.0001) T |
| 1017 |
(PID.TID 0000.0001) ; |
| 1018 |
(PID.TID 0000.0001) model grid type = /* type of sea ice model grid */ |
| 1019 |
(PID.TID 0000.0001) 'C-GRID' |
| 1020 |
(PID.TID 0000.0001) ; |
| 1021 |
(PID.TID 0000.0001) SEAICEuseStrImpCpl = /* use strongly implicit coupling */ |
| 1022 |
(PID.TID 0000.0001) F |
| 1023 |
(PID.TID 0000.0001) ; |
| 1024 |
(PID.TID 0000.0001) SEAICEuseEVP = /* use EVP solver rather than LSR */ |
| 1025 |
(PID.TID 0000.0001) F |
| 1026 |
(PID.TID 0000.0001) ; |
| 1027 |
(PID.TID 0000.0001) SEAICEuseFREEDRIFT = /* use free drift solution */ |
| 1028 |
(PID.TID 0000.0001) F |
| 1029 |
(PID.TID 0000.0001) ; |
| 1030 |
(PID.TID 0000.0001) OCEAN_drag = /* air-ocean drag coefficient */ |
| 1031 |
(PID.TID 0000.0001) 8.154100000000000E-04 |
| 1032 |
(PID.TID 0000.0001) ; |
| 1033 |
(PID.TID 0000.0001) SEAICE_drag = /* air-ice drag coefficient */ |
| 1034 |
(PID.TID 0000.0001) 2.000000000000000E-03 |
| 1035 |
(PID.TID 0000.0001) ; |
| 1036 |
(PID.TID 0000.0001) SEAICE_drag_south = /* Southern Ocean SEAICE_drag */ |
| 1037 |
(PID.TID 0000.0001) 2.000000000000000E-03 |
| 1038 |
(PID.TID 0000.0001) ; |
| 1039 |
(PID.TID 0000.0001) SEAICE_waterDrag = /* water-ice drag * density */ |
| 1040 |
(PID.TID 0000.0001) 5.350800000000000E+00 |
| 1041 |
(PID.TID 0000.0001) ; |
| 1042 |
(PID.TID 0000.0001) SEAICE_waterDrag_south = /* Southern Ocean waterDrag */ |
| 1043 |
(PID.TID 0000.0001) 5.350800000000000E+00 |
| 1044 |
(PID.TID 0000.0001) ; |
| 1045 |
(PID.TID 0000.0001) SEAICEuseTilt = /* include surface tilt in dyna. */ |
| 1046 |
(PID.TID 0000.0001) T |
| 1047 |
(PID.TID 0000.0001) ; |
| 1048 |
(PID.TID 0000.0001) SEAICEuseTEM = /* use truncated ellipse rheology */ |
| 1049 |
(PID.TID 0000.0001) F |
| 1050 |
(PID.TID 0000.0001) ; |
| 1051 |
(PID.TID 0000.0001) SEAICE_strength = /* sea-ice strength Pstar */ |
| 1052 |
(PID.TID 0000.0001) 2.678000000000000E+04 |
| 1053 |
(PID.TID 0000.0001) ; |
| 1054 |
(PID.TID 0000.0001) SEAICE_cStar = /* sea-ice strength parameter cStar */ |
| 1055 |
(PID.TID 0000.0001) 2.000000000000000E+01 |
| 1056 |
(PID.TID 0000.0001) ; |
| 1057 |
(PID.TID 0000.0001) SEAICE_tensilFac = /* sea-ice tensile strength factor */ |
| 1058 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1059 |
(PID.TID 0000.0001) ; |
| 1060 |
(PID.TID 0000.0001) SEAICEpresH0 = /* sea-ice strength Heff threshold */ |
| 1061 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1062 |
(PID.TID 0000.0001) ; |
| 1063 |
(PID.TID 0000.0001) SEAICEpresPow0 = /* exponent for Heff<SEAICEpresH0 */ |
| 1064 |
(PID.TID 0000.0001) 1 |
| 1065 |
(PID.TID 0000.0001) ; |
| 1066 |
(PID.TID 0000.0001) SEAICEpresPow1 = /* exponent for Heff>SEAICEpresH0 */ |
| 1067 |
(PID.TID 0000.0001) 1 |
| 1068 |
(PID.TID 0000.0001) ; |
| 1069 |
(PID.TID 0000.0001) SEAICEetaZmethod = /* method computing eta at Z-point */ |
| 1070 |
(PID.TID 0000.0001) 0 |
| 1071 |
(PID.TID 0000.0001) ; |
| 1072 |
(PID.TID 0000.0001) SEAICE_zetaMin = /* lower bound for viscosity */ |
| 1073 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1074 |
(PID.TID 0000.0001) ; |
| 1075 |
(PID.TID 0000.0001) SEAICE_eccen = /* elliptical yield curve eccent */ |
| 1076 |
(PID.TID 0000.0001) 2.000000000000000E+00 |
| 1077 |
(PID.TID 0000.0001) ; |
| 1078 |
(PID.TID 0000.0001) SEAICEstressFactor = /* wind stress scaling factor */ |
| 1079 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1080 |
(PID.TID 0000.0001) ; |
| 1081 |
(PID.TID 0000.0001) SEAICE_airTurnAngle = /* air-ice turning angle */ |
| 1082 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1083 |
(PID.TID 0000.0001) ; |
| 1084 |
(PID.TID 0000.0001) SEAICE_waterTurnAngle = /* ice-water turning angle */ |
| 1085 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1086 |
(PID.TID 0000.0001) ; |
| 1087 |
(PID.TID 0000.0001) SEAICEuseMetricTerms = /* use metric terms */ |
| 1088 |
(PID.TID 0000.0001) T |
| 1089 |
(PID.TID 0000.0001) ; |
| 1090 |
(PID.TID 0000.0001) SEAICE_no_slip = /* no slip boundary conditions */ |
| 1091 |
(PID.TID 0000.0001) F |
| 1092 |
(PID.TID 0000.0001) ; |
| 1093 |
(PID.TID 0000.0001) SEAICE_clipVeloctities = /* impose max. vels. */ |
| 1094 |
(PID.TID 0000.0001) F |
| 1095 |
(PID.TID 0000.0001) ; |
| 1096 |
(PID.TID 0000.0001) useHB87stressCoupling = /* altern. ice-ocean stress */ |
| 1097 |
(PID.TID 0000.0001) F |
| 1098 |
(PID.TID 0000.0001) ; |
| 1099 |
(PID.TID 0000.0001) SEAICE_maskRHS = /* mask RHS of solver */ |
| 1100 |
(PID.TID 0000.0001) F |
| 1101 |
(PID.TID 0000.0001) ; |
| 1102 |
(PID.TID 0000.0001) LSR_mixIniGuess = /* mix free-drift sol. into LSR initial Guess */ |
| 1103 |
(PID.TID 0000.0001) 1 |
| 1104 |
(PID.TID 0000.0001) ; |
| 1105 |
(PID.TID 0000.0001) SOLV_MAX_ITERS = /* max. number of LSR solver steps */ |
| 1106 |
(PID.TID 0000.0001) 1500 |
| 1107 |
(PID.TID 0000.0001) ; |
| 1108 |
(PID.TID 0000.0001) SEAICE_LSRrelaxU = /* LSR solver: relaxation parameter */ |
| 1109 |
(PID.TID 0000.0001) 9.500000000000000E-01 |
| 1110 |
(PID.TID 0000.0001) ; |
| 1111 |
(PID.TID 0000.0001) SEAICE_LSRrelaxV = /* LSR solver: relaxation parameter */ |
| 1112 |
(PID.TID 0000.0001) 9.500000000000000E-01 |
| 1113 |
(PID.TID 0000.0001) ; |
| 1114 |
(PID.TID 0000.0001) LSR_ERROR = /* sets accuracy of LSR solver */ |
| 1115 |
(PID.TID 0000.0001) 1.000000000000000E-12 |
| 1116 |
(PID.TID 0000.0001) ; |
| 1117 |
(PID.TID 0000.0001) SOLV_NCHECK = /* test interval for LSR solver */ |
| 1118 |
(PID.TID 0000.0001) 2 |
| 1119 |
(PID.TID 0000.0001) ; |
| 1120 |
(PID.TID 0000.0001) NPSEUDOTIMESTEPS = /* num. of extra pseudo time steps */ |
| 1121 |
(PID.TID 0000.0001) 2 |
| 1122 |
(PID.TID 0000.0001) ; |
| 1123 |
(PID.TID 0000.0001) SEAICEuseMultiTileSolver = /* use full domain tri-diag solver */ |
| 1124 |
(PID.TID 0000.0001) F |
| 1125 |
(PID.TID 0000.0001) ; |
| 1126 |
(PID.TID 0000.0001) SEAICE_OLx = /* overlap for LSR/preconditioner */ |
| 1127 |
(PID.TID 0000.0001) 0 |
| 1128 |
(PID.TID 0000.0001) ; |
| 1129 |
(PID.TID 0000.0001) SEAICE_OLy = /* overlap for LSR/preconditioner */ |
| 1130 |
(PID.TID 0000.0001) 0 |
| 1131 |
(PID.TID 0000.0001) ; |
| 1132 |
(PID.TID 0000.0001) |
| 1133 |
(PID.TID 0000.0001) Seaice advection diffusion config, > START < |
| 1134 |
(PID.TID 0000.0001) ----------------------------------------------- |
| 1135 |
(PID.TID 0000.0001) SEAICEadvHeff = /* advect effective ice thickness */ |
| 1136 |
(PID.TID 0000.0001) T |
| 1137 |
(PID.TID 0000.0001) ; |
| 1138 |
(PID.TID 0000.0001) SEAICEadvArea = /* advect fractional ice area */ |
| 1139 |
(PID.TID 0000.0001) T |
| 1140 |
(PID.TID 0000.0001) ; |
| 1141 |
(PID.TID 0000.0001) SEAICEadvSnow = /* advect snow layer together with ice */ |
| 1142 |
(PID.TID 0000.0001) T |
| 1143 |
(PID.TID 0000.0001) ; |
| 1144 |
(PID.TID 0000.0001) SEAICEadvScheme = /* advection scheme for ice */ |
| 1145 |
(PID.TID 0000.0001) 77 |
| 1146 |
(PID.TID 0000.0001) ; |
| 1147 |
(PID.TID 0000.0001) SEAICEadvSchArea = /* advection scheme for area */ |
| 1148 |
(PID.TID 0000.0001) 77 |
| 1149 |
(PID.TID 0000.0001) ; |
| 1150 |
(PID.TID 0000.0001) SEAICEadvSchHeff = /* advection scheme for thickness */ |
| 1151 |
(PID.TID 0000.0001) 77 |
| 1152 |
(PID.TID 0000.0001) ; |
| 1153 |
(PID.TID 0000.0001) SEAICEadvSchSnow = /* advection scheme for snow */ |
| 1154 |
(PID.TID 0000.0001) 77 |
| 1155 |
(PID.TID 0000.0001) ; |
| 1156 |
(PID.TID 0000.0001) SEAICEdiffKhArea = /* diffusivity (m^2/s) for area */ |
| 1157 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1158 |
(PID.TID 0000.0001) ; |
| 1159 |
(PID.TID 0000.0001) SEAICEdiffKhHeff = /* diffusivity (m^2/s) for heff */ |
| 1160 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1161 |
(PID.TID 0000.0001) ; |
| 1162 |
(PID.TID 0000.0001) SEAICEdiffKhSnow = /* diffusivity (m^2/s) for snow */ |
| 1163 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1164 |
(PID.TID 0000.0001) ; |
| 1165 |
(PID.TID 0000.0001) DIFF1 = /* parameter used in advect.F [m/s] */ |
| 1166 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1167 |
(PID.TID 0000.0001) ; |
| 1168 |
(PID.TID 0000.0001) |
| 1169 |
(PID.TID 0000.0001) Seaice thermodynamics configuration > START < |
| 1170 |
(PID.TID 0000.0001) ----------------------------------------------- |
| 1171 |
(PID.TID 0000.0001) SEAICE_rhoIce = /* density of sea ice (kg/m3) */ |
| 1172 |
(PID.TID 0000.0001) 9.100000000000000E+02 |
| 1173 |
(PID.TID 0000.0001) ; |
| 1174 |
(PID.TID 0000.0001) SEAICE_rhoSnow = /* density of snow (kg/m3) */ |
| 1175 |
(PID.TID 0000.0001) 3.300000000000000E+02 |
| 1176 |
(PID.TID 0000.0001) ; |
| 1177 |
(PID.TID 0000.0001) SEAICE_rhoAir = /* density of air (kg/m3) */ |
| 1178 |
(PID.TID 0000.0001) 1.200000000000000E+00 |
| 1179 |
(PID.TID 0000.0001) ; |
| 1180 |
(PID.TID 0000.0001) usePW79thermodynamics = /* default 0-layer TD */ |
| 1181 |
(PID.TID 0000.0001) F |
| 1182 |
(PID.TID 0000.0001) ; |
| 1183 |
(PID.TID 0000.0001) pkg/seaice thermodynamics is OFF |
| 1184 |
(PID.TID 0000.0001) |
| 1185 |
(PID.TID 0000.0001) Seaice initialization and IO config., > START < |
| 1186 |
(PID.TID 0000.0001) ------------------------------------------------- |
| 1187 |
(PID.TID 0000.0001) SEAICE_initialHEFF= /* initial sea-ice thickness */ |
| 1188 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1189 |
(PID.TID 0000.0001) ; |
| 1190 |
(PID.TID 0000.0001) AreaFile = /* Initial ice concentration File */ |
| 1191 |
(PID.TID 0000.0001) 'const100.bin' |
| 1192 |
(PID.TID 0000.0001) ; |
| 1193 |
(PID.TID 0000.0001) HeffFile = /* Initial effective ice thickness File */ |
| 1194 |
(PID.TID 0000.0001) 'const+20.bin' |
| 1195 |
(PID.TID 0000.0001) ; |
| 1196 |
(PID.TID 0000.0001) HsnowFile = /* Initial snow thickness File */ |
| 1197 |
(PID.TID 0000.0001) 'const_00.bin' |
| 1198 |
(PID.TID 0000.0001) ; |
| 1199 |
(PID.TID 0000.0001) uIceFile = /* Initial U-ice velocity File */ |
| 1200 |
(PID.TID 0000.0001) '' |
| 1201 |
(PID.TID 0000.0001) ; |
| 1202 |
(PID.TID 0000.0001) vIceFile = /* Initial V-ice velocity File */ |
| 1203 |
(PID.TID 0000.0001) '' |
| 1204 |
(PID.TID 0000.0001) ; |
| 1205 |
(PID.TID 0000.0001) SEAICEwriteState = /* write sea ice state to file */ |
| 1206 |
(PID.TID 0000.0001) T |
| 1207 |
(PID.TID 0000.0001) ; |
| 1208 |
(PID.TID 0000.0001) SEAICE_monFreq = /* monitor frequency */ |
| 1209 |
(PID.TID 0000.0001) 1.800000000000000E+03 |
| 1210 |
(PID.TID 0000.0001) ; |
| 1211 |
(PID.TID 0000.0001) SEAICE_dumpFreq = /* dump frequency */ |
| 1212 |
(PID.TID 0000.0001) 4.320000000000000E+05 |
| 1213 |
(PID.TID 0000.0001) ; |
| 1214 |
(PID.TID 0000.0001) SEAICE_taveFreq = /* time-averaging frequency */ |
| 1215 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1216 |
(PID.TID 0000.0001) ; |
| 1217 |
(PID.TID 0000.0001) SEAICE_mon_stdio = /* write monitor to std-outp */ |
| 1218 |
(PID.TID 0000.0001) T |
| 1219 |
(PID.TID 0000.0001) ; |
| 1220 |
(PID.TID 0000.0001) SEAICE_dump_mdsio = /* write snap-shot using MDSIO */ |
| 1221 |
(PID.TID 0000.0001) T |
| 1222 |
(PID.TID 0000.0001) ; |
| 1223 |
(PID.TID 0000.0001) SEAICE_tave_mdsio = /* write TimeAverage using MDSIO */ |
| 1224 |
(PID.TID 0000.0001) T |
| 1225 |
(PID.TID 0000.0001) ; |
| 1226 |
(PID.TID 0000.0001) |
| 1227 |
(PID.TID 0000.0001) Seaice regularization numbers, > START < |
| 1228 |
(PID.TID 0000.0001) ----------------------------------------------- |
| 1229 |
(PID.TID 0000.0001) SEAICE_EPS = /* reduce derivative singularities */ |
| 1230 |
(PID.TID 0000.0001) 1.000000000000000E-10 |
| 1231 |
(PID.TID 0000.0001) ; |
| 1232 |
(PID.TID 0000.0001) SEAICE_EPS_SQ = /* reduce derivative singularities */ |
| 1233 |
(PID.TID 0000.0001) 1.000000000000000E-20 |
| 1234 |
(PID.TID 0000.0001) ; |
| 1235 |
(PID.TID 0000.0001) SEAICE_area_reg = /* reduce derivative singularities */ |
| 1236 |
(PID.TID 0000.0001) 1.000000000000000E-05 |
| 1237 |
(PID.TID 0000.0001) ; |
| 1238 |
(PID.TID 0000.0001) SEAICE_hice_reg = /* reduce derivative singularities */ |
| 1239 |
(PID.TID 0000.0001) 5.000000000000000E-02 |
| 1240 |
(PID.TID 0000.0001) ; |
| 1241 |
(PID.TID 0000.0001) SEAICE_area_floor = /* reduce derivative singularities */ |
| 1242 |
(PID.TID 0000.0001) 1.000000000000000E-05 |
| 1243 |
(PID.TID 0000.0001) ; |
| 1244 |
(PID.TID 0000.0001) |
| 1245 |
(PID.TID 0000.0001) // ======================================================= |
| 1246 |
(PID.TID 0000.0001) // Seaice configuration (SEAICE_PARM01) >>> END <<< |
| 1247 |
(PID.TID 0000.0001) // ======================================================= |
| 1248 |
(PID.TID 0000.0001) |
| 1249 |
(PID.TID 0000.0001) ------------------------------------------------------------ |
| 1250 |
(PID.TID 0000.0001) DIAGNOSTICS_SET_LEVELS: done |
| 1251 |
(PID.TID 0000.0001) Total Nb of available Diagnostics: ndiagt= 212 |
| 1252 |
(PID.TID 0000.0001) write list of available Diagnostics to file: available_diagnostics.log |
| 1253 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 x 1 Levels for Diagnostic # 153 SIuice |
| 1254 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 x 1 Levels for Diagnostic # 154 SIvice |
| 1255 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 x 1 Levels for Diagnostic # 147 SIheff |
| 1256 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 x 1 Levels for Diagnostic # 144 SIarea |
| 1257 |
(PID.TID 0000.0001) space allocated for all diagnostics: 4 levels |
| 1258 |
(PID.TID 0000.0001) set mate pointer for diag # 153 SIuice , Parms: UU M1 , mate: 154 |
| 1259 |
(PID.TID 0000.0001) set mate pointer for diag # 154 SIvice , Parms: VV M1 , mate: 153 |
| 1260 |
(PID.TID 0000.0001) DIAGNOSTICS_SET_POINTERS: Set levels for Outp.Stream: snapshot |
| 1261 |
(PID.TID 0000.0001) Levels: 1. |
| 1262 |
(PID.TID 0000.0001) DIAGNOSTICS_SET_POINTERS: done |
| 1263 |
(PID.TID 0000.0001) ------------------------------------------------------------ |
| 1264 |
(PID.TID 0000.0001) DIAGSTATS_SET_REGIONS: define no region |
| 1265 |
(PID.TID 0000.0001) ------------------------------------------------------------ |
| 1266 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 144 SIarea |
| 1267 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 147 SIheff |
| 1268 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 149 SIhsnow |
| 1269 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 153 SIuice |
| 1270 |
(PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 154 SIvice |
| 1271 |
(PID.TID 0000.0001) space allocated for all stats-diags: 5 levels |
| 1272 |
(PID.TID 0000.0001) DIAGSTATS_SET_POINTERS: done |
| 1273 |
(PID.TID 0000.0001) ------------------------------------------------------------ |
| 1274 |
(PID.TID 0000.0001) DIAGSTATS_INI_IO: open file: iceStDiag.0000000000.txt , unit= 9 |
| 1275 |
(PID.TID 0000.0001) %MON fCori_max = 0.0000000000000E+00 |
| 1276 |
(PID.TID 0000.0001) %MON fCori_min = 0.0000000000000E+00 |
| 1277 |
(PID.TID 0000.0001) %MON fCori_mean = 0.0000000000000E+00 |
| 1278 |
(PID.TID 0000.0001) %MON fCori_sd = 0.0000000000000E+00 |
| 1279 |
(PID.TID 0000.0001) %MON fCoriG_max = 0.0000000000000E+00 |
| 1280 |
(PID.TID 0000.0001) %MON fCoriG_min = 0.0000000000000E+00 |
| 1281 |
(PID.TID 0000.0001) %MON fCoriG_mean = 0.0000000000000E+00 |
| 1282 |
(PID.TID 0000.0001) %MON fCoriG_sd = 0.0000000000000E+00 |
| 1283 |
(PID.TID 0000.0001) %MON fCoriCos_max = 0.0000000000000E+00 |
| 1284 |
(PID.TID 0000.0001) %MON fCoriCos_min = 0.0000000000000E+00 |
| 1285 |
(PID.TID 0000.0001) %MON fCoriCos_mean = 0.0000000000000E+00 |
| 1286 |
(PID.TID 0000.0001) %MON fCoriCos_sd = 0.0000000000000E+00 |
| 1287 |
(PID.TID 0000.0001) INI_CG2D: CG2D normalisation factor = 1.0000000000000001E-01 |
