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76cd8733fa Oliv*0001 (PID.TID 0000.0001)
0002 (PID.TID 0000.0001) // ======================================================
0003 (PID.TID 0000.0001) // MITgcm UV
0004 (PID.TID 0000.0001) // =========
0005 (PID.TID 0000.0001) // ======================================================
0006 (PID.TID 0000.0001) // execution environment starting up...
0007 (PID.TID 0000.0001)
b15f6f1e9f Jean*0008 (PID.TID 0000.0001) // MITgcmUV version: checkpoint69j
0009 (PID.TID 0000.0001) // Build user: jm_c
0010 (PID.TID 0000.0001) // Build host: node073
0011 (PID.TID 0000.0001) // Build date: Thu Dec 25 21:49:03 EST 2025
76cd8733fa Oliv*0012 (PID.TID 0000.0001)
0013 (PID.TID 0000.0001) // =======================================================
0014 (PID.TID 0000.0001) // Execution Environment parameter file "eedata"
0015 (PID.TID 0000.0001) // =======================================================
0016 (PID.TID 0000.0001) ># Example "eedata" file
0017 (PID.TID 0000.0001) ># Lines beginning "#" are comments
0018 (PID.TID 0000.0001) ># nTx - No. threads per process in X
0019 (PID.TID 0000.0001) ># nTy - No. threads per process in Y
0020 (PID.TID 0000.0001) > &EEPARMS
0021 (PID.TID 0000.0001) > nTx=1,
0022 (PID.TID 0000.0001) > nTy=1,
f69308fe16 Oliv*0023 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0024 (PID.TID 0000.0001) ># Note: Some systems use & as the
0025 (PID.TID 0000.0001) ># namelist terminator. Other systems
0026 (PID.TID 0000.0001) ># use a / character (as shown here).
0027 (PID.TID 0000.0001)
0028 (PID.TID 0000.0001) // =======================================================
0029 (PID.TID 0000.0001) // Computational Grid Specification ( see files "SIZE.h" )
0030 (PID.TID 0000.0001) // ( and "eedata" )
0031 (PID.TID 0000.0001) // =======================================================
0032 (PID.TID 0000.0001) nPx = 1 ; /* No. processes in X */
0033 (PID.TID 0000.0001) nPy = 1 ; /* No. processes in Y */
0034 (PID.TID 0000.0001) nSx = 2 ; /* No. tiles in X per process */
0035 (PID.TID 0000.0001) nSy = 2 ; /* No. tiles in Y per process */
0036 (PID.TID 0000.0001) sNx = 45 ; /* Tile size in X */
0037 (PID.TID 0000.0001) sNy = 20 ; /* Tile size in Y */
0038 (PID.TID 0000.0001) OLx = 3 ; /* Tile overlap distance in X */
0039 (PID.TID 0000.0001) OLy = 3 ; /* Tile overlap distance in Y */
0040 (PID.TID 0000.0001) nTx = 1 ; /* No. threads in X per process */
0041 (PID.TID 0000.0001) nTy = 1 ; /* No. threads in Y per process */
0042 (PID.TID 0000.0001) Nr = 20 ; /* No. levels in the vertical */
0043 (PID.TID 0000.0001) Nx = 90 ; /* Total domain size in X ( = nPx*nSx*sNx ) */
0044 (PID.TID 0000.0001) Ny = 40 ; /* Total domain size in Y ( = nPy*nSy*sNy ) */
0045 (PID.TID 0000.0001) nTiles = 4 ; /* Total no. tiles per process ( = nSx*nSy ) */
0046 (PID.TID 0000.0001) nProcs = 1 ; /* Total no. processes ( = nPx*nPy ) */
0047 (PID.TID 0000.0001) nThreads = 1 ; /* Total no. threads per process ( = nTx*nTy ) */
0048 (PID.TID 0000.0001) usingMPI = F ; /* Flag used to control whether MPI is in use */
0049 (PID.TID 0000.0001) /* note: To execute a program with MPI calls */
0050 (PID.TID 0000.0001) /* it must be launched appropriately e.g */
0051 (PID.TID 0000.0001) /* "mpirun -np 64 ......" */
b15f6f1e9f Jean*0052 (PID.TID 0000.0001) useCoupler= F ; /* Flag used to control communications with */
76cd8733fa Oliv*0053 (PID.TID 0000.0001) /* other model components, through a coupler */
b15f6f1e9f Jean*0054 (PID.TID 0000.0001) useNest2W_parent = F ;/* Control 2-W Nesting comm */
0055 (PID.TID 0000.0001) useNest2W_child = F ;/* Control 2-W Nesting comm */
76cd8733fa Oliv*0056 (PID.TID 0000.0001) debugMode = F ; /* print debug msg. (sequence of S/R calls) */
0057 (PID.TID 0000.0001) printMapIncludesZeros= F ; /* print zeros in Std.Output maps */
0058 (PID.TID 0000.0001) maxLengthPrt1D= 65 /* maxLength of 1D array printed to StdOut */
0059 (PID.TID 0000.0001)
0060 (PID.TID 0000.0001) // ======================================================
0061 (PID.TID 0000.0001) // Mapping of tiles to threads
0062 (PID.TID 0000.0001) // ======================================================
0063 (PID.TID 0000.0001) // -o- Thread 1, tiles ( 1: 2, 1: 2)
0064 (PID.TID 0000.0001)
0065 (PID.TID 0000.0001) // ======================================================
0066 (PID.TID 0000.0001) // Tile <-> Tile connectvity table
0067 (PID.TID 0000.0001) // ======================================================
0068 (PID.TID 0000.0001) // Tile number: 000001 (process no. = 000000)
0069 (PID.TID 0000.0001) // WEST: Tile = 000002, Process = 000000, Comm = put
0070 (PID.TID 0000.0001) // bi = 000002, bj = 000001
0071 (PID.TID 0000.0001) // EAST: Tile = 000002, Process = 000000, Comm = put
0072 (PID.TID 0000.0001) // bi = 000002, bj = 000001
0073 (PID.TID 0000.0001) // SOUTH: Tile = 000003, Process = 000000, Comm = put
0074 (PID.TID 0000.0001) // bi = 000001, bj = 000002
0075 (PID.TID 0000.0001) // NORTH: Tile = 000003, Process = 000000, Comm = put
0076 (PID.TID 0000.0001) // bi = 000001, bj = 000002
0077 (PID.TID 0000.0001) // Tile number: 000002 (process no. = 000000)
0078 (PID.TID 0000.0001) // WEST: Tile = 000001, Process = 000000, Comm = put
0079 (PID.TID 0000.0001) // bi = 000001, bj = 000001
0080 (PID.TID 0000.0001) // EAST: Tile = 000001, Process = 000000, Comm = put
0081 (PID.TID 0000.0001) // bi = 000001, bj = 000001
0082 (PID.TID 0000.0001) // SOUTH: Tile = 000004, Process = 000000, Comm = put
0083 (PID.TID 0000.0001) // bi = 000002, bj = 000002
0084 (PID.TID 0000.0001) // NORTH: Tile = 000004, Process = 000000, Comm = put
0085 (PID.TID 0000.0001) // bi = 000002, bj = 000002
0086 (PID.TID 0000.0001) // Tile number: 000003 (process no. = 000000)
0087 (PID.TID 0000.0001) // WEST: Tile = 000004, Process = 000000, Comm = put
0088 (PID.TID 0000.0001) // bi = 000002, bj = 000002
0089 (PID.TID 0000.0001) // EAST: Tile = 000004, Process = 000000, Comm = put
0090 (PID.TID 0000.0001) // bi = 000002, bj = 000002
0091 (PID.TID 0000.0001) // SOUTH: Tile = 000001, Process = 000000, Comm = put
0092 (PID.TID 0000.0001) // bi = 000001, bj = 000001
0093 (PID.TID 0000.0001) // NORTH: Tile = 000001, Process = 000000, Comm = put
0094 (PID.TID 0000.0001) // bi = 000001, bj = 000001
0095 (PID.TID 0000.0001) // Tile number: 000004 (process no. = 000000)
0096 (PID.TID 0000.0001) // WEST: Tile = 000003, Process = 000000, Comm = put
0097 (PID.TID 0000.0001) // bi = 000001, bj = 000002
0098 (PID.TID 0000.0001) // EAST: Tile = 000003, Process = 000000, Comm = put
0099 (PID.TID 0000.0001) // bi = 000001, bj = 000002
0100 (PID.TID 0000.0001) // SOUTH: Tile = 000002, Process = 000000, Comm = put
0101 (PID.TID 0000.0001) // bi = 000002, bj = 000001
0102 (PID.TID 0000.0001) // NORTH: Tile = 000002, Process = 000000, Comm = put
0103 (PID.TID 0000.0001) // bi = 000002, bj = 000001
0104 (PID.TID 0000.0001)
0105 (PID.TID 0000.0001) INI_PARMS: opening model parameter file "data"
0106 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data
0107 (PID.TID 0000.0001) // =======================================================