| 1288 |
(PID.TID 0000.0001) |
| 1289 |
(PID.TID 0000.0001) // ======================================================= |
| 1290 |
(PID.TID 0000.0001) // Model configuration |
| 1291 |
(PID.TID 0000.0001) // ======================================================= |
| 1292 |
(PID.TID 0000.0001) // |
| 1293 |
(PID.TID 0000.0001) // "Physical" paramters ( PARM01 in namelist ) |
| 1294 |
(PID.TID 0000.0001) // |
| 1295 |
(PID.TID 0000.0001) buoyancyRelation = /* Type of relation to get Buoyancy */ |
| 1296 |
(PID.TID 0000.0001) 'OCEANIC' |
| 1297 |
(PID.TID 0000.0001) ; |
| 1298 |
(PID.TID 0000.0001) fluidIsAir = /* fluid major constituent is Air */ |
| 1299 |
(PID.TID 0000.0001) F |
| 1300 |
(PID.TID 0000.0001) ; |
| 1301 |
(PID.TID 0000.0001) fluidIsWater = /* fluid major constituent is Water */ |
| 1302 |
(PID.TID 0000.0001) T |
| 1303 |
(PID.TID 0000.0001) ; |
| 1304 |
(PID.TID 0000.0001) usingPCoords = /* use p (or p*) vertical coordinate */ |
| 1305 |
(PID.TID 0000.0001) F |
| 1306 |
(PID.TID 0000.0001) ; |
| 1307 |
(PID.TID 0000.0001) usingZCoords = /* use z (or z*) vertical coordinate */ |
| 1308 |
(PID.TID 0000.0001) T |
| 1309 |
(PID.TID 0000.0001) ; |
| 1310 |
(PID.TID 0000.0001) tRef = /* Reference temperature profile ( oC or K ) */ |
| 1311 |
(PID.TID 0000.0001) -1.620000000000000E+00 /* K = 1 */ |
| 1312 |
(PID.TID 0000.0001) ; |
| 1313 |
(PID.TID 0000.0001) sRef = /* Reference salinity profile ( psu ) */ |
| 1314 |
(PID.TID 0000.0001) 3.000000000000000E+01 /* K = 1 */ |
| 1315 |
(PID.TID 0000.0001) ; |
| 1316 |
(PID.TID 0000.0001) useStrainTensionVisc= /* Use StrainTension Form of Viscous Operator */ |
| 1317 |
(PID.TID 0000.0001) F |
| 1318 |
(PID.TID 0000.0001) ; |
| 1319 |
(PID.TID 0000.0001) useVariableVisc = /* Use variable horizontal viscosity */ |
| 1320 |
(PID.TID 0000.0001) F |
| 1321 |
(PID.TID 0000.0001) ; |
| 1322 |
(PID.TID 0000.0001) useHarmonicVisc = /* Use harmonic horizontal viscosity */ |
| 1323 |
(PID.TID 0000.0001) F |
| 1324 |
(PID.TID 0000.0001) ; |
| 1325 |
(PID.TID 0000.0001) useBiharmonicVisc= /* Use biharmonic horiz. viscosity */ |
| 1326 |
(PID.TID 0000.0001) F |
| 1327 |
(PID.TID 0000.0001) ; |
| 1328 |
(PID.TID 0000.0001) useSmag3D = /* Use isotropic 3-D Smagorinsky viscosity */ |
| 1329 |
(PID.TID 0000.0001) F |
| 1330 |
(PID.TID 0000.0001) ; |
| 1331 |
(PID.TID 0000.0001) viscAh = /* Lateral harmonic viscosity ( m^2/s ) */ |
| 1332 |
(PID.TID 0000.0001) 3.000000000000000E+02 |
| 1333 |
(PID.TID 0000.0001) ; |
| 1334 |
(PID.TID 0000.0001) viscA4 = /* Lateral biharmonic viscosity ( m^4/s ) */ |
| 1335 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1336 |
(PID.TID 0000.0001) ; |
| 1337 |
(PID.TID 0000.0001) no_slip_sides = /* Viscous BCs: No-slip sides */ |
| 1338 |
(PID.TID 0000.0001) F |
| 1339 |
(PID.TID 0000.0001) ; |
| 1340 |
(PID.TID 0000.0001) sideDragFactor = /* side-drag scaling factor (non-dim) */ |
| 1341 |
(PID.TID 0000.0001) 2.000000000000000E+00 |
| 1342 |
(PID.TID 0000.0001) ; |
| 1343 |
(PID.TID 0000.0001) viscArNr = /* vertical profile of vertical viscosity ( m^2/s )*/ |
| 1344 |
(PID.TID 0000.0001) 3.000000000000000E-02 /* K = 1 */ |
| 1345 |
(PID.TID 0000.0001) ; |
| 1346 |
(PID.TID 0000.0001) no_slip_bottom = /* Viscous BCs: No-slip bottom */ |
| 1347 |
(PID.TID 0000.0001) T |
| 1348 |
(PID.TID 0000.0001) ; |
| 1349 |
(PID.TID 0000.0001) bottomVisc_pCell = /* Partial-cell in bottom Visc. BC */ |
| 1350 |
(PID.TID 0000.0001) F |
| 1351 |
(PID.TID 0000.0001) ; |
| 1352 |
(PID.TID 0000.0001) bottomDragLinear = /* linear bottom-drag coefficient ( m/s ) */ |
| 1353 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1354 |
(PID.TID 0000.0001) ; |
| 1355 |
(PID.TID 0000.0001) bottomDragQuadratic = /* quadratic bottom-drag coefficient (-) */ |
| 1356 |
(PID.TID 0000.0001) 5.000000000000000E-03 |
| 1357 |
(PID.TID 0000.0001) ; |
| 1358 |
(PID.TID 0000.0001) selectBotDragQuadr = /* select quadratic bottom drag options */ |
| 1359 |
(PID.TID 0000.0001) -1 |
| 1360 |
(PID.TID 0000.0001) ; |
| 1361 |
(PID.TID 0000.0001) diffKhT = /* Laplacian diffusion of heat laterally ( m^2/s ) */ |
| 1362 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1363 |
(PID.TID 0000.0001) ; |
| 1364 |
(PID.TID 0000.0001) diffK4T = /* Biharmonic diffusion of heat laterally ( m^4/s ) */ |
| 1365 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1366 |
(PID.TID 0000.0001) ; |
| 1367 |
(PID.TID 0000.0001) diffKhS = /* Laplacian diffusion of salt laterally ( m^2/s ) */ |
| 1368 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1369 |
(PID.TID 0000.0001) ; |
| 1370 |
(PID.TID 0000.0001) diffK4S = /* Biharmonic diffusion of salt laterally ( m^4/s ) */ |
| 1371 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1372 |
(PID.TID 0000.0001) ; |
| 1373 |
(PID.TID 0000.0001) diffKrNrT = /* vertical profile of vertical diffusion of Temp ( m^2/s )*/ |
| 1374 |
(PID.TID 0000.0001) 0.000000000000000E+00 /* K = 1 */ |
| 1375 |
(PID.TID 0000.0001) ; |
| 1376 |
(PID.TID 0000.0001) diffKrNrS = /* vertical profile of vertical diffusion of Salt ( m^2/s )*/ |
| 1377 |
(PID.TID 0000.0001) 0.000000000000000E+00 /* K = 1 */ |
| 1378 |
(PID.TID 0000.0001) ; |
| 1379 |
(PID.TID 0000.0001) diffKrBL79surf = /* Surface diffusion for Bryan and Lewis 79 ( m^2/s ) */ |
| 1380 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1381 |
(PID.TID 0000.0001) ; |
| 1382 |
(PID.TID 0000.0001) diffKrBL79deep = /* Deep diffusion for Bryan and Lewis 1979 ( m^2/s ) */ |
| 1383 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1384 |
(PID.TID 0000.0001) ; |
| 1385 |
(PID.TID 0000.0001) diffKrBL79scl = /* Depth scale for Bryan and Lewis 1979 ( m ) */ |
| 1386 |
(PID.TID 0000.0001) 2.000000000000000E+02 |
| 1387 |
(PID.TID 0000.0001) ; |
| 1388 |
(PID.TID 0000.0001) diffKrBL79Ho = /* Turning depth for Bryan and Lewis 1979 ( m ) */ |
| 1389 |
(PID.TID 0000.0001) -2.000000000000000E+03 |
| 1390 |
(PID.TID 0000.0001) ; |
| 1391 |
(PID.TID 0000.0001) ivdc_kappa = /* Implicit Vertical Diffusivity for Convection ( m^2/s) */ |
| 1392 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1393 |
(PID.TID 0000.0001) ; |
| 1394 |
(PID.TID 0000.0001) hMixCriteria= /* Criteria for mixed-layer diagnostic */ |
| 1395 |
(PID.TID 0000.0001) -8.000000000000000E-01 |
| 1396 |
(PID.TID 0000.0001) ; |
| 1397 |
(PID.TID 0000.0001) dRhoSmall = /* Parameter for mixed-layer diagnostic */ |
| 1398 |
(PID.TID 0000.0001) 1.000000000000000E-06 |
| 1399 |
(PID.TID 0000.0001) ; |
| 1400 |
(PID.TID 0000.0001) hMixSmooth= /* Smoothing parameter for mixed-layer diagnostic */ |
| 1401 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1402 |
(PID.TID 0000.0001) ; |
| 1403 |
(PID.TID 0000.0001) eosType = /* Type of Equation of State */ |
| 1404 |
(PID.TID 0000.0001) 'LINEAR' |
| 1405 |
(PID.TID 0000.0001) ; |
| 1406 |
(PID.TID 0000.0001) tAlpha = /* Linear EOS thermal expansion coefficient ( 1/oC ) */ |
| 1407 |
(PID.TID 0000.0001) 2.000000000000000E-04 |
| 1408 |
(PID.TID 0000.0001) ; |
| 1409 |
(PID.TID 0000.0001) sBeta = /* Linear EOS haline contraction coefficient ( 1/psu ) */ |
| 1410 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1411 |
(PID.TID 0000.0001) ; |
| 1412 |
(PID.TID 0000.0001) rhoNil = /* Reference density for Linear EOS ( kg/m^3 ) */ |
| 1413 |
(PID.TID 0000.0001) 1.030000000000000E+03 |
| 1414 |
(PID.TID 0000.0001) ; |
| 1415 |
(PID.TID 0000.0001) HeatCapacity_Cp = /* Specific heat capacity ( J/kg/K ) */ |
| 1416 |
(PID.TID 0000.0001) 3.986000000000000E+03 |
| 1417 |
(PID.TID 0000.0001) ; |
| 1418 |
(PID.TID 0000.0001) celsius2K = /* 0 degree Celsius converted to Kelvin ( K ) */ |
| 1419 |
(PID.TID 0000.0001) 2.731500000000000E+02 |
| 1420 |
(PID.TID 0000.0001) ; |
| 1421 |
(PID.TID 0000.0001) rhoConst = /* Reference density (Boussinesq) ( kg/m^3 ) */ |
| 1422 |
(PID.TID 0000.0001) 1.030000000000000E+03 |
| 1423 |
(PID.TID 0000.0001) ; |
| 1424 |
(PID.TID 0000.0001) rhoFacC = /* normalized Reference density @ cell-Center (-) */ |
| 1425 |
(PID.TID 0000.0001) 1.000000000000000E+00 /* K = 1 */ |
| 1426 |
(PID.TID 0000.0001) ; |
| 1427 |
(PID.TID 0000.0001) rhoFacF = /* normalized Reference density @ W-Interface (-) */ |
| 1428 |
(PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */ |
| 1429 |
(PID.TID 0000.0001) ; |
| 1430 |
(PID.TID 0000.0001) rhoConstFresh = /* Fresh-water reference density ( kg/m^3 ) */ |
| 1431 |
(PID.TID 0000.0001) 1.000000000000000E+03 |
| 1432 |
(PID.TID 0000.0001) ; |
| 1433 |
(PID.TID 0000.0001) gravity = /* Gravitational acceleration ( m/s^2 ) */ |
| 1434 |
(PID.TID 0000.0001) 9.810000000000000E+00 |
| 1435 |
(PID.TID 0000.0001) ; |
| 1436 |
(PID.TID 0000.0001) gBaro = /* Barotropic gravity ( m/s^2 ) */ |
| 1437 |
(PID.TID 0000.0001) 9.810000000000000E+00 |
| 1438 |
(PID.TID 0000.0001) ; |
| 1439 |
(PID.TID 0000.0001) rotationPeriod = /* Rotation Period ( s ) */ |
| 1440 |
(PID.TID 0000.0001) 8.616400000000000E+04 |
| 1441 |
(PID.TID 0000.0001) ; |
| 1442 |
(PID.TID 0000.0001) omega = /* Angular velocity ( rad/s ) */ |
| 1443 |
(PID.TID 0000.0001) 7.292123516990375E-05 |
| 1444 |
(PID.TID 0000.0001) ; |
| 1445 |
(PID.TID 0000.0001) f0 = /* Reference coriolis parameter ( 1/s ) */ |
| 1446 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1447 |
(PID.TID 0000.0001) ; |
| 1448 |
(PID.TID 0000.0001) beta = /* Beta ( 1/(m.s) ) */ |
| 1449 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1450 |
(PID.TID 0000.0001) ; |
| 1451 |
(PID.TID 0000.0001) fPrime = /* Second coriolis parameter ( 1/s ) */ |
| 1452 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1453 |
(PID.TID 0000.0001) ; |
| 1454 |
(PID.TID 0000.0001) rigidLid = /* Rigid lid on/off flag */ |
| 1455 |
(PID.TID 0000.0001) F |
| 1456 |
(PID.TID 0000.0001) ; |
| 1457 |
(PID.TID 0000.0001) implicitFreeSurface = /* Implicit free surface on/off flag */ |
| 1458 |
(PID.TID 0000.0001) T |
| 1459 |
(PID.TID 0000.0001) ; |
| 1460 |
(PID.TID 0000.0001) freeSurfFac = /* Implicit free surface factor */ |
| 1461 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1462 |
(PID.TID 0000.0001) ; |
| 1463 |
(PID.TID 0000.0001) implicSurfPress = /* Surface Pressure implicit factor (0-1)*/ |
| 1464 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1465 |
(PID.TID 0000.0001) ; |
| 1466 |
(PID.TID 0000.0001) implicDiv2Dflow = /* Barot. Flow Div. implicit factor (0-1)*/ |
| 1467 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1468 |
(PID.TID 0000.0001) ; |
| 1469 |
(PID.TID 0000.0001) uniformLin_PhiSurf = /* use uniform Bo_surf on/off flag*/ |
| 1470 |
(PID.TID 0000.0001) T |
| 1471 |
(PID.TID 0000.0001) ; |
| 1472 |
(PID.TID 0000.0001) uniformFreeSurfLev = /* free-surface level-index is uniform */ |
| 1473 |
(PID.TID 0000.0001) T |
| 1474 |
(PID.TID 0000.0001) ; |
| 1475 |
(PID.TID 0000.0001) hFacMin = /* minimum partial cell factor (hFac) */ |
| 1476 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1477 |
(PID.TID 0000.0001) ; |
| 1478 |
(PID.TID 0000.0001) hFacMinDr = /* minimum partial cell thickness ( m) */ |
| 1479 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1480 |
(PID.TID 0000.0001) ; |
| 1481 |
(PID.TID 0000.0001) exactConserv = /* Exact Volume Conservation on/off flag*/ |
| 1482 |
(PID.TID 0000.0001) F |
| 1483 |
(PID.TID 0000.0001) ; |
| 1484 |
(PID.TID 0000.0001) linFSConserveTr = /* Tracer correction for Lin Free Surface on/off flag*/ |
| 1485 |
(PID.TID 0000.0001) F |
| 1486 |
(PID.TID 0000.0001) ; |
| 1487 |
(PID.TID 0000.0001) nonlinFreeSurf = /* Non-linear Free Surf. options (-1,0,1,2,3)*/ |
| 1488 |
(PID.TID 0000.0001) 0 |
| 1489 |
(PID.TID 0000.0001) -1,0= Off ; 1,2,3= On, 2=+rescale gU,gV, 3=+update cg2d solv. |
| 1490 |
(PID.TID 0000.0001) ; |
| 1491 |
(PID.TID 0000.0001) hFacInf = /* lower threshold for hFac (nonlinFreeSurf only)*/ |
| 1492 |
(PID.TID 0000.0001) 2.000000000000000E-01 |
| 1493 |
(PID.TID 0000.0001) ; |
| 1494 |
(PID.TID 0000.0001) hFacSup = /* upper threshold for hFac (nonlinFreeSurf only)*/ |
| 1495 |
(PID.TID 0000.0001) 2.000000000000000E+00 |
| 1496 |
(PID.TID 0000.0001) ; |
| 1497 |
(PID.TID 0000.0001) select_rStar = /* r* Vertical coord. options (=0 r coord.; >0 uses r*)*/ |
| 1498 |
(PID.TID 0000.0001) 0 |
| 1499 |
(PID.TID 0000.0001) ; |
| 1500 |
(PID.TID 0000.0001) useRealFreshWaterFlux = /* Real Fresh Water Flux on/off flag*/ |
| 1501 |
(PID.TID 0000.0001) F |
| 1502 |
(PID.TID 0000.0001) ; |
| 1503 |
(PID.TID 0000.0001) temp_EvPrRn = /* Temp. of Evap/Prec/R (UNSET=use local T)(oC)*/ |
| 1504 |
(PID.TID 0000.0001) 1.234567000000000E+05 |
| 1505 |
(PID.TID 0000.0001) ; |
| 1506 |
(PID.TID 0000.0001) salt_EvPrRn = /* Salin. of Evap/Prec/R (UNSET=use local S)(psu)*/ |
| 1507 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1508 |
(PID.TID 0000.0001) ; |
| 1509 |
(PID.TID 0000.0001) selectAddFluid = /* option for mass source/sink of fluid (=0: off) */ |
| 1510 |
(PID.TID 0000.0001) 0 |
| 1511 |
(PID.TID 0000.0001) ; |
| 1512 |
(PID.TID 0000.0001) temp_addMass = /* Temp. of addMass array (UNSET=use local T)(oC)*/ |
| 1513 |
(PID.TID 0000.0001) 1.234567000000000E+05 |
| 1514 |
(PID.TID 0000.0001) ; |
| 1515 |
(PID.TID 0000.0001) salt_addMass = /* Salin. of addMass array (UNSET=use local S)(psu)*/ |
| 1516 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1517 |
(PID.TID 0000.0001) ; |
| 1518 |
(PID.TID 0000.0001) convertFW2Salt = /* convert F.W. Flux to Salt Flux (-1=use local S)(psu)*/ |
| 1519 |
(PID.TID 0000.0001) -1.000000000000000E+00 |
| 1520 |
(PID.TID 0000.0001) ; |
| 1521 |
(PID.TID 0000.0001) use3Dsolver = /* use 3-D pressure solver on/off flag */ |
| 1522 |
(PID.TID 0000.0001) F |
| 1523 |
(PID.TID 0000.0001) ; |
| 1524 |
(PID.TID 0000.0001) nonHydrostatic = /* Non-Hydrostatic on/off flag */ |
| 1525 |
(PID.TID 0000.0001) F |
| 1526 |
(PID.TID 0000.0001) ; |
| 1527 |
(PID.TID 0000.0001) nh_Am2 = /* Non-Hydrostatic terms scaling factor */ |
| 1528 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1529 |
(PID.TID 0000.0001) ; |
| 1530 |
(PID.TID 0000.0001) implicitNHPress = /* Non-Hyd Pressure implicit factor (0-1)*/ |
| 1531 |
(PID.TID 0000.0001) 1.000000000000000E+00 |
| 1532 |
(PID.TID 0000.0001) ; |
| 1533 |
(PID.TID 0000.0001) selectNHfreeSurf = /* Non-Hyd (free-)Surface option */ |
| 1534 |
(PID.TID 0000.0001) 0 |
| 1535 |
(PID.TID 0000.0001) ; |
| 1536 |
(PID.TID 0000.0001) quasiHydrostatic = /* Quasi-Hydrostatic on/off flag */ |
| 1537 |
(PID.TID 0000.0001) F |
| 1538 |
(PID.TID 0000.0001) ; |
| 1539 |
(PID.TID 0000.0001) calc_wVelocity = /* vertical velocity calculation on/off flag */ |
| 1540 |
(PID.TID 0000.0001) F |
| 1541 |
(PID.TID 0000.0001) ; |
| 1542 |
(PID.TID 0000.0001) momStepping = /* Momentum equation on/off flag */ |
| 1543 |
(PID.TID 0000.0001) F |
| 1544 |
(PID.TID 0000.0001) ; |
| 1545 |
(PID.TID 0000.0001) vectorInvariantMomentum= /* Vector-Invariant Momentum on/off */ |
| 1546 |
(PID.TID 0000.0001) F |
| 1547 |
(PID.TID 0000.0001) ; |
| 1548 |
(PID.TID 0000.0001) momAdvection = /* Momentum advection on/off flag */ |
| 1549 |
(PID.TID 0000.0001) F |
| 1550 |
(PID.TID 0000.0001) ; |
| 1551 |
(PID.TID 0000.0001) momViscosity = /* Momentum viscosity on/off flag */ |
| 1552 |
(PID.TID 0000.0001) F |
| 1553 |
(PID.TID 0000.0001) ; |
| 1554 |
(PID.TID 0000.0001) momImplVertAdv= /* Momentum implicit vert. advection on/off*/ |
| 1555 |
(PID.TID 0000.0001) F |
| 1556 |
(PID.TID 0000.0001) ; |
| 1557 |
(PID.TID 0000.0001) implicitViscosity = /* Implicit viscosity on/off flag */ |
| 1558 |
(PID.TID 0000.0001) F |
| 1559 |
(PID.TID 0000.0001) ; |
| 1560 |
(PID.TID 0000.0001) implBottomFriction= /* Implicit bottom friction on/off flag */ |