0108 (PID.TID 0000.0001) // Parameter file "data"
0109 (PID.TID 0000.0001) // =======================================================
0110 (PID.TID 0000.0001) ># ====================
0111 (PID.TID 0000.0001) ># | Model parameters |
0112 (PID.TID 0000.0001) ># ====================
0113 (PID.TID 0000.0001) >#
0114 (PID.TID 0000.0001) ># Continuous equation parameters
0115 (PID.TID 0000.0001) > &PARM01
0116 (PID.TID 0000.0001) > tRef= 16.0 , 15.2 , 14.5 , 13.9 , 13.3 ,
0117 (PID.TID 0000.0001) > 12.4 , 11.3 , 9.9 , 8.4 , 6.7 ,
0118 (PID.TID 0000.0001) > 5.2 , 3.8 , 2.9 , 2.3 , 1.8 ,
0119 (PID.TID 0000.0001) > 1.5 , 1.1 , 0.8 , 0.66, 0.63,
0120 (PID.TID 0000.0001) > sRef= 34.65, 34.75, 34.82, 34.87, 34.90,
0121 (PID.TID 0000.0001) > 34.90, 34.86, 34.78, 34.69, 34.60,
0122 (PID.TID 0000.0001) > 34.58, 34.62, 34.68, 34.72, 34.73,
0123 (PID.TID 0000.0001) > 34.74, 34.73, 34.73, 34.72, 34.72,
0124 (PID.TID 0000.0001) > viscAr=1.E-3,
0125 (PID.TID 0000.0001) > viscAh=5.E5,
0126 (PID.TID 0000.0001) > no_slip_sides=.FALSE.,
0127 (PID.TID 0000.0001) > no_slip_bottom=.TRUE.,
0128 (PID.TID 0000.0001) > diffKhT=1.E3,
f93c9f973f Jean*0129 (PID.TID 0000.0001) >#- diffKrT unused when compiled with ALLOW_3D_DIFFKR
0130 (PID.TID 0000.0001) >#diffKrT=3.E-5,
76cd8733fa Oliv*0131 (PID.TID 0000.0001) > diffKhS=1.E3,
0132 (PID.TID 0000.0001) > diffKrS=3.E-5,
0133 (PID.TID 0000.0001) > tAlpha=2.E-4,
0134 (PID.TID 0000.0001) > sBeta =7.4E-4,
0135 (PID.TID 0000.0001) > eosType='LINEAR',
0136 (PID.TID 0000.0001) > gravity=9.81,
4cadabcaa8 Jean*0137 (PID.TID 0000.0001) > vectorInvariantMomentum=.TRUE.,
76cd8733fa Oliv*0138 (PID.TID 0000.0001) > implicitDiffusion=.TRUE.,
0139 (PID.TID 0000.0001) > rigidLid=.FALSE.,
0140 (PID.TID 0000.0001) > implicitFreeSurface=.TRUE.,
0141 (PID.TID 0000.0001) > exactConserv=.TRUE.,
0142 (PID.TID 0000.0001) > useCDscheme=.TRUE.,
0143 (PID.TID 0000.0001) >#-nonlinear free surface
0144 (PID.TID 0000.0001) > hFacInf=0.2,
0145 (PID.TID 0000.0001) > hFacSup=2.0,
0146 (PID.TID 0000.0001) > nonlinFreeSurf=3,
0147 (PID.TID 0000.0001) > select_rStar=1,
0148 (PID.TID 0000.0001) >#-I/O settings
0149 (PID.TID 0000.0001) > readBinaryPrec=32,
f69308fe16 Oliv*0150 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0151 (PID.TID 0000.0001) >
0152 (PID.TID 0000.0001) ># Elliptic solver parameters
0153 (PID.TID 0000.0001) > &PARM02
0154 (PID.TID 0000.0001) > cg2dMaxIters=200,
b15f6f1e9f Jean*0155 (PID.TID 0000.0001) > cg2dTargetResidual=1.E-17,
0156 (PID.TID 0000.0001) >#cg2dTargetResWunit=4.6E-23,
f69308fe16 Oliv*0157 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0158 (PID.TID 0000.0001) >
0159 (PID.TID 0000.0001) ># Time stepping parameters
0160 (PID.TID 0000.0001) > &PARM03
0161 (PID.TID 0000.0001) ># startTime = 49766400000.,
0162 (PID.TID 0000.0001) > startTime = 0.,
0163 (PID.TID 0000.0001) ># endTime = 49767264000.,
0164 (PID.TID 0000.0001) > endTime = 345600.,
0165 (PID.TID 0000.0001) > deltaTClock = 86400.,
0166 (PID.TID 0000.0001) > deltaTFreeSurf = 86400.,
f93c9f973f Jean*0167 (PID.TID 0000.0001) > deltaTMom = 2400.,
76cd8733fa Oliv*0168 (PID.TID 0000.0001) > tauCD = 321428.,
0169 (PID.TID 0000.0001) > cAdjFreq = -1.,
0170 (PID.TID 0000.0001) > abEps = 0.1,
0171 (PID.TID 0000.0001) > pChkptFreq = 86400000.,
0172 (PID.TID 0000.0001) > chkptFreq = 86400000.,
0173 (PID.TID 0000.0001) > dumpFreq = 86400.,
0174 (PID.TID 0000.0001) > monitorFreq = 0.,
0175 (PID.TID 0000.0001) > adjMonitorFreq = 0.,
0176 (PID.TID 0000.0001) >#
0177 (PID.TID 0000.0001) > tauThetaClimRelax = 2592000.,
0178 (PID.TID 0000.0001) > tauSaltClimRelax = 2592000.,
0179 (PID.TID 0000.0001) >#tauTr1ClimRelax = 31104000., <= moved to data.ptracers
f69308fe16 Oliv*0180 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0181 (PID.TID 0000.0001) >
0182 (PID.TID 0000.0001) ># Gridding parameters
0183 (PID.TID 0000.0001) > &PARM04
0184 (PID.TID 0000.0001) > usingSphericalPolarGrid=.TRUE.,
0185 (PID.TID 0000.0001) > delR= 50., 50., 55., 60.,
0186 (PID.TID 0000.0001) > 65., 70., 80., 95.,
0187 (PID.TID 0000.0001) > 120., 155., 200., 260.,
0188 (PID.TID 0000.0001) > 320., 400., 480., 570.,
0189 (PID.TID 0000.0001) > 655., 725., 775., 815.,
0190 (PID.TID 0000.0001) > ygOrigin=-80.,
0191 (PID.TID 0000.0001) > delY=40*4.,
0192 (PID.TID 0000.0001) > delX=90*4.,
f69308fe16 Oliv*0193 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0194 (PID.TID 0000.0001) >
0195 (PID.TID 0000.0001) ># Input datasets
0196 (PID.TID 0000.0001) > &PARM05
0197 (PID.TID 0000.0001) > hydrogThetaFile='theta.bin',
0198 (PID.TID 0000.0001) > hydrogSaltFile='salt.bin',
0199 (PID.TID 0000.0001) > bathyFile='topog.bin',
0200 (PID.TID 0000.0001) > zonalWindFile='windx.bin',
0201 (PID.TID 0000.0001) > meridWindFile='windy.bin',
0202 (PID.TID 0000.0001) > thetaClimFile='SST.bin'
0203 (PID.TID 0000.0001) > saltClimFile='SSS.bin'
f69308fe16 Oliv*0204 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0205 (PID.TID 0000.0001)
0206 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM01
0207 (PID.TID 0000.0001) INI_PARMS ; read PARM01 : OK
0208 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM02
0209 (PID.TID 0000.0001) INI_PARMS ; read PARM02 : OK
0210 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM03
0211 (PID.TID 0000.0001) INI_PARMS ; read PARM03 : OK
0212 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM04
0213 (PID.TID 0000.0001) INI_PARMS ; read PARM04 : OK
0214 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM05
0215 (PID.TID 0000.0001) INI_PARMS ; read PARM05 : OK
0216 (PID.TID 0000.0001) INI_PARMS: finished reading file "data"
0217 (PID.TID 0000.0001) PACKAGES_BOOT: opening data.pkg
0218 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.pkg
0219 (PID.TID 0000.0001) // =======================================================
0220 (PID.TID 0000.0001) // Parameter file "data.pkg"
0221 (PID.TID 0000.0001) // =======================================================
0222 (PID.TID 0000.0001) >#
0223 (PID.TID 0000.0001) ># ********
0224 (PID.TID 0000.0001) ># Packages
0225 (PID.TID 0000.0001) ># ********
0226 (PID.TID 0000.0001) > &PACKAGES
0227 (PID.TID 0000.0001) > usePtracers = .TRUE.,
0228 (PID.TID 0000.0001) > useGMRedi = .TRUE.,
0229 (PID.TID 0000.0001) > useKPP = .FALSE.,
0230 (PID.TID 0000.0001) > useGrdchk = .TRUE.,
f69308fe16 Oliv*0231 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0232 (PID.TID 0000.0001)
0233 (PID.TID 0000.0001) PACKAGES_BOOT: finished reading data.pkg
f93c9f973f Jean*0234 (PID.TID 0000.0001) PACKAGES_BOOT: On/Off package Summary
0235 -------- pkgs with a standard "usePKG" On/Off switch in "data.pkg": --------
0236 pkg/gmredi compiled and used ( useGMRedi = T )
0237 pkg/autodiff compiled and used ( useAUTODIFF = T )
0238 pkg/grdchk compiled and used ( useGrdchk = T )
0239 pkg/ctrl compiled and used ( useCTRL = T )
0240 pkg/ptracers compiled and used ( usePTRACERS = T )
0241 -------- pkgs without standard "usePKG" On/Off switch in "data.pkg": --------
0242 pkg/generic_advdiff compiled and used ( useGAD = T )
0243 pkg/mom_common compiled and used ( momStepping = T )