| 1561 |
(PID.TID 0000.0001) F |
| 1562 |
(PID.TID 0000.0001) ; |
| 1563 |
(PID.TID 0000.0001) metricTerms = /* metric-Terms on/off flag */ |
| 1564 |
(PID.TID 0000.0001) F |
| 1565 |
(PID.TID 0000.0001) ; |
| 1566 |
(PID.TID 0000.0001) useNHMTerms = /* Non-Hydrostatic Metric-Terms on/off */ |
| 1567 |
(PID.TID 0000.0001) F |
| 1568 |
(PID.TID 0000.0001) ; |
| 1569 |
(PID.TID 0000.0001) selectCoriMap = /* Coriolis Map options (0,1,2,3)*/ |
| 1570 |
(PID.TID 0000.0001) 1 |
| 1571 |
(PID.TID 0000.0001) 0= f-Plane ; 1= Beta-Plane ; 2= Spherical ; 3= read from file |
| 1572 |
(PID.TID 0000.0001) ; |
| 1573 |
(PID.TID 0000.0001) use3dCoriolis = /* 3-D Coriolis on/off flag */ |
| 1574 |
(PID.TID 0000.0001) F |
| 1575 |
(PID.TID 0000.0001) ; |
| 1576 |
(PID.TID 0000.0001) useCoriolis = /* Coriolis on/off flag */ |
| 1577 |
(PID.TID 0000.0001) F |
| 1578 |
(PID.TID 0000.0001) ; |
| 1579 |
(PID.TID 0000.0001) useCDscheme = /* CD scheme on/off flag */ |
| 1580 |
(PID.TID 0000.0001) F |
| 1581 |
(PID.TID 0000.0001) ; |
| 1582 |
(PID.TID 0000.0001) useEnergyConservingCoriolis= /* Flx-Form Coriolis scheme flag */ |
| 1583 |
(PID.TID 0000.0001) F |
| 1584 |
(PID.TID 0000.0001) ; |
| 1585 |
(PID.TID 0000.0001) useJamartWetPoints= /* Coriolis WetPoints method flag */ |
| 1586 |
(PID.TID 0000.0001) T |
| 1587 |
(PID.TID 0000.0001) ; |
| 1588 |
(PID.TID 0000.0001) useJamartMomAdv= /* V.I Non-linear terms Jamart flag */ |
| 1589 |
(PID.TID 0000.0001) F |
| 1590 |
(PID.TID 0000.0001) ; |
| 1591 |
(PID.TID 0000.0001) useAbsVorticity= /* V.I Works with f+zeta in Coriolis */ |
| 1592 |
(PID.TID 0000.0001) F |
| 1593 |
(PID.TID 0000.0001) ; |
| 1594 |
(PID.TID 0000.0001) selectVortScheme= /* V.I Scheme selector for Vorticity-Term */ |
| 1595 |
(PID.TID 0000.0001) 123456789 |
| 1596 |
(PID.TID 0000.0001) = 0 : enstrophy (Shallow-Water Eq.) conserving scheme by Sadourny, JAS 75 |
| 1597 |
(PID.TID 0000.0001) = 1 : same as 0 with modified hFac |
| 1598 |
(PID.TID 0000.0001) = 2 : energy conserving scheme (used by Sadourny in JAS 75 paper) |
| 1599 |
(PID.TID 0000.0001) = 3 : energy (general) and enstrophy (2D, nonDiv.) conserving scheme |
| 1600 |
(PID.TID 0000.0001) from Sadourny (Burridge & Haseler, ECMWF Rep.4, 1977) |
| 1601 |
(PID.TID 0000.0001) ; |
| 1602 |
(PID.TID 0000.0001) upwindVorticity= /* V.I Upwind bias vorticity flag */ |
| 1603 |
(PID.TID 0000.0001) F |
| 1604 |
(PID.TID 0000.0001) ; |
| 1605 |
(PID.TID 0000.0001) highOrderVorticity= /* V.I High order vort. advect. flag */ |
| 1606 |
(PID.TID 0000.0001) F |
| 1607 |
(PID.TID 0000.0001) ; |
| 1608 |
(PID.TID 0000.0001) upwindShear= /* V.I Upwind vertical Shear advection flag */ |
| 1609 |
(PID.TID 0000.0001) F |
| 1610 |
(PID.TID 0000.0001) ; |
| 1611 |
(PID.TID 0000.0001) selectKEscheme= /* V.I Kinetic Energy scheme selector */ |
| 1612 |
(PID.TID 0000.0001) 0 |
| 1613 |
(PID.TID 0000.0001) ; |
| 1614 |
(PID.TID 0000.0001) momForcing = /* Momentum forcing on/off flag */ |
| 1615 |
(PID.TID 0000.0001) F |
| 1616 |
(PID.TID 0000.0001) ; |
| 1617 |
(PID.TID 0000.0001) momPressureForcing = /* Momentum pressure term on/off flag */ |
| 1618 |
(PID.TID 0000.0001) F |
| 1619 |
(PID.TID 0000.0001) ; |
| 1620 |
(PID.TID 0000.0001) implicitIntGravWave= /* Implicit Internal Gravity Wave flag */ |
| 1621 |
(PID.TID 0000.0001) F |
| 1622 |
(PID.TID 0000.0001) ; |
| 1623 |
(PID.TID 0000.0001) staggerTimeStep = /* Stagger time stepping on/off flag */ |
| 1624 |
(PID.TID 0000.0001) T |
| 1625 |
(PID.TID 0000.0001) ; |
| 1626 |
(PID.TID 0000.0001) doResetHFactors = /* reset thickness factors @ each time-step */ |
| 1627 |
(PID.TID 0000.0001) F |
| 1628 |
(PID.TID 0000.0001) ; |
| 1629 |
(PID.TID 0000.0001) multiDimAdvection = /* enable/disable Multi-Dim Advection */ |
| 1630 |
(PID.TID 0000.0001) T |
| 1631 |
(PID.TID 0000.0001) ; |
| 1632 |
(PID.TID 0000.0001) useMultiDimAdvec = /* Multi-Dim Advection is/is-not used */ |
| 1633 |
(PID.TID 0000.0001) F |
| 1634 |
(PID.TID 0000.0001) ; |
| 1635 |
(PID.TID 0000.0001) implicitDiffusion = /* Implicit Diffusion on/off flag */ |
| 1636 |
(PID.TID 0000.0001) F |
| 1637 |
(PID.TID 0000.0001) ; |
| 1638 |
(PID.TID 0000.0001) tempStepping = /* Temperature equation on/off flag */ |
| 1639 |
(PID.TID 0000.0001) F |
| 1640 |
(PID.TID 0000.0001) ; |
| 1641 |
(PID.TID 0000.0001) tempAdvection = /* Temperature advection on/off flag */ |
| 1642 |
(PID.TID 0000.0001) F |
| 1643 |
(PID.TID 0000.0001) ; |
| 1644 |
(PID.TID 0000.0001) tempImplVertAdv = /* Temp. implicit vert. advection on/off */ |
| 1645 |
(PID.TID 0000.0001) F |
| 1646 |
(PID.TID 0000.0001) ; |
| 1647 |
(PID.TID 0000.0001) tempForcing = /* Temperature forcing on/off flag */ |
| 1648 |
(PID.TID 0000.0001) F |
| 1649 |
(PID.TID 0000.0001) ; |
| 1650 |
(PID.TID 0000.0001) doThetaClimRelax = /* apply SST relaxation on/off flag */ |
| 1651 |
(PID.TID 0000.0001) F |
| 1652 |
(PID.TID 0000.0001) ; |
| 1653 |
(PID.TID 0000.0001) tempIsActiveTr = /* Temp. is a dynamically Active Tracer */ |
| 1654 |
(PID.TID 0000.0001) F |
| 1655 |
(PID.TID 0000.0001) ; |
| 1656 |
(PID.TID 0000.0001) saltStepping = /* Salinity equation on/off flag */ |
| 1657 |
(PID.TID 0000.0001) F |
| 1658 |
(PID.TID 0000.0001) ; |
| 1659 |
(PID.TID 0000.0001) saltAdvection = /* Salinity advection on/off flag */ |
| 1660 |
(PID.TID 0000.0001) F |
| 1661 |
(PID.TID 0000.0001) ; |
| 1662 |
(PID.TID 0000.0001) saltImplVertAdv = /* Sali. implicit vert. advection on/off */ |
| 1663 |
(PID.TID 0000.0001) F |
| 1664 |
(PID.TID 0000.0001) ; |
| 1665 |
(PID.TID 0000.0001) saltForcing = /* Salinity forcing on/off flag */ |
| 1666 |
(PID.TID 0000.0001) F |
| 1667 |
(PID.TID 0000.0001) ; |
| 1668 |
(PID.TID 0000.0001) doSaltClimRelax = /* apply SSS relaxation on/off flag */ |
| 1669 |
(PID.TID 0000.0001) F |
| 1670 |
(PID.TID 0000.0001) ; |
| 1671 |
(PID.TID 0000.0001) saltIsActiveTr = /* Salt is a dynamically Active Tracer */ |
| 1672 |
(PID.TID 0000.0001) F |
| 1673 |
(PID.TID 0000.0001) ; |
| 1674 |
(PID.TID 0000.0001) readBinaryPrec = /* Precision used for reading binary files */ |
| 1675 |
(PID.TID 0000.0001) 64 |
| 1676 |
(PID.TID 0000.0001) ; |
| 1677 |
(PID.TID 0000.0001) writeBinaryPrec = /* Precision used for writing binary files */ |
| 1678 |
(PID.TID 0000.0001) 64 |
| 1679 |
(PID.TID 0000.0001) ; |
| 1680 |
(PID.TID 0000.0001) globalFiles = /* write "global" (=not per tile) files */ |
| 1681 |
(PID.TID 0000.0001) F |
| 1682 |
(PID.TID 0000.0001) ; |
| 1683 |
(PID.TID 0000.0001) useSingleCpuIO = /* only master MPI process does I/O */ |
| 1684 |
(PID.TID 0000.0001) T |
| 1685 |
(PID.TID 0000.0001) ; |
| 1686 |
(PID.TID 0000.0001) useSingleCpuInput = /* only master process reads input */ |
| 1687 |
(PID.TID 0000.0001) T |
| 1688 |
(PID.TID 0000.0001) ; |
| 1689 |
(PID.TID 0000.0001) /* debLev[*] : level of debug & auxiliary message printing */ |
| 1690 |
(PID.TID 0000.0001) debLevZero = 0 ; /* level of disabled aux. msg printing */ |
| 1691 |
(PID.TID 0000.0001) debLevA = 1 ; /* level of minimum aux. msg printing */ |
| 1692 |
(PID.TID 0000.0001) debLevB = 2 ; /* level of low aux. print (report read-file opening)*/ |
| 1693 |
(PID.TID 0000.0001) debLevC = 3 ; /* level of moderate debug prt (most pkgs debug msg) */ |
| 1694 |
(PID.TID 0000.0001) debLevD = 4 ; /* level of enhanced debug prt (add DEBUG_STATS prt) */ |
| 1695 |
(PID.TID 0000.0001) debLevE = 5 ; /* level of extensive debug printing */ |
| 1696 |
(PID.TID 0000.0001) debugLevel = /* select debug printing level */ |
| 1697 |
(PID.TID 0000.0001) 2 |
| 1698 |
(PID.TID 0000.0001) ; |
| 1699 |
(PID.TID 0000.0001) // |
| 1700 |
(PID.TID 0000.0001) // Elliptic solver(s) paramters ( PARM02 in namelist ) |
| 1701 |
(PID.TID 0000.0001) // |
| 1702 |
(PID.TID 0000.0001) cg2dMaxIters = /* Upper limit on 2d con. grad iterations */ |
| 1703 |
(PID.TID 0000.0001) 500 |
| 1704 |
(PID.TID 0000.0001) ; |
| 1705 |
(PID.TID 0000.0001) cg2dChkResFreq = /* 2d con. grad convergence test frequency */ |
| 1706 |
(PID.TID 0000.0001) 1 |
| 1707 |
(PID.TID 0000.0001) ; |
| 1708 |
(PID.TID 0000.0001) cg2dUseMinResSol= /* use cg2d last-iter(=0) / min-resid.(=1) solution */ |
| 1709 |
(PID.TID 0000.0001) 0 |
| 1710 |
(PID.TID 0000.0001) ; |
| 1711 |
(PID.TID 0000.0001) cg2dTargetResidual = /* 2d con. grad target residual */ |
| 1712 |
(PID.TID 0000.0001) 1.000000000000000E-12 |
| 1713 |
(PID.TID 0000.0001) ; |
| 1714 |
(PID.TID 0000.0001) cg2dTargetResWunit = /* CG2d target residual [W units] */ |
| 1715 |
(PID.TID 0000.0001) -1.000000000000000E+00 |
| 1716 |
(PID.TID 0000.0001) ; |
| 1717 |
(PID.TID 0000.0001) cg2dPreCondFreq = /* Freq. for updating cg2d preconditioner */ |
| 1718 |
(PID.TID 0000.0001) 1 |
| 1719 |
(PID.TID 0000.0001) ; |
| 1720 |
(PID.TID 0000.0001) useSRCGSolver = /* use single reduction CG solver(s) */ |
| 1721 |
(PID.TID 0000.0001) F |
| 1722 |
(PID.TID 0000.0001) ; |
| 1723 |
(PID.TID 0000.0001) printResidualFreq = /* Freq. for printing CG residual */ |
| 1724 |
(PID.TID 0000.0001) 0 |
| 1725 |
(PID.TID 0000.0001) ; |
| 1726 |
(PID.TID 0000.0001) // |
| 1727 |
(PID.TID 0000.0001) // Time stepping paramters ( PARM03 in namelist ) |
| 1728 |
(PID.TID 0000.0001) // |
| 1729 |
(PID.TID 0000.0001) deltaTMom = /* Momentum equation timestep ( s ) */ |
| 1730 |
(PID.TID 0000.0001) 1.800000000000000E+03 |
| 1731 |
(PID.TID 0000.0001) ; |
| 1732 |
(PID.TID 0000.0001) deltaTFreeSurf = /* FreeSurface equation timestep ( s ) */ |
| 1733 |
(PID.TID 0000.0001) 1.800000000000000E+03 |
| 1734 |
(PID.TID 0000.0001) ; |
| 1735 |
(PID.TID 0000.0001) dTtracerLev = /* Tracer equation timestep ( s ) */ |
| 1736 |
(PID.TID 0000.0001) 1.800000000000000E+03 /* K = 1 */ |
| 1737 |
(PID.TID 0000.0001) ; |
| 1738 |
(PID.TID 0000.0001) deltaTClock = /* Model clock timestep ( s ) */ |
| 1739 |
(PID.TID 0000.0001) 1.800000000000000E+03 |
| 1740 |
(PID.TID 0000.0001) ; |
| 1741 |
(PID.TID 0000.0001) cAdjFreq = /* Convective adjustment interval ( s ) */ |
| 1742 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1743 |
(PID.TID 0000.0001) ; |
| 1744 |
(PID.TID 0000.0001) momForcingOutAB = /* =1: take Momentum Forcing out of Adams-Bash. stepping */ |
| 1745 |
(PID.TID 0000.0001) 1 |
| 1746 |
(PID.TID 0000.0001) ; |
| 1747 |
(PID.TID 0000.0001) tracForcingOutAB = /* =1: take T,S,pTr Forcing out of Adams-Bash. stepping */ |
| 1748 |
(PID.TID 0000.0001) 1 |
| 1749 |
(PID.TID 0000.0001) ; |
| 1750 |
(PID.TID 0000.0001) momDissip_In_AB = /* put Dissipation Tendency in Adams-Bash. stepping */ |
| 1751 |
(PID.TID 0000.0001) T |
| 1752 |
(PID.TID 0000.0001) ; |
| 1753 |
(PID.TID 0000.0001) doAB_onGtGs = /* apply AB on Tendencies (rather than on T,S)*/ |
| 1754 |
(PID.TID 0000.0001) T |
| 1755 |
(PID.TID 0000.0001) ; |
| 1756 |
(PID.TID 0000.0001) abEps = /* Adams-Bashforth-2 stabilizing weight */ |
| 1757 |
(PID.TID 0000.0001) 1.000000000000000E-01 |
| 1758 |
(PID.TID 0000.0001) ; |
| 1759 |
(PID.TID 0000.0001) pickupStrictlyMatch= /* stop if pickup do not strictly match */ |
| 1760 |
(PID.TID 0000.0001) T |
| 1761 |
(PID.TID 0000.0001) ; |
| 1762 |
(PID.TID 0000.0001) nIter0 = /* Run starting timestep number */ |
| 1763 |
(PID.TID 0000.0001) 0 |
| 1764 |
(PID.TID 0000.0001) ; |
| 1765 |
(PID.TID 0000.0001) nTimeSteps = /* Number of timesteps */ |
| 1766 |
(PID.TID 0000.0001) 12 |
| 1767 |
(PID.TID 0000.0001) ; |
| 1768 |
(PID.TID 0000.0001) nEndIter = /* Run ending timestep number */ |
| 1769 |
(PID.TID 0000.0001) 12 |
| 1770 |
(PID.TID 0000.0001) ; |
| 1771 |
(PID.TID 0000.0001) baseTime = /* Model base time ( s ) */ |
| 1772 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1773 |
(PID.TID 0000.0001) ; |
| 1774 |
(PID.TID 0000.0001) startTime = /* Run start time ( s ) */ |
| 1775 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1776 |
(PID.TID 0000.0001) ; |
| 1777 |
(PID.TID 0000.0001) endTime = /* Integration ending time ( s ) */ |
| 1778 |
(PID.TID 0000.0001) 2.160000000000000E+04 |
| 1779 |
(PID.TID 0000.0001) ; |
| 1780 |
(PID.TID 0000.0001) pChkPtFreq = /* Permanent restart/pickup file interval ( s ) */ |
| 1781 |
(PID.TID 0000.0001) 3.600000000000000E+06 |
| 1782 |
(PID.TID 0000.0001) ; |
| 1783 |
(PID.TID 0000.0001) chkPtFreq = /* Rolling restart/pickup file interval ( s ) */ |
| 1784 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1785 |
(PID.TID 0000.0001) ; |
| 1786 |
(PID.TID 0000.0001) pickup_write_mdsio = /* Model IO flag. */ |
| 1787 |
(PID.TID 0000.0001) T |
| 1788 |
(PID.TID 0000.0001) ; |
| 1789 |
(PID.TID 0000.0001) pickup_read_mdsio = /* Model IO flag. */ |
| 1790 |
(PID.TID 0000.0001) T |
| 1791 |
(PID.TID 0000.0001) ; |
| 1792 |
(PID.TID 0000.0001) pickup_write_immed = /* Model IO flag. */ |
| 1793 |
(PID.TID 0000.0001) F |
| 1794 |
(PID.TID 0000.0001) ; |
| 1795 |
(PID.TID 0000.0001) writePickupAtEnd = /* Model IO flag. */ |
| 1796 |
(PID.TID 0000.0001) T |
| 1797 |
(PID.TID 0000.0001) ; |
| 1798 |
(PID.TID 0000.0001) dumpFreq = /* Model state write out interval ( s ). */ |
| 1799 |
(PID.TID 0000.0001) 4.320000000000000E+05 |
| 1800 |
(PID.TID 0000.0001) ; |
| 1801 |
(PID.TID 0000.0001) dumpInitAndLast= /* write out Initial & Last iter. model state */ |
| 1802 |
(PID.TID 0000.0001) T |
| 1803 |
(PID.TID 0000.0001) ; |
| 1804 |
(PID.TID 0000.0001) snapshot_mdsio = /* Model IO flag. */ |
| 1805 |
(PID.TID 0000.0001) T |
| 1806 |
(PID.TID 0000.0001) ; |
| 1807 |
(PID.TID 0000.0001) monitorFreq = /* Monitor output interval ( s ). */ |
| 1808 |
(PID.TID 0000.0001) 8.640000000000000E+05 |
| 1809 |
(PID.TID 0000.0001) ; |
| 1810 |
(PID.TID 0000.0001) monitorSelect = /* select group of variables to monitor */ |
| 1811 |
(PID.TID 0000.0001) 2 |
| 1812 |
(PID.TID 0000.0001) ; |
| 1813 |
(PID.TID 0000.0001) monitor_stdio = /* Model IO flag. */ |
| 1814 |
(PID.TID 0000.0001) T |
| 1815 |
(PID.TID 0000.0001) ; |
| 1816 |
(PID.TID 0000.0001) externForcingPeriod = /* forcing period (s) */ |
| 1817 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1818 |
(PID.TID 0000.0001) ; |
| 1819 |
(PID.TID 0000.0001) externForcingCycle = /* period of the cyle (s). */ |
| 1820 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1821 |
(PID.TID 0000.0001) ; |
| 1822 |
(PID.TID 0000.0001) tauThetaClimRelax = /* relaxation time scale (s) */ |
| 1823 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1824 |
(PID.TID 0000.0001) ; |
| 1825 |
(PID.TID 0000.0001) tauSaltClimRelax = /* relaxation time scale (s) */ |
| 1826 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1827 |
(PID.TID 0000.0001) ; |
| 1828 |
(PID.TID 0000.0001) latBandClimRelax = /* max. Lat. where relaxation */ |
| 1829 |
(PID.TID 0000.0001) 6.300000000000000E+05 |
| 1830 |
(PID.TID 0000.0001) ; |
| 1831 |
(PID.TID 0000.0001) // |
| 1832 |
(PID.TID 0000.0001) // Gridding paramters ( PARM04 in namelist ) |
| 1833 |
(PID.TID 0000.0001) // |
| 1834 |
(PID.TID 0000.0001) usingCartesianGrid = /* Cartesian coordinates flag ( True/False ) */ |
| 1835 |
(PID.TID 0000.0001) T |
| 1836 |
(PID.TID 0000.0001) ; |
| 1837 |
(PID.TID 0000.0001) usingCylindricalGrid = /* Cylindrical coordinates flag ( True/False ) */ |
| 1838 |
(PID.TID 0000.0001) F |
| 1839 |
(PID.TID 0000.0001) ; |
| 1840 |
(PID.TID 0000.0001) usingSphericalPolarGrid = /* Spherical coordinates flag ( True/False ) */ |
| 1841 |
(PID.TID 0000.0001) F |
| 1842 |
(PID.TID 0000.0001) ; |
| 1843 |
(PID.TID 0000.0001) usingCurvilinearGrid = /* Curvilinear coordinates flag ( True/False ) */ |
| 1844 |
(PID.TID 0000.0001) F |
| 1845 |
(PID.TID 0000.0001) ; |
| 1846 |
(PID.TID 0000.0001) selectSigmaCoord = /* Hybrid-Sigma Vert. Coordinate option */ |
| 1847 |
(PID.TID 0000.0001) 0 |