0244 pkg/mom_vecinv compiled and used ( +vectorInvariantMomentum = T )
0245 pkg/mom_fluxform compiled but not used ( & not vectorInvariantMom = F )
0246 pkg/cd_code compiled and used ( useCDscheme = T )
0247 pkg/debug compiled but not used ( debugMode = F )
0248 pkg/rw compiled and used
0249 pkg/mdsio compiled and used
0250 pkg/autodiff compiled and used
0251 pkg/openad compiled and used
0252 pkg/cost compiled and used
0253 (PID.TID 0000.0001) PACKAGES_BOOT: End of package Summary
0254 (PID.TID 0000.0001)
76cd8733fa Oliv*0255 (PID.TID 0000.0001) GM_READPARMS: opening data.gmredi
0256 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.gmredi
0257 (PID.TID 0000.0001) // =======================================================
0258 (PID.TID 0000.0001) // Parameter file "data.gmredi"
0259 (PID.TID 0000.0001) // =======================================================
0260 (PID.TID 0000.0001) ># GM+Redi package parameters:
0261 (PID.TID 0000.0001) ># GM_Small_Number :: epsilon used in computing the slope
0262 (PID.TID 0000.0001) ># GM_slopeSqCutoff :: slope^2 cut-off value
0263 (PID.TID 0000.0001) >
0264 (PID.TID 0000.0001) >#-from MOM :
0265 (PID.TID 0000.0001) ># GM_background_K: G & Mc.W diffusion coefficient
0266 (PID.TID 0000.0001) ># GM_maxSlope : max slope of isopycnals
0267 (PID.TID 0000.0001) ># GM_Scrit : transition for scaling diffusion coefficient
0268 (PID.TID 0000.0001) ># GM_Sd : half width scaling for diffusion coefficient
0269 (PID.TID 0000.0001) ># GM_taper_scheme: slope clipping or one of the tapering schemes
0270 (PID.TID 0000.0001) ># GM_Kmin_horiz : horizontal diffusion minimum value
0271 (PID.TID 0000.0001) >
0272 (PID.TID 0000.0001) >#-Option parameters (needs to "define" options in GMREDI_OPTIONS.h")
0273 (PID.TID 0000.0001) ># GM_isopycK : isopycnal diffusion coefficient (default=GM_background_K)
0274 (PID.TID 0000.0001) ># GM_AdvForm : turn on GM Advective form (default=Skew flux form)
0275 (PID.TID 0000.0001) >
0276 (PID.TID 0000.0001) > &GM_PARM01
0277 (PID.TID 0000.0001) > GM_Small_Number = 1.D-20,
0278 (PID.TID 0000.0001) > GM_slopeSqCutoff = 1.D+08,
0279 (PID.TID 0000.0001) > GM_AdvForm = .TRUE.,
0280 (PID.TID 0000.0001) > GM_isopycK = 1.1D+3,
0281 (PID.TID 0000.0001) > GM_background_K = 0.9D+3,
0282 (PID.TID 0000.0001) ># GM_background_K = 1.D+3,
0283 (PID.TID 0000.0001) > GM_taper_scheme = 'dm95',
0284 (PID.TID 0000.0001) > GM_maxSlope = 1.D-2,
0285 (PID.TID 0000.0001) > GM_Kmin_horiz = 50.,
0286 (PID.TID 0000.0001) > GM_Scrit = 4.D-3,
0287 (PID.TID 0000.0001) > GM_Sd = 1.D-3,
0288 (PID.TID 0000.0001) ># GM_Visbeck_alpha = 1.5D-2,
0289 (PID.TID 0000.0001) > GM_Visbeck_alpha = 0.,
0290 (PID.TID 0000.0001) > GM_Visbeck_length = 2.D+5,
0291 (PID.TID 0000.0001) > GM_Visbeck_depth = 1.D+3,
0292 (PID.TID 0000.0001) > GM_Visbeck_maxval_K= 2.5D+3,
f69308fe16 Oliv*0293 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0294 (PID.TID 0000.0001) >
0295 (PID.TID 0000.0001) >
0296 (PID.TID 0000.0001)
0297 (PID.TID 0000.0001) GM_READPARMS: finished reading data.gmredi
0298 (PID.TID 0000.0001) PTRACERS_READPARMS: opening data.ptracers
0299 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.ptracers
0300 (PID.TID 0000.0001) // =======================================================
0301 (PID.TID 0000.0001) // Parameter file "data.ptracers"
0302 (PID.TID 0000.0001) // =======================================================
0303 (PID.TID 0000.0001) ># This set-up makes is supposed to immitate salt. That is, PTRACER(:,:,:,1)
0304 (PID.TID 0000.0001) ># should look exactly like S(:,:,:).
0305 (PID.TID 0000.0001) > &PTRACERS_PARM01
0306 (PID.TID 0000.0001) > PTRACERS_numInUse=1,
0307 (PID.TID 0000.0001) > PTRACERS_advScheme=2,
0308 (PID.TID 0000.0001) > PTRACERS_diffKh=1.E3,
0309 (PID.TID 0000.0001) > PTRACERS_diffKr=3.E-5,
0310 (PID.TID 0000.0001) > PTRACERS_initialFile=' ',
0311 (PID.TID 0000.0001) > PTRACERS_ref=1., 19*0.,
0312 (PID.TID 0000.0001) > tauTr1ClimRelax= 31104000.,
f69308fe16 Oliv*0313 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0314 (PID.TID 0000.0001)
0315 (PID.TID 0000.0001) PTRACERS_READPARMS: finished reading data.ptracers
0316 (PID.TID 0000.0001) AUTODIFF_READPARMS: opening data.autodiff
0317 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.autodiff
0318 (PID.TID 0000.0001) // =======================================================
0319 (PID.TID 0000.0001) // Parameter file "data.autodiff"
0320 (PID.TID 0000.0001) // =======================================================
0321 (PID.TID 0000.0001) ># =========================
0322 (PID.TID 0000.0001) ># pkg AUTODIFF parameters :
0323 (PID.TID 0000.0001) ># =========================
0324 (PID.TID 0000.0001) ># inAdExact :: get an exact adjoint (no approximation) (def=.True.)
0325 (PID.TID 0000.0001) >#
0326 (PID.TID 0000.0001) > &AUTODIFF_PARM01
0327 (PID.TID 0000.0001) ># inAdExact = .FALSE.,
f69308fe16 Oliv*0328 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0329 (PID.TID 0000.0001)
0330 (PID.TID 0000.0001) AUTODIFF_READPARMS: finished reading data.autodiff
0331 (PID.TID 0000.0001) // ===================================
0332 (PID.TID 0000.0001) // AUTODIFF parameters :
0333 (PID.TID 0000.0001) // ===================================
0334 (PID.TID 0000.0001) inAdExact = /* get an exact adjoint (no approximation) */
0335 (PID.TID 0000.0001) T
0336 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0337 (PID.TID 0000.0001) useApproxAdvectionInAdMode = /* approximate AD-advection */
0338 (PID.TID 0000.0001) F
0339 (PID.TID 0000.0001) ;
0340 (PID.TID 0000.0001) cg2dFullAdjoint = /* use full hand written cg2d adjoint (no approximation) */
0341 (PID.TID 0000.0001) F
0342 (PID.TID 0000.0001) ;
76cd8733fa Oliv*0343 (PID.TID 0000.0001) useKPPinAdMode = /* use KPP in adjoint mode */
0344 (PID.TID 0000.0001) F
0345 (PID.TID 0000.0001) ;
0346 (PID.TID 0000.0001) useGMRediInAdMode = /* use GMRedi in adjoint mode */
0347 (PID.TID 0000.0001) T
0348 (PID.TID 0000.0001) ;
0349 (PID.TID 0000.0001) useSEAICEinAdMode = /* use SEAICE in adjoint mode */
0350 (PID.TID 0000.0001) F
0351 (PID.TID 0000.0001) ;
0352 (PID.TID 0000.0001) useGGL90inAdMode = /* use GGL90 in adjoint mode */
0353 (PID.TID 0000.0001) F
0354 (PID.TID 0000.0001) ;
0355 (PID.TID 0000.0001) useSALT_PLUMEinAdMode = /* use SALT_PLUME in adjoint mode */
0356 (PID.TID 0000.0001) F
0357 (PID.TID 0000.0001) ;
0358 (PID.TID 0000.0001) dumpAdVarExch = /* control adexch before dumpinp */
0359 (PID.TID 0000.0001) 2
0360 (PID.TID 0000.0001) ;
0361 (PID.TID 0000.0001) mon_AdVarExch = /* control adexch before monitor */
0362 (PID.TID 0000.0001) 2
0363 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0364 (PID.TID 0000.0001) viscFacInFw = /* viscosity factor for forward model */
0365 (PID.TID 0000.0001) 1.000000000000000E+00
0366 (PID.TID 0000.0001) ;
f93c9f973f Jean*0367 (PID.TID 0000.0001) viscFacInAd = /* viscosity factor for adjoint */
0368 (PID.TID 0000.0001) 1.000000000000000E+00
0369 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0370 (PID.TID 0000.0001) SIregFacInAd = /* sea ice factor for adjoint model */