| 1848 |
(PID.TID 0000.0001) ; |
| 1849 |
(PID.TID 0000.0001) Ro_SeaLevel = /* r(1) ( units of r == m ) */ |
| 1850 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1851 |
(PID.TID 0000.0001) ; |
| 1852 |
(PID.TID 0000.0001) rSigmaBnd = /* r/sigma transition ( units of r == m ) */ |
| 1853 |
(PID.TID 0000.0001) 1.234567000000000E+05 |
| 1854 |
(PID.TID 0000.0001) ; |
| 1855 |
(PID.TID 0000.0001) rkSign = /* index orientation relative to vertical coordinate */ |
| 1856 |
(PID.TID 0000.0001) -1.000000000000000E+00 |
| 1857 |
(PID.TID 0000.0001) ; |
| 1858 |
(PID.TID 0000.0001) gravitySign = /* gravity orientation relative to vertical coordinate */ |
| 1859 |
(PID.TID 0000.0001) -1.000000000000000E+00 |
| 1860 |
(PID.TID 0000.0001) ; |
| 1861 |
(PID.TID 0000.0001) mass2rUnit = /* convert mass per unit area [kg/m2] to r-units [m] */ |
| 1862 |
(PID.TID 0000.0001) 9.708737864077669E-04 |
| 1863 |
(PID.TID 0000.0001) ; |
| 1864 |
(PID.TID 0000.0001) rUnit2mass = /* convert r-units [m] to mass per unit area [kg/m2] */ |
| 1865 |
(PID.TID 0000.0001) 1.030000000000000E+03 |
| 1866 |
(PID.TID 0000.0001) ; |
| 1867 |
(PID.TID 0000.0001) drC = /* C spacing ( units of r ) */ |
| 1868 |
(PID.TID 0000.0001) 2 @ 5.000000000000000E+00 /* K = 1: 2 */ |
| 1869 |
(PID.TID 0000.0001) ; |
| 1870 |
(PID.TID 0000.0001) drF = /* W spacing ( units of r ) */ |
| 1871 |
(PID.TID 0000.0001) 1.000000000000000E+01 /* K = 1 */ |
| 1872 |
(PID.TID 0000.0001) ; |
| 1873 |
(PID.TID 0000.0001) delX = /* U spacing ( m - cartesian, degrees - spherical ) */ |
| 1874 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 1875 |
(PID.TID 0000.0001) ; |
| 1876 |
(PID.TID 0000.0001) delY = /* V spacing ( m - cartesian, degrees - spherical ) */ |
| 1877 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 1878 |
(PID.TID 0000.0001) ; |
| 1879 |
(PID.TID 0000.0001) xgOrigin = /* X-axis origin of West edge (cartesian: m, lat-lon: deg) */ |
| 1880 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1881 |
(PID.TID 0000.0001) ; |
| 1882 |
(PID.TID 0000.0001) ygOrigin = /* Y-axis origin of South edge (cartesian: m, lat-lon: deg) */ |
| 1883 |
(PID.TID 0000.0001) -1.100000000000000E+05 |
| 1884 |
(PID.TID 0000.0001) ; |
| 1885 |
(PID.TID 0000.0001) rSphere = /* Radius ( ignored - cartesian, m - spherical ) */ |
| 1886 |
(PID.TID 0000.0001) 6.370000000000000E+06 |
| 1887 |
(PID.TID 0000.0001) ; |
| 1888 |
(PID.TID 0000.0001) deepAtmosphere = /* Deep/Shallow Atmosphere flag (True/False) */ |
| 1889 |
(PID.TID 0000.0001) F |
| 1890 |
(PID.TID 0000.0001) ; |
| 1891 |
(PID.TID 0000.0001) xC = /* xC(:,1,:,1) : P-point X coord ( deg. or m if cartesian) */ |
| 1892 |
(PID.TID 0000.0001) 2.500000000000000E+03, /* I = 1 */ |
| 1893 |
(PID.TID 0000.0001) 7.500000000000000E+03, /* I = 2 */ |
| 1894 |
(PID.TID 0000.0001) 1.250000000000000E+04, /* I = 3 */ |
| 1895 |
(PID.TID 0000.0001) . . . |
| 1896 |
(PID.TID 0000.0001) 8.750000000000000E+04, /* I = 18 */ |
| 1897 |
(PID.TID 0000.0001) 9.250000000000000E+04, /* I = 19 */ |
| 1898 |
(PID.TID 0000.0001) 9.750000000000000E+04, /* I = 20 */ |
| 1899 |
(PID.TID 0000.0001) 1.025000000000000E+05, /* I = 21 */ |
| 1900 |
(PID.TID 0000.0001) 1.075000000000000E+05, /* I = 22 */ |
| 1901 |
(PID.TID 0000.0001) 1.125000000000000E+05, /* I = 23 */ |
| 1902 |
(PID.TID 0000.0001) . . . |
| 1903 |
(PID.TID 0000.0001) 1.875000000000000E+05, /* I = 38 */ |
| 1904 |
(PID.TID 0000.0001) 1.925000000000000E+05, /* I = 39 */ |
| 1905 |
(PID.TID 0000.0001) 1.975000000000000E+05, /* I = 40 */ |
| 1906 |
(PID.TID 0000.0001) 2.025000000000000E+05, /* I = 41 */ |
| 1907 |
(PID.TID 0000.0001) 2.075000000000000E+05, /* I = 42 */ |
| 1908 |
(PID.TID 0000.0001) 2.125000000000000E+05, /* I = 43 */ |
| 1909 |
(PID.TID 0000.0001) . . . |
| 1910 |
(PID.TID 0000.0001) 2.875000000000000E+05, /* I = 58 */ |
| 1911 |
(PID.TID 0000.0001) 2.925000000000000E+05, /* I = 59 */ |
| 1912 |
(PID.TID 0000.0001) 2.975000000000000E+05, /* I = 60 */ |
| 1913 |
(PID.TID 0000.0001) 3.025000000000000E+05, /* I = 61 */ |
| 1914 |
(PID.TID 0000.0001) 3.075000000000000E+05, /* I = 62 */ |
| 1915 |
(PID.TID 0000.0001) 3.125000000000000E+05, /* I = 63 */ |
| 1916 |
(PID.TID 0000.0001) . . . |
| 1917 |
(PID.TID 0000.0001) 3.875000000000000E+05, /* I = 78 */ |
| 1918 |
(PID.TID 0000.0001) 3.925000000000000E+05, /* I = 79 */ |
| 1919 |
(PID.TID 0000.0001) 3.975000000000000E+05 /* I = 80 */ |
| 1920 |
(PID.TID 0000.0001) ; |
| 1921 |
(PID.TID 0000.0001) yC = /* yC(1,:,1,:) : P-point Y coord ( deg. or m if cartesian) */ |
| 1922 |
(PID.TID 0000.0001) -1.075000000000000E+05, /* J = 1 */ |
| 1923 |
(PID.TID 0000.0001) -1.025000000000000E+05, /* J = 2 */ |
| 1924 |
(PID.TID 0000.0001) -9.750000000000000E+04, /* J = 3 */ |
| 1925 |
(PID.TID 0000.0001) -9.250000000000000E+04, /* J = 4 */ |
| 1926 |
(PID.TID 0000.0001) -8.750000000000000E+04, /* J = 5 */ |
| 1927 |
(PID.TID 0000.0001) -8.250000000000000E+04, /* J = 6 */ |
| 1928 |
(PID.TID 0000.0001) -7.750000000000000E+04, /* J = 7 */ |
| 1929 |
(PID.TID 0000.0001) -7.250000000000000E+04, /* J = 8 */ |
| 1930 |
(PID.TID 0000.0001) -6.750000000000000E+04, /* J = 9 */ |
| 1931 |
(PID.TID 0000.0001) -6.250000000000000E+04, /* J = 10 */ |
| 1932 |
(PID.TID 0000.0001) -5.750000000000000E+04, /* J = 11 */ |
| 1933 |
(PID.TID 0000.0001) -5.250000000000000E+04, /* J = 12 */ |
| 1934 |
(PID.TID 0000.0001) -4.750000000000000E+04, /* J = 13 */ |
| 1935 |
(PID.TID 0000.0001) -4.250000000000000E+04, /* J = 14 */ |
| 1936 |
(PID.TID 0000.0001) -3.750000000000000E+04, /* J = 15 */ |
| 1937 |
(PID.TID 0000.0001) -3.250000000000000E+04, /* J = 16 */ |
| 1938 |
(PID.TID 0000.0001) -2.750000000000000E+04, /* J = 17 */ |
| 1939 |
(PID.TID 0000.0001) -2.250000000000000E+04, /* J = 18 */ |
| 1940 |
(PID.TID 0000.0001) -1.750000000000000E+04, /* J = 19 */ |
| 1941 |
(PID.TID 0000.0001) -1.250000000000000E+04, /* J = 20 */ |
| 1942 |
(PID.TID 0000.0001) -7.500000000000000E+03, /* J = 21 */ |
| 1943 |
(PID.TID 0000.0001) -2.500000000000000E+03, /* J = 22 */ |
| 1944 |
(PID.TID 0000.0001) 2.500000000000000E+03, /* J = 23 */ |
| 1945 |
(PID.TID 0000.0001) 7.500000000000000E+03, /* J = 24 */ |
| 1946 |
(PID.TID 0000.0001) 1.250000000000000E+04, /* J = 25 */ |
| 1947 |
(PID.TID 0000.0001) 1.750000000000000E+04, /* J = 26 */ |
| 1948 |
(PID.TID 0000.0001) 2.250000000000000E+04, /* J = 27 */ |
| 1949 |
(PID.TID 0000.0001) 2.750000000000000E+04, /* J = 28 */ |
| 1950 |
(PID.TID 0000.0001) 3.250000000000000E+04, /* J = 29 */ |
| 1951 |
(PID.TID 0000.0001) 3.750000000000000E+04, /* J = 30 */ |
| 1952 |
(PID.TID 0000.0001) 4.250000000000000E+04, /* J = 31 */ |
| 1953 |
(PID.TID 0000.0001) 4.750000000000000E+04, /* J = 32 */ |
| 1954 |
(PID.TID 0000.0001) 5.250000000000000E+04, /* J = 33 */ |
| 1955 |
(PID.TID 0000.0001) 5.750000000000000E+04, /* J = 34 */ |
| 1956 |
(PID.TID 0000.0001) 6.250000000000000E+04, /* J = 35 */ |
| 1957 |
(PID.TID 0000.0001) 6.750000000000000E+04, /* J = 36 */ |
| 1958 |
(PID.TID 0000.0001) 7.250000000000000E+04, /* J = 37 */ |
| 1959 |
(PID.TID 0000.0001) 7.750000000000000E+04, /* J = 38 */ |
| 1960 |
(PID.TID 0000.0001) 8.250000000000000E+04, /* J = 39 */ |
| 1961 |
(PID.TID 0000.0001) 8.750000000000000E+04, /* J = 40 */ |
| 1962 |
(PID.TID 0000.0001) 9.250000000000000E+04, /* J = 41 */ |
| 1963 |
(PID.TID 0000.0001) 9.750000000000000E+04 /* J = 42 */ |
| 1964 |
(PID.TID 0000.0001) ; |
| 1965 |
(PID.TID 0000.0001) rcoord = /* P-point R coordinate ( units of r ) */ |
| 1966 |
(PID.TID 0000.0001) -5.000000000000000E+00 /* K = 1 */ |
| 1967 |
(PID.TID 0000.0001) ; |
| 1968 |
(PID.TID 0000.0001) rF = /* W-Interf. R coordinate ( units of r ) */ |
| 1969 |
(PID.TID 0000.0001) 0.000000000000000E+00, /* K = 1 */ |
| 1970 |
(PID.TID 0000.0001) -1.000000000000000E+01 /* K = 2 */ |
| 1971 |
(PID.TID 0000.0001) ; |
| 1972 |
(PID.TID 0000.0001) deepFacC = /* deep-model grid factor @ cell-Center (-) */ |
| 1973 |
(PID.TID 0000.0001) 1.000000000000000E+00 /* K = 1 */ |
| 1974 |
(PID.TID 0000.0001) ; |
| 1975 |
(PID.TID 0000.0001) deepFacF = /* deep-model grid factor @ W-Interface (-) */ |
| 1976 |
(PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */ |
| 1977 |
(PID.TID 0000.0001) ; |
| 1978 |
(PID.TID 0000.0001) rVel2wUnit = /* convert units: rVel -> wSpeed (=1 if z-coord)*/ |
| 1979 |
(PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */ |
| 1980 |
(PID.TID 0000.0001) ; |
| 1981 |
(PID.TID 0000.0001) wUnit2rVel = /* convert units: wSpeed -> rVel (=1 if z-coord)*/ |
| 1982 |
(PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */ |
| 1983 |
(PID.TID 0000.0001) ; |
| 1984 |
(PID.TID 0000.0001) dBdrRef = /* Vertical grad. of reference buoyancy [(m/s/r)^2] */ |
| 1985 |
(PID.TID 0000.0001) 0.000000000000000E+00 /* K = 1 */ |
| 1986 |
(PID.TID 0000.0001) ; |
| 1987 |
(PID.TID 0000.0001) rotateGrid = /* use rotated grid ( True/False ) */ |
| 1988 |
(PID.TID 0000.0001) F |
| 1989 |
(PID.TID 0000.0001) ; |
| 1990 |
(PID.TID 0000.0001) phiEuler = /* Euler angle, rotation about original z-coordinate [rad] */ |
| 1991 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1992 |
(PID.TID 0000.0001) ; |
| 1993 |
(PID.TID 0000.0001) thetaEuler = /* Euler angle, rotation about new x-coordinate [rad] */ |
| 1994 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1995 |
(PID.TID 0000.0001) ; |
| 1996 |
(PID.TID 0000.0001) psiEuler = /* Euler angle, rotation about new z-coordinate [rad] */ |
| 1997 |
(PID.TID 0000.0001) 0.000000000000000E+00 |
| 1998 |
(PID.TID 0000.0001) ; |
| 1999 |
(PID.TID 0000.0001) dxF = /* dxF(:,1,:,1) ( units: m ) */ |
| 2000 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2001 |
(PID.TID 0000.0001) ; |
| 2002 |
(PID.TID 0000.0001) dxF = /* dxF(1,:,1,:) ( units: m ) */ |
| 2003 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2004 |
(PID.TID 0000.0001) ; |
| 2005 |
(PID.TID 0000.0001) dyF = /* dyF(:,1,:,1) ( units: m ) */ |
| 2006 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2007 |
(PID.TID 0000.0001) ; |
| 2008 |
(PID.TID 0000.0001) dyF = /* dyF(1,:,1,:) ( units: m ) */ |
| 2009 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2010 |
(PID.TID 0000.0001) ; |
| 2011 |
(PID.TID 0000.0001) dxG = /* dxG(:,1,:,1) ( units: m ) */ |
| 2012 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2013 |
(PID.TID 0000.0001) ; |
| 2014 |
(PID.TID 0000.0001) dxG = /* dxG(1,:,1,:) ( units: m ) */ |
| 2015 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2016 |
(PID.TID 0000.0001) ; |
| 2017 |
(PID.TID 0000.0001) dyG = /* dyG(:,1,:,1) ( units: m ) */ |
| 2018 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2019 |
(PID.TID 0000.0001) ; |
| 2020 |
(PID.TID 0000.0001) dyG = /* dyG(1,:,1,:) ( units: m ) */ |
| 2021 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2022 |
(PID.TID 0000.0001) ; |
| 2023 |
(PID.TID 0000.0001) dxC = /* dxC(:,1,:,1) ( units: m ) */ |
| 2024 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2025 |
(PID.TID 0000.0001) ; |
| 2026 |
(PID.TID 0000.0001) dxC = /* dxC(1,:,1,:) ( units: m ) */ |
| 2027 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2028 |
(PID.TID 0000.0001) ; |
| 2029 |
(PID.TID 0000.0001) dyC = /* dyC(:,1,:,1) ( units: m ) */ |
| 2030 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2031 |
(PID.TID 0000.0001) ; |
| 2032 |
(PID.TID 0000.0001) dyC = /* dyC(1,:,1,:) ( units: m ) */ |
| 2033 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2034 |
(PID.TID 0000.0001) ; |
| 2035 |
(PID.TID 0000.0001) dxV = /* dxV(:,1,:,1) ( units: m ) */ |
| 2036 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2037 |
(PID.TID 0000.0001) ; |
| 2038 |
(PID.TID 0000.0001) dxV = /* dxV(1,:,1,:) ( units: m ) */ |
| 2039 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2040 |
(PID.TID 0000.0001) ; |
| 2041 |
(PID.TID 0000.0001) dyU = /* dyU(:,1,:,1) ( units: m ) */ |
| 2042 |
(PID.TID 0000.0001) 80 @ 5.000000000000000E+03 /* I = 1: 80 */ |
| 2043 |
(PID.TID 0000.0001) ; |
| 2044 |
(PID.TID 0000.0001) dyU = /* dyU(1,:,1,:) ( units: m ) */ |
| 2045 |
(PID.TID 0000.0001) 42 @ 5.000000000000000E+03 /* J = 1: 42 */ |
| 2046 |
(PID.TID 0000.0001) ; |
| 2047 |
(PID.TID 0000.0001) rA = /* rA (:,1,:,1) ( units: m^2 ) */ |
| 2048 |
(PID.TID 0000.0001) 80 @ 2.500000000000000E+07 /* I = 1: 80 */ |
| 2049 |
(PID.TID 0000.0001) ; |
| 2050 |
(PID.TID 0000.0001) rA = /* rA (1,:,1,:) ( units: m^2 ) */ |
| 2051 |
(PID.TID 0000.0001) 42 @ 2.500000000000000E+07 /* J = 1: 42 */ |
| 2052 |
(PID.TID 0000.0001) ; |
| 2053 |
(PID.TID 0000.0001) rAw = /* rAw(:,1,:,1) ( units: m^2 ) */ |
| 2054 |
(PID.TID 0000.0001) 80 @ 2.500000000000000E+07 /* I = 1: 80 */ |
| 2055 |
(PID.TID 0000.0001) ; |
| 2056 |
(PID.TID 0000.0001) rAw = /* rAw(1,:,1,:) ( units: m^2 ) */ |
| 2057 |
(PID.TID 0000.0001) 42 @ 2.500000000000000E+07 /* J = 1: 42 */ |
| 2058 |
(PID.TID 0000.0001) ; |
| 2059 |
(PID.TID 0000.0001) rAs = /* rAs(:,1,:,1) ( units: m^2 ) */ |
| 2060 |
(PID.TID 0000.0001) 80 @ 2.500000000000000E+07 /* I = 1: 80 */ |
| 2061 |
(PID.TID 0000.0001) ; |
| 2062 |
(PID.TID 0000.0001) rAs = /* rAs(1,:,1,:) ( units: m^2 ) */ |
| 2063 |
(PID.TID 0000.0001) 42 @ 2.500000000000000E+07 /* J = 1: 42 */ |
| 2064 |
(PID.TID 0000.0001) ; |
| 2065 |
(PID.TID 0000.0001) globalArea = /* Integrated horizontal Area (m^2) */ |
| 2066 |
(PID.TID 0000.0001) 6.950000000000000E+10 |
| 2067 |
(PID.TID 0000.0001) ; |
| 2068 |
(PID.TID 0000.0001) // ======================================================= |
| 2069 |
(PID.TID 0000.0001) // End of Model config. summary |
| 2070 |
(PID.TID 0000.0001) // ======================================================= |
| 2071 |
(PID.TID 0000.0001) |
| 2072 |
(PID.TID 0000.0001) == Packages configuration : Check & print summary == |
| 2073 |
(PID.TID 0000.0001) |
| 2074 |
(PID.TID 0000.0001) SEAICE_CHECK: #define ALLOW_SEAICE |
| 2075 |
(PID.TID 0000.0001) // ======================================================= |
| 2076 |
(PID.TID 0000.0001) // Check Model config. (CONFIG_CHECK): |
| 2077 |
(PID.TID 0000.0001) // CONFIG_CHECK : Normal End |
| 2078 |
(PID.TID 0000.0001) // ======================================================= |
| 2079 |
(PID.TID 0000.0001) |
| 2080 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: uVel_3c0.bin |
| 2081 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: vVel_3c0.bin |
| 2082 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: eta_3c0.bin |
| 2083 |
(PID.TID 0000.0001) Start initial hydrostatic pressure computation |
| 2084 |
(PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC |
| 2085 |
(PID.TID 0000.0001) |
| 2086 |
(PID.TID 0000.0001) write diagnostics summary to file ioUnit: 6 |
| 2087 |
Iter.Nb: 0 ; Time(s): 0.0000000000000E+00 |
| 2088 |
------------------------------------------------------------------------ |
| 2089 |
2D/3D diagnostics: Number of lists: 1 |
| 2090 |
------------------------------------------------------------------------ |
| 2091 |
listId= 1 ; file name: snapshot |
| 2092 |
nFlds, nActive, freq & phase , nLev |
| 2093 |
4 | 4 | -86400.000000 3600.000000 | 1 |
| 2094 |
levels: 1 |
| 2095 |
diag# | name | ipt | iMate | kLev| count | mate.C| |
| 2096 |
153 |SIuice | 1 | 2 | 1 | 0 | 0 | |
| 2097 |
154 |SIvice | 2 | 1 | 1 | 0 | 0 | |
| 2098 |
147 |SIheff | 3 | 0 | 1 | 0 | |
| 2099 |
144 |SIarea | 4 | 0 | 1 | 0 | |
| 2100 |
------------------------------------------------------------------------ |
| 2101 |
Global & Regional Statistics diagnostics: Number of lists: 1 |
| 2102 |
------------------------------------------------------------------------ |
| 2103 |
listId= 1 ; file name: iceStDiag |
| 2104 |
nFlds, nActive, freq & phase | |
| 2105 |
5 | 5 | 7200.000000 1800.000000 | |
| 2106 |
Regions: 0 |
| 2107 |
diag# | name | ipt | iMate | Volume | mate-Vol. | |
| 2108 |
144 |SIarea | 1 | 0 | 0.00000E+00 | |
| 2109 |
147 |SIheff | 2 | 0 | 0.00000E+00 | |
| 2110 |
149 |SIhsnow | 3 | 0 | 0.00000E+00 | |
| 2111 |
153 |SIuice | 4 | 0 | 0.00000E+00 | |
| 2112 |
154 |SIvice | 5 | 0 | 0.00000E+00 | |
| 2113 |
------------------------------------------------------------------------ |
| 2114 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: windx.bin |
| 2115 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: const+20.bin |
| 2116 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: const100.bin |
| 2117 |
(PID.TID 0000.0001) MDS_READ_FIELD: opening global file: const_00.bin |
| 2118 |
(PID.TID 0000.0001) // ======================================================= |
| 2119 |
(PID.TID 0000.0001) // Model current state |
| 2120 |
(PID.TID 0000.0001) // ======================================================= |
| 2121 |
(PID.TID 0000.0001) |
| 2122 |
(PID.TID 0000.0001) // ======================================================= |
| 2123 |
(PID.TID 0000.0001) // Begin MONITOR dynamic field statistics |
| 2124 |
(PID.TID 0000.0001) // ======================================================= |
| 2125 |
(PID.TID 0000.0001) %MON time_tsnumber = 0 |
| 2126 |
(PID.TID 0000.0001) %MON time_secondsf = 0.0000000000000E+00 |
| 2127 |
(PID.TID 0000.0001) %MON dynstat_eta_max = 1.4855271423662E-02 |
| 2128 |
(PID.TID 0000.0001) %MON dynstat_eta_min = -1.5547625271979E-02 |
| 2129 |
(PID.TID 0000.0001) %MON dynstat_eta_mean = -6.8609663050809E-19 |
| 2130 |
(PID.TID 0000.0001) %MON dynstat_eta_sd = 5.6185276903544E-03 |
| 2131 |
(PID.TID 0000.0001) %MON dynstat_eta_del2 = 3.4210904025025E-06 |
| 2132 |
(PID.TID 0000.0001) %MON dynstat_uvel_max = 5.4694595665363E-01 |
| 2133 |
(PID.TID 0000.0001) %MON dynstat_uvel_min = 8.1797628424127E-02 |
| 2134 |
(PID.TID 0000.0001) %MON dynstat_uvel_mean = 3.2603530929361E-01 |
| 2135 |
(PID.TID 0000.0001) %MON dynstat_uvel_sd = 8.4661197148990E-02 |
| 2136 |
(PID.TID 0000.0001) %MON dynstat_uvel_del2 = 1.3392731599312E-04 |
| 2137 |
(PID.TID 0000.0001) %MON dynstat_vvel_max = 2.2780617104059E-01 |
| 2138 |
(PID.TID 0000.0001) %MON dynstat_vvel_min = -1.4793000868950E-01 |
| 2139 |
(PID.TID 0000.0001) %MON dynstat_vvel_mean = -3.2450632095700E-04 |
| 2140 |
(PID.TID 0000.0001) %MON dynstat_vvel_sd = 6.0970835295293E-02 |
| 2141 |
(PID.TID 0000.0001) %MON dynstat_vvel_del2 = 8.1836652323282E-05 |
| 2142 |
(PID.TID 0000.0001) %MON dynstat_wvel_max = 1.6555698845343E-04 |
| 2143 |
(PID.TID 0000.0001) %MON dynstat_wvel_min = -2.4393468746960E-04 |
| 2144 |
(PID.TID 0000.0001) %MON dynstat_wvel_mean = -1.8006686469634E-21 |
| 2145 |
(PID.TID 0000.0001) %MON dynstat_wvel_sd = 1.8006622332191E-05 |
| 2146 |
(PID.TID 0000.0001) %MON dynstat_wvel_del2 = 3.4047422448573E-07 |
| 2147 |
(PID.TID 0000.0001) %MON dynstat_theta_max = -1.6200000000000E+00 |
| 2148 |
(PID.TID 0000.0001) %MON dynstat_theta_min = -1.6200000000000E+00 |
| 2149 |
(PID.TID 0000.0001) %MON dynstat_theta_mean = -1.6200000000000E+00 |
| 2150 |
(PID.TID 0000.0001) %MON dynstat_theta_sd = 0.0000000000000E+00 |
| 2151 |
(PID.TID 0000.0001) %MON dynstat_theta_del2 = 0.0000000000000E+00 |
| 2152 |
(PID.TID 0000.0001) %MON dynstat_salt_max = 3.0000000000000E+01 |
| 2153 |
(PID.TID 0000.0001) %MON dynstat_salt_min = 3.0000000000000E+01 |
| 2154 |
(PID.TID 0000.0001) %MON dynstat_salt_mean = 3.0000000000000E+01 |
| 2155 |
(PID.TID 0000.0001) %MON dynstat_salt_sd = 0.0000000000000E+00 |
| 2156 |
(PID.TID 0000.0001) %MON dynstat_salt_del2 = 0.0000000000000E+00 |
| 2157 |
(PID.TID 0000.0001) %MON advcfl_uvel_max = 1.9690054439531E-01 |
| 2158 |
(PID.TID 0000.0001) %MON advcfl_vvel_max = 8.2010221574612E-02 |
| 2159 |
(PID.TID 0000.0001) %MON advcfl_wvel_max = 8.7816487489057E-02 |
| 2160 |
(PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00 |
| 2161 |
(PID.TID 0000.0001) %MON pe_b_mean = 1.5484032096270E-05 |
| 2162 |
(PID.TID 0000.0001) %MON ke_max = 1.4564487757410E-01 |
| 2163 |
(PID.TID 0000.0001) %MON ke_mean = 5.8130401708830E-02 |
| 2164 |
(PID.TID 0000.0001) %MON ke_vol = 6.9500000000000E+11 |
| 2165 |
(PID.TID 0000.0001) %MON vort_r_min = -1.4191202448594E-04 |
| 2166 |
(PID.TID 0000.0001) %MON vort_r_max = 8.9657385579761E-05 |
| 2167 |
(PID.TID 0000.0001) %MON vort_a_mean = -6.5586096803907E-22 |
| 2168 |
(PID.TID 0000.0001) %MON vort_a_sd = 1.5889649807104E-05 |
| 2169 |
(PID.TID 0000.0001) %MON vort_p_mean = -6.8228760045090E-22 |
| 2170 |
(PID.TID 0000.0001) %MON vort_p_sd = 3.0669223294758E-05 |
| 2171 |
(PID.TID 0000.0001) %MON surfExpan_theta_mean = -1.4394880171946E-21 |
| 2172 |
(PID.TID 0000.0001) %MON surfExpan_salt_mean = 1.6750406018264E-20 |
| 2173 |
(PID.TID 0000.0001) // ======================================================= |
| 2174 |
(PID.TID 0000.0001) // End MONITOR dynamic field statistics |
| 2175 |
(PID.TID 0000.0001) // ======================================================= |
| 2176 |
(PID.TID 0000.0001) // ======================================================= |
| 2177 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2178 |
(PID.TID 0000.0001) // ======================================================= |
| 2179 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 0 |
| 2180 |
(PID.TID 0000.0001) %MON seaice_time_sec = 0.0000000000000E+00 |
| 2181 |
(PID.TID 0000.0001) %MON seaice_uice_max = 0.0000000000000E+00 |
| 2182 |
(PID.TID 0000.0001) %MON seaice_uice_min = 0.0000000000000E+00 |
| 2183 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 0.0000000000000E+00 |
| 2184 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 0.0000000000000E+00 |
| 2185 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 0.0000000000000E+00 |
| 2186 |
(PID.TID 0000.0001) %MON seaice_vice_max = 0.0000000000000E+00 |
| 2187 |
(PID.TID 0000.0001) %MON seaice_vice_min = 0.0000000000000E+00 |
| 2188 |
(PID.TID 0000.0001) %MON seaice_vice_mean = 0.0000000000000E+00 |
| 2189 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 0.0000000000000E+00 |
| 2190 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 0.0000000000000E+00 |
| 2191 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2192 |
(PID.TID 0000.0001) %MON seaice_area_min = 1.0000000000000E+00 |
| 2193 |
(PID.TID 0000.0001) %MON seaice_area_mean = 1.0000000000000E+00 |
| 2194 |
(PID.TID 0000.0001) %MON seaice_area_sd = 0.0000000000000E+00 |
| 2195 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 0.0000000000000E+00 |
| 2196 |
(PID.TID 0000.0001) %MON seaice_heff_max = 2.0000000000000E-01 |
| 2197 |
(PID.TID 0000.0001) %MON seaice_heff_min = 2.0000000000000E-01 |
| 2198 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2199 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 0.0000000000000E+00 |
| 2200 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 0.0000000000000E+00 |
| 2201 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2202 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2203 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2204 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2205 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2206 |
(PID.TID 0000.0001) // ======================================================= |
| 2207 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2208 |
(PID.TID 0000.0001) // ======================================================= |
| 2209 |
(PID.TID 0000.0001) // ======================================================= |
| 2210 |
(PID.TID 0000.0001) // Begin MONITOR EXF statistics |
| 2211 |
(PID.TID 0000.0001) // ======================================================= |
| 2212 |
(PID.TID 0000.0001) %MON exf_tsnumber = 0 |
| 2213 |
(PID.TID 0000.0001) %MON exf_time_sec = 0.0000000000000E+00 |
| 2214 |
(PID.TID 0000.0001) %MON exf_ustress_max = 1.3964039188763E-01 |
| 2215 |
(PID.TID 0000.0001) %MON exf_ustress_min = 1.3964039188763E-01 |
| 2216 |
(PID.TID 0000.0001) %MON exf_ustress_mean = 1.3964039188763E-01 |
| 2217 |
(PID.TID 0000.0001) %MON exf_ustress_sd = 5.5511151231258E-17 |
| 2218 |
(PID.TID 0000.0001) %MON exf_ustress_del2 = 0.0000000000000E+00 |
| 2219 |
(PID.TID 0000.0001) %MON exf_vstress_max = 0.0000000000000E+00 |
| 2220 |
(PID.TID 0000.0001) %MON exf_vstress_min = 0.0000000000000E+00 |
| 2221 |
(PID.TID 0000.0001) %MON exf_vstress_mean = 0.0000000000000E+00 |
| 2222 |
(PID.TID 0000.0001) %MON exf_vstress_sd = 0.0000000000000E+00 |
| 2223 |
(PID.TID 0000.0001) %MON exf_vstress_del2 = 0.0000000000000E+00 |
| 2224 |
(PID.TID 0000.0001) %MON exf_hflux_max = 1.3256147102117E+02 |
| 2225 |
(PID.TID 0000.0001) %MON exf_hflux_min = 1.3256147102117E+02 |
| 2226 |
(PID.TID 0000.0001) %MON exf_hflux_mean = 1.3256147102117E+02 |
| 2227 |
(PID.TID 0000.0001) %MON exf_hflux_sd = 9.6633812063374E-13 |
| 2228 |
(PID.TID 0000.0001) %MON exf_hflux_del2 = 7.8352778346434E-01 |
| 2229 |
(PID.TID 0000.0001) %MON exf_sflux_max = 5.8259080752307E-08 |
| 2230 |
(PID.TID 0000.0001) %MON exf_sflux_min = 5.8259080752307E-08 |
| 2231 |
(PID.TID 0000.0001) %MON exf_sflux_mean = 5.8259080752308E-08 |
| 2232 |
(PID.TID 0000.0001) %MON exf_sflux_sd = 8.7350272685600E-22 |
| 2233 |
(PID.TID 0000.0001) %MON exf_sflux_del2 = 3.4435049684410E-10 |
| 2234 |
(PID.TID 0000.0001) %MON exf_uwind_max = 1.0000000000000E+01 |
| 2235 |
(PID.TID 0000.0001) %MON exf_uwind_min = 1.0000000000000E+01 |
| 2236 |
(PID.TID 0000.0001) %MON exf_uwind_mean = 1.0000000000000E+01 |
| 2237 |
(PID.TID 0000.0001) %MON exf_uwind_sd = 0.0000000000000E+00 |
| 2238 |
(PID.TID 0000.0001) %MON exf_uwind_del2 = 5.9106750809910E-02 |
| 2239 |
(PID.TID 0000.0001) %MON exf_vwind_max = 0.0000000000000E+00 |
| 2240 |
(PID.TID 0000.0001) %MON exf_vwind_min = 0.0000000000000E+00 |
| 2241 |
(PID.TID 0000.0001) %MON exf_vwind_mean = 0.0000000000000E+00 |
| 2242 |
(PID.TID 0000.0001) %MON exf_vwind_sd = 0.0000000000000E+00 |
| 2243 |
(PID.TID 0000.0001) %MON exf_vwind_del2 = 0.0000000000000E+00 |
| 2244 |
(PID.TID 0000.0001) %MON exf_wspeed_max = 1.0000000000000E+01 |
| 2245 |
(PID.TID 0000.0001) %MON exf_wspeed_min = 1.0000000000000E+01 |
| 2246 |
(PID.TID 0000.0001) %MON exf_wspeed_mean = 1.0000000000000E+01 |
| 2247 |
(PID.TID 0000.0001) %MON exf_wspeed_sd = 0.0000000000000E+00 |
| 2248 |
(PID.TID 0000.0001) %MON exf_wspeed_del2 = 5.9106750809910E-02 |
| 2249 |
(PID.TID 0000.0001) %MON exf_evap_max = 5.8259080752307E-08 |
| 2250 |
(PID.TID 0000.0001) %MON exf_evap_min = 5.8259080752307E-08 |
| 2251 |
(PID.TID 0000.0001) %MON exf_evap_mean = 5.8259080752308E-08 |
| 2252 |
(PID.TID 0000.0001) %MON exf_evap_sd = 8.7350272685600E-22 |
| 2253 |
(PID.TID 0000.0001) %MON exf_evap_del2 = 3.4435049684410E-10 |
| 2254 |
(PID.TID 0000.0001) // ======================================================= |
| 2255 |
(PID.TID 0000.0001) // End MONITOR EXF statistics |
| 2256 |
(PID.TID 0000.0001) // ======================================================= |
| 2257 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 9.04987860E-01 1.13910549E-01 |
| 2258 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 4.33493063E+03 5.24406407E+02 |
| 2259 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 1.91818059E-06 2.98158574E-02 |
| 2260 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 662 9.99541433E-13 1.09886826E-08 |
| 2261 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 8.62084388E-01 1.22026642E-01 |
| 2262 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 1.51578104E+02 1.24313152E+01 |
| 2263 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 5.54228465E-05 1.71457210E-01 |
| 2264 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 514 9.57977621E-13 4.08904007E-10 |
| 2265 |
(PID.TID 0000.0001) // ======================================================= |
| 2266 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2267 |
(PID.TID 0000.0001) // ======================================================= |
| 2268 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 1 |
| 2269 |
(PID.TID 0000.0001) %MON seaice_time_sec = 1.8000000000000E+03 |
| 2270 |
(PID.TID 0000.0001) %MON seaice_uice_max = 3.1198259367554E-01 |
| 2271 |
(PID.TID 0000.0001) %MON seaice_uice_min = 8.1470927398250E-03 |
| 2272 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 2.1005956949950E-01 |
| 2273 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 1.0156311146573E-01 |
| 2274 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 7.1506820015545E-05 |
| 2275 |
(PID.TID 0000.0001) %MON seaice_vice_max = 7.6703922197756E-03 |
| 2276 |
(PID.TID 0000.0001) %MON seaice_vice_min = -7.3740303572161E-03 |
| 2277 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -8.0955976347349E-05 |
| 2278 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 2.9595829189105E-03 |
| 2279 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 2.1120324133590E-06 |
| 2280 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2281 |
(PID.TID 0000.0001) %MON seaice_area_min = 9.7281241929471E-01 |
| 2282 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9970378537937E-01 |
| 2283 |
(PID.TID 0000.0001) %MON seaice_area_sd = 9.9298162290875E-04 |
| 2284 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 1.4601760333527E-05 |
| 2285 |
(PID.TID 0000.0001) %MON seaice_heff_max = 2.0529299597168E-01 |
| 2286 |
(PID.TID 0000.0001) %MON seaice_heff_min = 1.9456248385894E-01 |
| 2287 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2288 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 2.9107232579591E-04 |
| 2289 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 5.1372439701130E-06 |
| 2290 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2291 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2292 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2293 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2294 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2295 |
(PID.TID 0000.0001) // ======================================================= |
| 2296 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2297 |
(PID.TID 0000.0001) // ======================================================= |
| 2298 |
Compute Stats, Diag. # 144 SIarea vol( 0 ): 6.950E+10 Parms: SM M1 |
| 2299 |
Compute Stats, Diag. # 147 SIheff vol( 0 ): 6.950E+10 Parms: SM M1 |
| 2300 |
Compute Stats, Diag. # 149 SIhsnow vol( 0 ): 6.950E+10 Parms: SM M1 |
| 2301 |
Compute Stats, Diag. # 153 SIuice vol( 0 ): 6.900E+10 Parms: UU M1 |
| 2302 |
Compute Stats, Diag. # 154 SIvice vol( 0 ): 6.750E+10 Parms: VV M1 |
| 2303 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 3.40473858E-01 8.02519456E-02 |
| 2304 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 5.47140695E+00 1.51269213E+00 |
| 2305 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 9.38041889E-05 9.56223578E-02 |
| 2306 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 352 9.45270338E-13 1.60417907E-11 |
| 2307 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 2.00440447E-01 4.32224597E-02 |
| 2308 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 8.95942728E+00 7.97622755E-01 |
| 2309 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 4.20878540E-05 9.62778279E-02 |
| 2310 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 296 9.71927400E-13 1.19345013E-11 |
| 2311 |
(PID.TID 0000.0001) // ======================================================= |
| 2312 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2313 |
(PID.TID 0000.0001) // ======================================================= |