0371 (PID.TID 0000.0001) 1.234567000000000E+05
0372 (PID.TID 0000.0001) ;
0373 (PID.TID 0000.0001) SIregFacInFw = /* sea ice factor for forward model */
0374 (PID.TID 0000.0001) 1.234567000000000E+05
0375 (PID.TID 0000.0001) ;
76cd8733fa Oliv*0376 (PID.TID 0000.0001)
0377 (PID.TID 0000.0001) OPTIM_READPARMS: opening data.optim
0378 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.optim
0379 (PID.TID 0000.0001) // =======================================================
0380 (PID.TID 0000.0001) // Parameter file "data.optim"
0381 (PID.TID 0000.0001) // =======================================================
0382 (PID.TID 0000.0001) >#
0383 (PID.TID 0000.0001) ># ********************************
0384 (PID.TID 0000.0001) ># Off-line optimization parameters
0385 (PID.TID 0000.0001) ># ********************************
0386 (PID.TID 0000.0001) > &OPTIM
0387 (PID.TID 0000.0001) > optimcycle=0,
f69308fe16 Oliv*0388 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0389 (PID.TID 0000.0001)
0390 (PID.TID 0000.0001) OPTIM_READPARMS: finished reading data.optim
0391 (PID.TID 0000.0001) CTRL_READPARMS: opening data.ctrl
0392 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.ctrl
0393 (PID.TID 0000.0001) // =======================================================
0394 (PID.TID 0000.0001) // Parameter file "data.ctrl"
0395 (PID.TID 0000.0001) // =======================================================
0396 (PID.TID 0000.0001) >#
0397 (PID.TID 0000.0001) >#
0398 (PID.TID 0000.0001) ># *********************
0399 (PID.TID 0000.0001) ># ECCO controlvariables
0400 (PID.TID 0000.0001) ># *********************
0401 (PID.TID 0000.0001) > &CTRL_NML
f69308fe16 Oliv*0402 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0403 (PID.TID 0000.0001) >#
0404 (PID.TID 0000.0001) ># *********************
0405 (PID.TID 0000.0001) ># names for ctrl_pack/unpack
0406 (PID.TID 0000.0001) ># *********************
0407 (PID.TID 0000.0001) > &CTRL_PACKNAMES
f69308fe16 Oliv*0408 (PID.TID 0000.0001) > /
0409 (PID.TID 0000.0001) >#
0410 (PID.TID 0000.0001) ># *********************
0411 (PID.TID 0000.0001) ># names for CTRL_GENARR, CTRL_GENTIM
0412 (PID.TID 0000.0001) ># *********************
76cd8733fa Oliv*0413 (PID.TID 0000.0001) > &CTRL_NML_GENARR
b15f6f1e9f Jean*0414 (PID.TID 0000.0001) ># Since everything is hard coded, the following has no effect but is
0415 (PID.TID 0000.0001) ># just meant to document the control variables;
0416 (PID.TID 0000.0001) ># the forcing controls are constant in time so they are realized
0417 (PID.TID 0000.0001) ># via genarr2d rather than gentim2d and hard coded in
0418 (PID.TID 0000.0001) ># ctrl_map_ini_genarr.F
0419 (PID.TID 0000.0001) > xx_genarr2d_file(1) = 'xx_qnet',
0420 (PID.TID 0000.0001) > xx_genarr2d_weight(1) = 'ones_64b.bin',
0421 (PID.TID 0000.0001) >#xx_gentim2d_startdate1(1) = 19920101,
0422 (PID.TID 0000.0001) >#xx_gentim2d_startdate2(1) = 000000,
0423 (PID.TID 0000.0001) >#xx_gentim2d_period(1) = 0.0,
0424 (PID.TID 0000.0001) >#
0425 (PID.TID 0000.0001) > xx_genarr2d_file(2) = 'xx_empmr',
0426 (PID.TID 0000.0001) > xx_genarr2d_weight(2) = 'ones_64b.bin',
0427 (PID.TID 0000.0001) >#xx_gentim2d_startdate1(2) = 19920101,
0428 (PID.TID 0000.0001) >#xx_gentim2d_startdate2(2) = 000000,
0429 (PID.TID 0000.0001) >#xx_gentim2d_period(2) = 0.0,
0430 (PID.TID 0000.0001) >#
0431 (PID.TID 0000.0001) > xx_genarr2d_file(3) = 'xx_fu',
0432 (PID.TID 0000.0001) > xx_genarr2d_weight(3) = 'ones_64b.bin',