| 2314 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 2 |
| 2315 |
(PID.TID 0000.0001) %MON seaice_time_sec = 3.6000000000000E+03 |
| 2316 |
(PID.TID 0000.0001) %MON seaice_uice_max = 7.0236912367008E-01 |
| 2317 |
(PID.TID 0000.0001) %MON seaice_uice_min = 1.5112001727564E-01 |
| 2318 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 6.1158398129344E-01 |
| 2319 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 9.1718087118377E-02 |
| 2320 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.6505842000409E-04 |
| 2321 |
(PID.TID 0000.0001) %MON seaice_vice_max = 8.0807120133141E-02 |
| 2322 |
(PID.TID 0000.0001) %MON seaice_vice_min = -6.4893616337361E-02 |
| 2323 |
(PID.TID 0000.0001) %MON seaice_vice_mean = 6.3005832010715E-05 |
| 2324 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 2.3763836176379E-02 |
| 2325 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 4.6769355557474E-05 |
| 2326 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2327 |
(PID.TID 0000.0001) %MON seaice_area_min = 8.2464115921627E-01 |
| 2328 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9807070158909E-01 |
| 2329 |
(PID.TID 0000.0001) %MON seaice_area_sd = 7.7409834935030E-03 |
| 2330 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 1.1171459217896E-04 |
| 2331 |
(PID.TID 0000.0001) %MON seaice_heff_max = 2.2747854537079E-01 |
| 2332 |
(PID.TID 0000.0001) %MON seaice_heff_min = 1.6494289026473E-01 |
| 2333 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2334 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 2.1725549101232E-03 |
| 2335 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 2.9185908674520E-05 |
| 2336 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2337 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2338 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2339 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2340 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2341 |
(PID.TID 0000.0001) // ======================================================= |
| 2342 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2343 |
(PID.TID 0000.0001) // ======================================================= |
| 2344 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 3.51952310E-01 8.02108238E-02 |
| 2345 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 1.41800373E+00 5.25919190E-01 |
| 2346 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 2.00981188E-06 2.04325938E-03 |
| 2347 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 448 9.62202540E-13 2.81168430E-11 |
| 2348 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 9.53404453E-02 4.08562904E-02 |
| 2349 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 1.76923583E+00 5.48890802E-01 |
| 2350 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 3.60937430E-07 3.43172708E-04 |
| 2351 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 628 9.85847255E-13 7.51540714E-11 |
| 2352 |
(PID.TID 0000.0001) // ======================================================= |
| 2353 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2354 |
(PID.TID 0000.0001) // ======================================================= |
| 2355 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 3 |
| 2356 |
(PID.TID 0000.0001) %MON seaice_time_sec = 5.4000000000000E+03 |
| 2357 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.7288937442682E-01 |
| 2358 |
(PID.TID 0000.0001) %MON seaice_uice_min = 2.2685131170055E-01 |
| 2359 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.2381056660101E-01 |
| 2360 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.4110188878011E-02 |
| 2361 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.3345018097844E-04 |
| 2362 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.2563901284375E-01 |
| 2363 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.1611526797915E-01 |
| 2364 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -1.8347269013564E-03 |
| 2365 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 4.5458760826033E-02 |
| 2366 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 6.0421031542357E-05 |
| 2367 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2368 |
(PID.TID 0000.0001) %MON seaice_area_min = 6.8619529614319E-01 |
| 2369 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9713112764724E-01 |
| 2370 |
(PID.TID 0000.0001) %MON seaice_area_sd = 1.4731212486915E-02 |
| 2371 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 2.4284751454799E-04 |
| 2372 |
(PID.TID 0000.0001) %MON seaice_heff_max = 2.5203127295924E-01 |
| 2373 |
(PID.TID 0000.0001) %MON seaice_heff_min = 1.3726905179754E-01 |
| 2374 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2375 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 4.1240361821754E-03 |
| 2376 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 6.3601606565638E-05 |
| 2377 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2378 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2379 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2380 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2381 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2382 |
(PID.TID 0000.0001) // ======================================================= |
| 2383 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2384 |
(PID.TID 0000.0001) // ======================================================= |
| 2385 |
Computing Diagnostic # 153 SIuice Counter: 1 Parms: UU M1 |
| 2386 |
Vector Mate for SIuice Diagnostic # 154 SIvice exists |
| 2387 |
Computing Diagnostic # 154 SIvice Counter: 1 Parms: VV M1 |
| 2388 |
Vector Mate for SIvice Diagnostic # 153 SIuice exists |
| 2389 |
Computing Diagnostic # 147 SIheff Counter: 1 Parms: SM M1 |
| 2390 |
Computing Diagnostic # 144 SIarea Counter: 1 Parms: SM M1 |
| 2391 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 4.11436813E-02 3.39759915E-02 |
| 2392 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 1.82043508E+00 6.84691338E-01 |
| 2393 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 9.41405941E-07 5.62453025E-04 |
| 2394 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 422 9.73335995E-13 3.18046669E-11 |
| 2395 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 2.86428357E-02 2.49988316E-02 |
| 2396 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 1.84945717E+00 8.28337370E-01 |
| 2397 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 1.86608572E-07 1.42100362E-04 |
| 2398 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 370 9.18376486E-13 2.57689209E-11 |
| 2399 |
(PID.TID 0000.0001) // ======================================================= |
| 2400 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2401 |
(PID.TID 0000.0001) // ======================================================= |
| 2402 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 4 |
| 2403 |
(PID.TID 0000.0001) %MON seaice_time_sec = 7.2000000000000E+03 |
| 2404 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.8433330590722E-01 |
| 2405 |
(PID.TID 0000.0001) %MON seaice_uice_min = 2.6893188967839E-01 |
| 2406 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3303429864397E-01 |
| 2407 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.0069400933997E-02 |
| 2408 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.2020753480109E-04 |
| 2409 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.4535280410383E-01 |
| 2410 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.2759022454275E-01 |
| 2411 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -1.8288913894364E-03 |
| 2412 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.1917403483740E-02 |
| 2413 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 6.1496442917188E-05 |
| 2414 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2415 |
(PID.TID 0000.0001) %MON seaice_area_min = 5.7164577273744E-01 |
| 2416 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9619759029632E-01 |
| 2417 |
(PID.TID 0000.0001) %MON seaice_area_sd = 2.1475038247447E-02 |
| 2418 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 3.4164281053622E-04 |
| 2419 |
(PID.TID 0000.0001) %MON seaice_heff_max = 2.7593213969900E-01 |
| 2420 |
(PID.TID 0000.0001) %MON seaice_heff_min = 1.1437000441519E-01 |
| 2421 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2422 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 6.1185225625162E-03 |
| 2423 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 9.4313842240614E-05 |
| 2424 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2425 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2426 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2427 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2428 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2429 |
(PID.TID 0000.0001) // ======================================================= |
| 2430 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2431 |
(PID.TID 0000.0001) // ======================================================= |
| 2432 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 2.47713058E-02 1.95497718E-02 |
| 2433 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 2.28324146E+00 1.12160734E+00 |
| 2434 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 1.02127879E-07 1.02127420E-04 |
| 2435 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 344 9.85572735E-13 2.89831120E-11 |
| 2436 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 2.19088170E-02 1.74353905E-02 |
| 2437 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 2.46941034E+00 1.45161508E+00 |
| 2438 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 4.97957533E-08 5.83721624E-05 |
| 2439 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 328 9.79820391E-13 2.78182985E-11 |
| 2440 |
(PID.TID 0000.0001) // ======================================================= |
| 2441 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2442 |
(PID.TID 0000.0001) // ======================================================= |
| 2443 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 5 |
| 2444 |
(PID.TID 0000.0001) %MON seaice_time_sec = 9.0000000000000E+03 |
| 2445 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.8971853654848E-01 |
| 2446 |
(PID.TID 0000.0001) %MON seaice_uice_min = 2.7325250630569E-01 |
| 2447 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3310337921989E-01 |
| 2448 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.0544099239500E-02 |
| 2449 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.1734624236626E-04 |
| 2450 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.5468843722035E-01 |
| 2451 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.3117563590320E-01 |
| 2452 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -1.6031180036790E-03 |
| 2453 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.4008236531525E-02 |
| 2454 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 6.4386283348363E-05 |
| 2455 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2456 |
(PID.TID 0000.0001) %MON seaice_area_min = 4.7882234905494E-01 |
| 2457 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9527584426037E-01 |
| 2458 |
(PID.TID 0000.0001) %MON seaice_area_sd = 2.7805891324546E-02 |
| 2459 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 4.0914020155788E-04 |
| 2460 |
(PID.TID 0000.0001) %MON seaice_heff_max = 2.9771976135763E-01 |
| 2461 |
(PID.TID 0000.0001) %MON seaice_heff_min = 9.5813513894688E-02 |
| 2462 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2463 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 8.0336412492804E-03 |
| 2464 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.1873262031487E-04 |
| 2465 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2466 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2467 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2468 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2469 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2470 |
(PID.TID 0000.0001) // ======================================================= |
| 2471 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2472 |
(PID.TID 0000.0001) // ======================================================= |
| 2473 |
Compute Stats, Diag. # 144 SIarea vol( 0 ): 2.780E+11 Parms: SM M1 |
| 2474 |
Compute Stats, Diag. # 147 SIheff vol( 0 ): 2.780E+11 Parms: SM M1 |
| 2475 |
Compute Stats, Diag. # 149 SIhsnow vol( 0 ): 2.780E+11 Parms: SM M1 |
| 2476 |
Compute Stats, Diag. # 153 SIuice vol( 0 ): 2.760E+11 Parms: UU M1 |
| 2477 |
Compute Stats, Diag. # 154 SIvice vol( 0 ): 2.700E+11 Parms: VV M1 |
| 2478 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 2.14425674E-02 1.70339311E-02 |
| 2479 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 3.47618667E+00 3.38081997E+00 |
| 2480 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 6.44567099E-08 1.02363785E-04 |
| 2481 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 328 9.19223031E-13 2.89404608E-11 |
| 2482 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 1.96960923E-02 1.52023308E-02 |
| 2483 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 4.01249943E+00 4.21803139E+00 |
| 2484 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 2.95667122E-08 5.40797560E-05 |
| 2485 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 314 9.65810765E-13 3.20142247E-11 |
| 2486 |
(PID.TID 0000.0001) // ======================================================= |
| 2487 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2488 |
(PID.TID 0000.0001) // ======================================================= |
| 2489 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 6 |
| 2490 |
(PID.TID 0000.0001) %MON seaice_time_sec = 1.0800000000000E+04 |
| 2491 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.9270809173164E-01 |
| 2492 |
(PID.TID 0000.0001) %MON seaice_uice_min = 2.6716146034555E-01 |
| 2493 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3291760093517E-01 |
| 2494 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.0974226218473E-02 |
| 2495 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.1986517096531E-04 |
| 2496 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.6191963112816E-01 |
| 2497 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.3287233544408E-01 |
| 2498 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -1.3289171998953E-03 |
| 2499 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.5055369048964E-02 |
| 2500 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 7.1369221746341E-05 |
| 2501 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2502 |
(PID.TID 0000.0001) %MON seaice_area_min = 4.0409332325752E-01 |
| 2503 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9436081719606E-01 |
| 2504 |
(PID.TID 0000.0001) %MON seaice_area_sd = 3.3781272580692E-02 |
| 2505 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 4.5311765803612E-04 |
| 2506 |
(PID.TID 0000.0001) %MON seaice_heff_max = 3.1730149363145E-01 |
| 2507 |
(PID.TID 0000.0001) %MON seaice_heff_min = 8.0874774660867E-02 |
| 2508 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2509 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 9.8533290514457E-03 |
| 2510 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.3756507844055E-04 |
| 2511 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2512 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2513 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2514 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2515 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2516 |
(PID.TID 0000.0001) // ======================================================= |
| 2517 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2518 |
(PID.TID 0000.0001) // ======================================================= |
| 2519 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 1.81583707E-02 1.52152472E-02 |
| 2520 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 5.03159631E+00 5.55351253E+00 |
| 2521 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 8.89620717E-08 1.56449635E-04 |
| 2522 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 338 9.75157455E-13 1.79856879E-10 |
| 2523 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 1.70391626E-02 1.42187131E-02 |
| 2524 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 5.16820703E+00 5.33259566E+00 |
| 2525 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 2.16098422E-08 5.05451814E-05 |
| 2526 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 338 9.81623637E-13 1.75956683E-10 |
| 2527 |
(PID.TID 0000.0001) // ======================================================= |
| 2528 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2529 |
(PID.TID 0000.0001) // ======================================================= |
| 2530 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 7 |
| 2531 |
(PID.TID 0000.0001) %MON seaice_time_sec = 1.2600000000000E+04 |
| 2532 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.9482924572700E-01 |
| 2533 |
(PID.TID 0000.0001) %MON seaice_uice_min = 2.5208142429056E-01 |
| 2534 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3269146784154E-01 |
| 2535 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.1516380355993E-02 |
| 2536 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.2517791663013E-04 |
| 2537 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.7183943693467E-01 |
| 2538 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.3408727116043E-01 |
| 2539 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -1.0754682490861E-03 |
| 2540 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.5798331307746E-02 |
| 2541 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 8.1142911638733E-05 |
| 2542 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2543 |
(PID.TID 0000.0001) %MON seaice_area_min = 3.4438235677556E-01 |
| 2544 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9345086599442E-01 |
| 2545 |
(PID.TID 0000.0001) %MON seaice_area_sd = 3.9467051823381E-02 |
| 2546 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 4.8179954846165E-04 |
| 2547 |
(PID.TID 0000.0001) %MON seaice_heff_max = 3.3483648352644E-01 |
| 2548 |
(PID.TID 0000.0001) %MON seaice_heff_min = 6.8942305191491E-02 |
| 2549 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2550 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 1.1577167696261E-02 |
| 2551 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.5174356216137E-04 |
| 2552 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2553 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2554 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2555 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2556 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2557 |
(PID.TID 0000.0001) // ======================================================= |
| 2558 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2559 |
(PID.TID 0000.0001) // ======================================================= |
| 2560 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 1.74044942E-02 1.43842646E-02 |
| 2561 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 5.58033490E+00 4.85297921E+00 |
| 2562 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 8.19329202E-08 1.71348691E-04 |
| 2563 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 332 9.70526610E-13 1.63978795E-10 |
| 2564 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 1.64174741E-02 1.34785938E-02 |
| 2565 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 5.63567808E+00 4.17898909E+00 |
| 2566 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 2.46335146E-08 6.50944857E-05 |
| 2567 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 308 9.94032981E-13 1.49666157E-10 |
| 2568 |
(PID.TID 0000.0001) // ======================================================= |
| 2569 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2570 |
(PID.TID 0000.0001) // ======================================================= |
| 2571 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 8 |
| 2572 |
(PID.TID 0000.0001) %MON seaice_time_sec = 1.4400000000000E+04 |
| 2573 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.9644304399906E-01 |
| 2574 |
(PID.TID 0000.0001) %MON seaice_uice_min = 2.3282329615860E-01 |
| 2575 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3245646773240E-01 |
| 2576 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.2113666688861E-02 |
| 2577 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.3213906731120E-04 |
| 2578 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.8061772654912E-01 |
| 2579 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.3526213641248E-01 |
| 2580 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -8.5813011264084E-04 |
| 2581 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.6401937745882E-02 |
| 2582 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 9.1717535651513E-05 |
| 2583 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2584 |
(PID.TID 0000.0001) %MON seaice_area_min = 2.9685233284458E-01 |
| 2585 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9254511492327E-01 |
| 2586 |
(PID.TID 0000.0001) %MON seaice_area_sd = 4.4911835702142E-02 |
| 2587 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 5.0290950954573E-04 |
| 2588 |
(PID.TID 0000.0001) %MON seaice_heff_max = 3.5063387886945E-01 |
| 2589 |
(PID.TID 0000.0001) %MON seaice_heff_min = 5.9449144969592E-02 |
| 2590 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2591 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 1.3210708888795E-02 |
| 2592 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.6232398094929E-04 |
| 2593 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2594 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2595 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2596 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2597 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2598 |
(PID.TID 0000.0001) // ======================================================= |
| 2599 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2600 |
(PID.TID 0000.0001) // ======================================================= |
| 2601 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 1.61992275E-02 1.31305873E-02 |
| 2602 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 5.99218818E+00 3.51072037E+00 |
| 2603 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 7.26170072E-08 1.71677140E-04 |
| 2604 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 310 9.20291621E-13 4.28533743E-11 |
| 2605 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 1.49801493E-02 1.22033228E-02 |
| 2606 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 6.14771684E+00 3.26947183E+00 |
| 2607 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 2.54432569E-08 7.52724335E-05 |
| 2608 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 296 9.79112624E-13 3.83249480E-11 |
| 2609 |
(PID.TID 0000.0001) // ======================================================= |
| 2610 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2611 |
(PID.TID 0000.0001) // ======================================================= |
| 2612 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 9 |
| 2613 |
(PID.TID 0000.0001) %MON seaice_time_sec = 1.6200000000000E+04 |
| 2614 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.9774801955092E-01 |
| 2615 |
(PID.TID 0000.0001) %MON seaice_uice_min = 2.1267384043978E-01 |
| 2616 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3222390103472E-01 |
| 2617 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.2738024114402E-02 |
| 2618 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.4022656411892E-04 |
| 2619 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.8843155663559E-01 |
| 2620 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.3651637192977E-01 |
| 2621 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -6.7706199025181E-04 |
| 2622 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.6906119498625E-02 |
| 2623 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 1.0469847426637E-04 |
| 2624 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2625 |
(PID.TID 0000.0001) %MON seaice_area_min = 2.5886800541099E-01 |
| 2626 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9164273436363E-01 |
| 2627 |
(PID.TID 0000.0001) %MON seaice_area_sd = 5.0154101108305E-02 |
| 2628 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 5.2244330893901E-04 |
| 2629 |
(PID.TID 0000.0001) %MON seaice_heff_max = 3.6503499353494E-01 |
| 2630 |
(PID.TID 0000.0001) %MON seaice_heff_min = 5.1866629939540E-02 |
| 2631 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2632 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 1.4763502121107E-02 |
| 2633 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.7031657275270E-04 |
| 2634 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2635 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2636 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2637 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2638 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2639 |
(PID.TID 0000.0001) // ======================================================= |
| 2640 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2641 |
(PID.TID 0000.0001) // ======================================================= |
| 2642 |
Compute Stats, Diag. # 144 SIarea vol( 0 ): 2.780E+11 Parms: SM M1 |
| 2643 |
Compute Stats, Diag. # 147 SIheff vol( 0 ): 2.780E+11 Parms: SM M1 |
| 2644 |
Compute Stats, Diag. # 149 SIhsnow vol( 0 ): 2.780E+11 Parms: SM M1 |
| 2645 |
Compute Stats, Diag. # 153 SIuice vol( 0 ): 2.760E+11 Parms: UU M1 |
| 2646 |
Compute Stats, Diag. # 154 SIvice vol( 0 ): 2.700E+11 Parms: VV M1 |
| 2647 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 1.44893124E-02 1.12568457E-02 |
| 2648 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 6.61704161E+00 3.36208009E+00 |
| 2649 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 6.57469757E-08 1.69396461E-04 |
| 2650 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 304 9.91061400E-13 3.00540223E-11 |
| 2651 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 1.34961394E-02 1.05109010E-02 |
| 2652 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 6.83197968E+00 3.47910895E+00 |
| 2653 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 2.28565442E-08 7.58702449E-05 |
| 2654 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 292 9.06191788E-13 2.88811548E-11 |
| 2655 |
(PID.TID 0000.0001) // ======================================================= |
| 2656 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2657 |
(PID.TID 0000.0001) // ======================================================= |
| 2658 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 10 |
| 2659 |
(PID.TID 0000.0001) %MON seaice_time_sec = 1.8000000000000E+04 |
| 2660 |
(PID.TID 0000.0001) %MON seaice_uice_max = 6.9896199168671E-01 |
| 2661 |
(PID.TID 0000.0001) %MON seaice_uice_min = 1.9324273592972E-01 |
| 2662 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3199725565693E-01 |
| 2663 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.3370282363600E-02 |
| 2664 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.4889046185032E-04 |
| 2665 |
(PID.TID 0000.0001) %MON seaice_vice_max = 1.9539387791006E-01 |
| 2666 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.3833496397364E-01 |
| 2667 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -5.3107162467680E-04 |
| 2668 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.7331208241479E-02 |
| 2669 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 1.1916007104639E-04 |
| 2670 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2671 |
(PID.TID 0000.0001) %MON seaice_area_min = 2.2831294902967E-01 |
| 2672 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.9074321974946E-01 |
| 2673 |
(PID.TID 0000.0001) %MON seaice_area_sd = 5.5196785498059E-02 |
| 2674 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 5.4336800682873E-04 |
| 2675 |
(PID.TID 0000.0001) %MON seaice_heff_max = 3.7835230914011E-01 |
| 2676 |
(PID.TID 0000.0001) %MON seaice_heff_min = 4.5769956555429E-02 |
| 2677 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2678 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 1.6243105430385E-02 |
| 2679 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.7652095923198E-04 |
| 2680 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2681 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2682 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2683 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2684 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2685 |
(PID.TID 0000.0001) // ======================================================= |
| 2686 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2687 |
(PID.TID 0000.0001) // ======================================================= |
| 2688 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 1.32806619E-02 9.71964754E-03 |
| 2689 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 7.31849827E+00 3.95028328E+00 |
| 2690 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 6.20891890E-08 1.70555103E-04 |
| 2691 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 302 9.02077024E-13 2.67572034E-11 |
| 2692 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 1.25278525E-02 9.34230423E-03 |
| 2693 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 7.54012106E+00 4.23611406E+00 |
| 2694 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 1.80578226E-08 6.87148361E-05 |
| 2695 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 288 8.98038588E-13 2.78847963E-11 |
| 2696 |
(PID.TID 0000.0001) // ======================================================= |
| 2697 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2698 |
(PID.TID 0000.0001) // ======================================================= |
| 2699 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 11 |
| 2700 |
(PID.TID 0000.0001) %MON seaice_time_sec = 1.9800000000000E+04 |
| 2701 |
(PID.TID 0000.0001) %MON seaice_uice_max = 7.0018163985716E-01 |
| 2702 |
(PID.TID 0000.0001) %MON seaice_uice_min = 1.7542757050492E-01 |
| 2703 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3177590132112E-01 |
| 2704 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.4003125237667E-02 |
| 2705 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.5759736191883E-04 |
| 2706 |
(PID.TID 0000.0001) %MON seaice_vice_max = 2.0158401333014E-01 |
| 2707 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.4418987990392E-01 |
| 2708 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -4.1774587539171E-04 |
| 2709 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.7685011417427E-02 |
| 2710 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 1.2976937358727E-04 |
| 2711 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2712 |
(PID.TID 0000.0001) %MON seaice_area_min = 2.0354790262052E-01 |
| 2713 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.8984602295568E-01 |
| 2714 |
(PID.TID 0000.0001) %MON seaice_area_sd = 6.0000961936673E-02 |
| 2715 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 5.6274464864862E-04 |
| 2716 |
(PID.TID 0000.0001) %MON seaice_heff_max = 3.9082594424306E-01 |
| 2717 |
(PID.TID 0000.0001) %MON seaice_heff_min = 4.0830257121338E-02 |
| 2718 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2719 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 1.7651889592065E-02 |
| 2720 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.8104026652128E-04 |
| 2721 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2722 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2723 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2724 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2725 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2726 |
(PID.TID 0000.0001) // ======================================================= |
| 2727 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2728 |
(PID.TID 0000.0001) // ======================================================= |
| 2729 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 1 1.23995312E-02 8.95810457E-03 |
| 2730 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 8.03029216E+00 4.98112971E+00 |
| 2731 |
SEAICE_LSR (ipass= 1) iters,dU,Resid= 1500 6.24253036E-08 1.79835970E-04 |
| 2732 |
SEAICE_LSR (ipass= 1) iters,dV,Resid= 298 9.68995717E-13 2.72484996E-11 |
| 2733 |
SEAICE_LSR: Residual Initial ipass,Uice,Vice= 2 1.17953253E-02 8.72642962E-03 |
| 2734 |
SEAICE_LSR: Residual FrDrift U_fd,V_fd= 8.28587881E+00 5.44870407E+00 |
| 2735 |
SEAICE_LSR (ipass= 2) iters,dU,Resid= 1500 1.70727049E-08 6.05262890E-05 |
| 2736 |
SEAICE_LSR (ipass= 2) iters,dV,Resid= 284 9.61571101E-13 2.60791215E-11 |
| 2737 |
(PID.TID 0000.0001) // ======================================================= |
| 2738 |
(PID.TID 0000.0001) // Begin MONITOR SEAICE statistics |
| 2739 |
(PID.TID 0000.0001) // ======================================================= |
| 2740 |
(PID.TID 0000.0001) %MON seaice_tsnumber = 12 |
| 2741 |
(PID.TID 0000.0001) %MON seaice_time_sec = 2.1600000000000E+04 |
| 2742 |
(PID.TID 0000.0001) %MON seaice_uice_max = 7.0125965163460E-01 |
| 2743 |
(PID.TID 0000.0001) %MON seaice_uice_min = 1.5962567189583E-01 |
| 2744 |
(PID.TID 0000.0001) %MON seaice_uice_mean = 5.3156031286931E-01 |
| 2745 |
(PID.TID 0000.0001) %MON seaice_uice_sd = 8.4628991162887E-02 |
| 2746 |
(PID.TID 0000.0001) %MON seaice_uice_del2 = 1.6605720441225E-04 |
| 2747 |
(PID.TID 0000.0001) %MON seaice_vice_max = 2.0707806501790E-01 |
| 2748 |
(PID.TID 0000.0001) %MON seaice_vice_min = -1.4934047252325E-01 |
| 2749 |
(PID.TID 0000.0001) %MON seaice_vice_mean = -3.3031931648098E-04 |
| 2750 |
(PID.TID 0000.0001) %MON seaice_vice_sd = 5.7985880284964E-02 |
| 2751 |
(PID.TID 0000.0001) %MON seaice_vice_del2 = 1.3706392602450E-04 |
| 2752 |
(PID.TID 0000.0001) %MON seaice_area_max = 1.0000000000000E+00 |
| 2753 |
(PID.TID 0000.0001) %MON seaice_area_min = 1.8332029256036E-01 |
| 2754 |
(PID.TID 0000.0001) %MON seaice_area_mean = 9.8895092330512E-01 |
| 2755 |
(PID.TID 0000.0001) %MON seaice_area_sd = 6.4584017824278E-02 |
| 2756 |
(PID.TID 0000.0001) %MON seaice_area_del2 = 5.7939673900426E-04 |
| 2757 |
(PID.TID 0000.0001) %MON seaice_heff_max = 4.0261540744424E-01 |
| 2758 |
(PID.TID 0000.0001) %MON seaice_heff_min = 3.6796100882918E-02 |
| 2759 |
(PID.TID 0000.0001) %MON seaice_heff_mean = 2.0000000000000E-01 |
| 2760 |
(PID.TID 0000.0001) %MON seaice_heff_sd = 1.8999479345509E-02 |
| 2761 |
(PID.TID 0000.0001) %MON seaice_heff_del2 = 1.8413600715637E-04 |
| 2762 |
(PID.TID 0000.0001) %MON seaice_hsnow_max = 0.0000000000000E+00 |
| 2763 |
(PID.TID 0000.0001) %MON seaice_hsnow_min = 0.0000000000000E+00 |
| 2764 |
(PID.TID 0000.0001) %MON seaice_hsnow_mean = 0.0000000000000E+00 |
| 2765 |
(PID.TID 0000.0001) %MON seaice_hsnow_sd = 0.0000000000000E+00 |
| 2766 |
(PID.TID 0000.0001) %MON seaice_hsnow_del2 = 0.0000000000000E+00 |
| 2767 |
(PID.TID 0000.0001) // ======================================================= |
| 2768 |
(PID.TID 0000.0001) // End MONITOR SEAICE statistics |
| 2769 |
(PID.TID 0000.0001) // ======================================================= |
| 2770 |
Compute Stats, Diag. # 144 SIarea vol( 0 ): 2.085E+11 Parms: SM M1 |
| 2771 |
Compute Stats, Diag. # 147 SIheff vol( 0 ): 2.085E+11 Parms: SM M1 |
| 2772 |
Compute Stats, Diag. # 149 SIhsnow vol( 0 ): 2.085E+11 Parms: SM M1 |
| 2773 |
Compute Stats, Diag. # 153 SIuice vol( 0 ): 2.070E+11 Parms: UU M1 |
| 2774 |
Compute Stats, Diag. # 154 SIvice vol( 0 ): 2.025E+11 Parms: VV M1 |
| 2775 |
(PID.TID 0000.0001) DIAGSTATS_CLOSE_IO: close file: iceStDiag.0000000000.txt , unit= 9 |
| 2776 |
(PID.TID 0000.0001) %CHECKPOINT 12 ckptA |
| 2777 |
(PID.TID 0000.0001) Seconds in section "ALL [THE_MODEL_MAIN]": |
| 2778 |
(PID.TID 0000.0001) User time: 17.780000000000001 |
| 2779 |
(PID.TID 0000.0001) System time: 4.00000000000000008E-002 |
| 2780 |
(PID.TID 0000.0001) Wall clock time: 17.883624076843262 |
| 2781 |
(PID.TID 0000.0001) No. starts: 1 |
| 2782 |
(PID.TID 0000.0001) No. stops: 1 |
| 2783 |
(PID.TID 0000.0001) Seconds in section "INITIALISE_FIXED [THE_MODEL_MAIN]": |
| 2784 |
(PID.TID 0000.0001) User time: 4.00000000000000008E-002 |
| 2785 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2786 |
(PID.TID 0000.0001) Wall clock time: 5.30819892883300781E-002 |
| 2787 |
(PID.TID 0000.0001) No. starts: 1 |
| 2788 |
(PID.TID 0000.0001) No. stops: 1 |
| 2789 |
(PID.TID 0000.0001) Seconds in section "THE_MAIN_LOOP [THE_MODEL_MAIN]": |
| 2790 |
(PID.TID 0000.0001) User time: 17.740000000000002 |
| 2791 |
(PID.TID 0000.0001) System time: 4.00000000000000008E-002 |
| 2792 |
(PID.TID 0000.0001) Wall clock time: 17.830507993698120 |
| 2793 |
(PID.TID 0000.0001) No. starts: 1 |
| 2794 |
(PID.TID 0000.0001) No. stops: 1 |
| 2795 |
(PID.TID 0000.0001) Seconds in section "INITIALISE_VARIA [THE_MAIN_LOOP]": |
| 2796 |
(PID.TID 0000.0001) User time: 1.00000000000000019E-002 |
| 2797 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2798 |
(PID.TID 0000.0001) Wall clock time: 1.81028842926025391E-002 |
| 2799 |
(PID.TID 0000.0001) No. starts: 1 |
| 2800 |
(PID.TID 0000.0001) No. stops: 1 |
| 2801 |
(PID.TID 0000.0001) Seconds in section "MAIN LOOP [THE_MAIN_LOOP]": |
| 2802 |
(PID.TID 0000.0001) User time: 17.730000000000000 |
| 2803 |
(PID.TID 0000.0001) System time: 4.00000000000000008E-002 |
| 2804 |
(PID.TID 0000.0001) Wall clock time: 17.812378168106079 |
| 2805 |
(PID.TID 0000.0001) No. starts: 1 |
| 2806 |
(PID.TID 0000.0001) No. stops: 1 |
| 2807 |
(PID.TID 0000.0001) Seconds in section "MAIN_DO_LOOP [THE_MAIN_LOOP]": |
| 2808 |
(PID.TID 0000.0001) User time: 17.729999999999997 |
| 2809 |
(PID.TID 0000.0001) System time: 3.99999999999999870E-002 |
| 2810 |
(PID.TID 0000.0001) Wall clock time: 17.812264919281006 |
| 2811 |
(PID.TID 0000.0001) No. starts: 12 |
| 2812 |
(PID.TID 0000.0001) No. stops: 12 |
| 2813 |
(PID.TID 0000.0001) Seconds in section "FORWARD_STEP [MAIN_DO_LOOP]": |
| 2814 |
(PID.TID 0000.0001) User time: 17.729999999999997 |
| 2815 |
(PID.TID 0000.0001) System time: 3.99999999999999870E-002 |
| 2816 |
(PID.TID 0000.0001) Wall clock time: 17.812052965164185 |
| 2817 |
(PID.TID 0000.0001) No. starts: 12 |
| 2818 |
(PID.TID 0000.0001) No. stops: 12 |
| 2819 |
(PID.TID 0000.0001) Seconds in section "DO_STATEVARS_DIAGS [FORWARD_STEP]": |
| 2820 |
(PID.TID 0000.0001) User time: 9.99999999999801048E-003 |
| 2821 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2822 |
(PID.TID 0000.0001) Wall clock time: 9.34243202209472656E-003 |
| 2823 |
(PID.TID 0000.0001) No. starts: 36 |
| 2824 |
(PID.TID 0000.0001) No. stops: 36 |
| 2825 |
(PID.TID 0000.0001) Seconds in section "LOAD_FIELDS_DRIVER [FORWARD_STEP]": |
| 2826 |
(PID.TID 0000.0001) User time: 3.99999999999991473E-002 |
| 2827 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2828 |
(PID.TID 0000.0001) Wall clock time: 5.32963275909423828E-002 |
| 2829 |
(PID.TID 0000.0001) No. starts: 12 |
| 2830 |
(PID.TID 0000.0001) No. stops: 12 |
| 2831 |
(PID.TID 0000.0001) Seconds in section "EXF_GETFORCING [LOAD_FLDS_DRIVER]": |
| 2832 |
(PID.TID 0000.0001) User time: 3.99999999999991473E-002 |
| 2833 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2834 |
(PID.TID 0000.0001) Wall clock time: 5.28564453125000000E-002 |
| 2835 |
(PID.TID 0000.0001) No. starts: 12 |
| 2836 |
(PID.TID 0000.0001) No. stops: 12 |
| 2837 |
(PID.TID 0000.0001) Seconds in section "EXTERNAL_FLDS_LOAD [LOAD_FLDS_DRIVER]": |
| 2838 |
(PID.TID 0000.0001) User time: 0.0000000000000000 |
| 2839 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2840 |
(PID.TID 0000.0001) Wall clock time: 1.12533569335937500E-004 |
| 2841 |
(PID.TID 0000.0001) No. starts: 12 |
| 2842 |
(PID.TID 0000.0001) No. stops: 12 |
| 2843 |
(PID.TID 0000.0001) Seconds in section "DO_ATMOSPHERIC_PHYS [FORWARD_STEP]": |
| 2844 |
(PID.TID 0000.0001) User time: 0.0000000000000000 |
| 2845 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2846 |
(PID.TID 0000.0001) Wall clock time: 1.06334686279296875E-004 |
| 2847 |
(PID.TID 0000.0001) No. starts: 12 |
| 2848 |
(PID.TID 0000.0001) No. stops: 12 |
| 2849 |
(PID.TID 0000.0001) Seconds in section "DO_OCEANIC_PHYS [FORWARD_STEP]": |
| 2850 |
(PID.TID 0000.0001) User time: 17.659999999999997 |
| 2851 |
(PID.TID 0000.0001) System time: 3.99999999999999870E-002 |
| 2852 |
(PID.TID 0000.0001) Wall clock time: 17.712686061859131 |
| 2853 |
(PID.TID 0000.0001) No. starts: 12 |
| 2854 |
(PID.TID 0000.0001) No. stops: 12 |
| 2855 |
(PID.TID 0000.0001) Seconds in section "SEAICE_MODEL [DO_OCEANIC_PHYS]": |
| 2856 |
(PID.TID 0000.0001) User time: 17.650000000000006 |
| 2857 |
(PID.TID 0000.0001) System time: 3.99999999999999870E-002 |
| 2858 |
(PID.TID 0000.0001) Wall clock time: 17.707390785217285 |
| 2859 |
(PID.TID 0000.0001) No. starts: 12 |
| 2860 |
(PID.TID 0000.0001) No. stops: 12 |
| 2861 |
(PID.TID 0000.0001) Seconds in section "SEAICE_DYNSOLVER [SEAICE_MODEL]": |
| 2862 |
(PID.TID 0000.0001) User time: 17.609999999999999 |
| 2863 |
(PID.TID 0000.0001) System time: 3.99999999999999870E-002 |
| 2864 |
(PID.TID 0000.0001) Wall clock time: 17.667046070098877 |
| 2865 |
(PID.TID 0000.0001) No. starts: 12 |
| 2866 |
(PID.TID 0000.0001) No. stops: 12 |
| 2867 |
(PID.TID 0000.0001) Seconds in section "BLOCKING_EXCHANGES [FORWARD_STEP]": |
| 2868 |
(PID.TID 0000.0001) User time: 0.0000000000000000 |
| 2869 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2870 |
(PID.TID 0000.0001) Wall clock time: 1.99270248413085938E-003 |
| 2871 |
(PID.TID 0000.0001) No. starts: 24 |
| 2872 |
(PID.TID 0000.0001) No. stops: 24 |
| 2873 |
(PID.TID 0000.0001) Seconds in section "THERMODYNAMICS [FORWARD_STEP]": |
| 2874 |
(PID.TID 0000.0001) User time: 0.0000000000000000 |
| 2875 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2876 |
(PID.TID 0000.0001) Wall clock time: 1.92546844482421875E-003 |
| 2877 |
(PID.TID 0000.0001) No. starts: 12 |
| 2878 |
(PID.TID 0000.0001) No. stops: 12 |
| 2879 |
(PID.TID 0000.0001) Seconds in section "TRC_CORRECTION_STEP [FORWARD_STEP]": |
| 2880 |
(PID.TID 0000.0001) User time: 0.0000000000000000 |
| 2881 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2882 |
(PID.TID 0000.0001) Wall clock time: 1.11818313598632813E-004 |
| 2883 |
(PID.TID 0000.0001) No. starts: 12 |
| 2884 |
(PID.TID 0000.0001) No. stops: 12 |
| 2885 |
(PID.TID 0000.0001) Seconds in section "MONITOR [FORWARD_STEP]": |
| 2886 |
(PID.TID 0000.0001) User time: 0.0000000000000000 |
| 2887 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2888 |
(PID.TID 0000.0001) Wall clock time: 1.31607055664062500E-004 |
| 2889 |
(PID.TID 0000.0001) No. starts: 12 |
| 2890 |
(PID.TID 0000.0001) No. stops: 12 |
| 2891 |
(PID.TID 0000.0001) Seconds in section "DO_THE_MODEL_IO [FORWARD_STEP]": |
| 2892 |
(PID.TID 0000.0001) User time: 1.99999999999995737E-002 |
| 2893 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2894 |
(PID.TID 0000.0001) Wall clock time: 2.75895595550537109E-002 |
| 2895 |
(PID.TID 0000.0001) No. starts: 12 |
| 2896 |
(PID.TID 0000.0001) No. stops: 12 |
| 2897 |
(PID.TID 0000.0001) Seconds in section "DO_WRITE_PICKUP [FORWARD_STEP]": |
| 2898 |
(PID.TID 0000.0001) User time: 0.0000000000000000 |
| 2899 |
(PID.TID 0000.0001) System time: 0.0000000000000000 |
| 2900 |
(PID.TID 0000.0001) Wall clock time: 3.37338447570800781E-003 |
| 2901 |
(PID.TID 0000.0001) No. starts: 12 |
| 2902 |
(PID.TID 0000.0001) No. stops: 12 |
| 2903 |
(PID.TID 0000.0001) // ====================================================== |
| 2904 |
(PID.TID 0000.0001) // Tile <-> Tile communication statistics |
| 2905 |
(PID.TID 0000.0001) // ====================================================== |
| 2906 |
(PID.TID 0000.0001) // o Tile number: 000001 |
| 2907 |
(PID.TID 0000.0001) // No. X exchanges = 0 |
| 2908 |
(PID.TID 0000.0001) // Max. X spins = 0 |
| 2909 |
(PID.TID 0000.0001) // Min. X spins = 1000000000 |
| 2910 |
(PID.TID 0000.0001) // Total. X spins = 0 |
| 2911 |
(PID.TID 0000.0001) // Avg. X spins = 0.00E+00 |
| 2912 |
(PID.TID 0000.0001) // No. Y exchanges = 0 |
| 2913 |
(PID.TID 0000.0001) // Max. Y spins = 0 |
| 2914 |
(PID.TID 0000.0001) // Min. Y spins = 1000000000 |
| 2915 |
(PID.TID 0000.0001) // Total. Y spins = 0 |
| 2916 |
(PID.TID 0000.0001) // Avg. Y spins = 0.00E+00 |
| 2917 |
(PID.TID 0000.0001) // o Tile number: 000002 |
| 2918 |
(PID.TID 0000.0001) // No. X exchanges = 0 |
| 2919 |
(PID.TID 0000.0001) // Max. X spins = 0 |
| 2920 |
(PID.TID 0000.0001) // Min. X spins = 1000000000 |
| 2921 |
(PID.TID 0000.0001) // Total. X spins = 0 |
| 2922 |
(PID.TID 0000.0001) // Avg. X spins = 0.00E+00 |
| 2923 |
(PID.TID 0000.0001) // No. Y exchanges = 0 |
| 2924 |
(PID.TID 0000.0001) // Max. Y spins = 0 |
| 2925 |
(PID.TID 0000.0001) // Min. Y spins = 1000000000 |
| 2926 |
(PID.TID 0000.0001) // Total. Y spins = 0 |
| 2927 |
(PID.TID 0000.0001) // Avg. Y spins = 0.00E+00 |
| 2928 |
(PID.TID 0000.0001) // o Tile number: 000003 |
| 2929 |
(PID.TID 0000.0001) // No. X exchanges = 0 |
| 2930 |
(PID.TID 0000.0001) // Max. X spins = 0 |
| 2931 |
(PID.TID 0000.0001) // Min. X spins = 1000000000 |
| 2932 |
(PID.TID 0000.0001) // Total. X spins = 0 |
| 2933 |
(PID.TID 0000.0001) // Avg. X spins = 0.00E+00 |
| 2934 |
(PID.TID 0000.0001) // No. Y exchanges = 0 |
| 2935 |
(PID.TID 0000.0001) // Max. Y spins = 0 |
| 2936 |
(PID.TID 0000.0001) // Min. Y spins = 1000000000 |
| 2937 |
(PID.TID 0000.0001) // Total. Y spins = 0 |
| 2938 |
(PID.TID 0000.0001) // Avg. Y spins = 0.00E+00 |
| 2939 |
(PID.TID 0000.0001) // o Tile number: 000004 |
| 2940 |
(PID.TID 0000.0001) // No. X exchanges = 0 |
| 2941 |
(PID.TID 0000.0001) // Max. X spins = 0 |
| 2942 |
(PID.TID 0000.0001) // Min. X spins = 1000000000 |
| 2943 |
(PID.TID 0000.0001) // Total. X spins = 0 |
| 2944 |
(PID.TID 0000.0001) // Avg. X spins = 0.00E+00 |
| 2945 |
(PID.TID 0000.0001) // No. Y exchanges = 0 |
| 2946 |
(PID.TID 0000.0001) // Max. Y spins = 0 |
| 2947 |
(PID.TID 0000.0001) // Min. Y spins = 1000000000 |
| 2948 |
(PID.TID 0000.0001) // Total. Y spins = 0 |
| 2949 |
(PID.TID 0000.0001) // Avg. Y spins = 0.00E+00 |
| 2950 |
(PID.TID 0000.0001) // o Thread number: 000001 |
| 2951 |
(PID.TID 0000.0001) // No. barriers = 46622 |
| 2952 |
(PID.TID 0000.0001) // Max. barrier spins = 1 |
| 2953 |
(PID.TID 0000.0001) // Min. barrier spins = 1 |
| 2954 |
(PID.TID 0000.0001) // Total barrier spins = 46622 |
| 2955 |
(PID.TID 0000.0001) // Avg. barrier spins = 1.00E+00 |
| 2956 |
PROGRAM MAIN: Execution ended Normally |
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