0433 (PID.TID 0000.0001) >#xx_gentim2d_startdate1(3) = 19920101,
0434 (PID.TID 0000.0001) >#xx_gentim2d_startdate2(3) = 000000,
0435 (PID.TID 0000.0001) >#xx_gentim2d_period(3) = 0.0,
0436 (PID.TID 0000.0001) >#
0437 (PID.TID 0000.0001) > xx_genarr2d_file(4) = 'xx_fv',
0438 (PID.TID 0000.0001) > xx_genarr2d_weight(4) = 'ones_64b.bin',
0439 (PID.TID 0000.0001) >#xx_gentim2d_startdate1(4) = 19920101,
0440 (PID.TID 0000.0001) >#xx_gentim2d_startdate2(4) = 000000,
0441 (PID.TID 0000.0001) >#xx_gentim2d_period(4) = 0.0,
0442 (PID.TID 0000.0001) >#
0443 (PID.TID 0000.0001) > xx_genarr3d_weight(1) = 'ones_64b.bin',
0444 (PID.TID 0000.0001) > xx_genarr3d_file(1) = 'xx_theta',
0445 (PID.TID 0000.0001) > xx_genarr3d_weight(2) = 'ones_64b.bin',
0446 (PID.TID 0000.0001) > xx_genarr3d_file(2) = 'xx_salt',
0447 (PID.TID 0000.0001) > xx_genarr3d_weight(3) = 'ones_64b.bin',
0448 (PID.TID 0000.0001) > xx_genarr3d_file(3) = 'xx_diffKr',
0449 (PID.TID 0000.0001) > xx_genarr3d_weight(4) = 'ones_64b.bin',
0450 (PID.TID 0000.0001) > xx_genarr3d_file(4) = 'xx_ptr1',
f69308fe16 Oliv*0451 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0452 (PID.TID 0000.0001)
0453 (PID.TID 0000.0001) CTRL_READPARMS: finished reading data.ctrl
b15f6f1e9f Jean*0454 (PID.TID 0000.0001) read-write ctrl files from current run directory
76cd8733fa Oliv*0455 (PID.TID 0000.0001) COST_READPARMS: opening data.cost
0456 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.cost
0457 (PID.TID 0000.0001) // =======================================================
0458 (PID.TID 0000.0001) // Parameter file "data.cost"
0459 (PID.TID 0000.0001) // =======================================================
0460 (PID.TID 0000.0001) >#
0461 (PID.TID 0000.0001) >#
0462 (PID.TID 0000.0001) ># ******************
0463 (PID.TID 0000.0001) ># ECCO cost function
0464 (PID.TID 0000.0001) ># ******************
0465 (PID.TID 0000.0001) > &COST_NML
0466 (PID.TID 0000.0001) >#
0467 (PID.TID 0000.0001) > mult_tracer = 1.,
0468 (PID.TID 0000.0001) > mult_test = 1.,
0469 (PID.TID 0000.0001) > mult_atl = 1.,
f69308fe16 Oliv*0470 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0471 (PID.TID 0000.0001)
0472 (PID.TID 0000.0001) COST_READPARMS: finished reading data.cost
b15f6f1e9f Jean*0473 (PID.TID 0000.0001) // =======================================================
0474 (PID.TID 0000.0001) // cost configuration >>> START <<<
0475 (PID.TID 0000.0001) // =======================================================
0476 (PID.TID 0000.0001) lastinterval = /* cost interval over which to average ( s ). */
0477 (PID.TID 0000.0001) 2.592000000000000E+06
0478 (PID.TID 0000.0001) ;
0479 (PID.TID 0000.0001) cost_mask_file = /* file name of cost mask file */
0480 (PID.TID 0000.0001) ''
0481 (PID.TID 0000.0001) ;
0482 (PID.TID 0000.0001) // =======================================================
0483 (PID.TID 0000.0001) // cost configuration >>> END <<<
0484 (PID.TID 0000.0001) // =======================================================
0485 (PID.TID 0000.0001)
76cd8733fa Oliv*0486 (PID.TID 0000.0001) GRDCHK_READPARMS: opening data.grdchk
0487 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.grdchk
0488 (PID.TID 0000.0001) // =======================================================
0489 (PID.TID 0000.0001) // Parameter file "data.grdchk"
0490 (PID.TID 0000.0001) // =======================================================
0491 (PID.TID 0000.0001) >
0492 (PID.TID 0000.0001) ># *******************
0493 (PID.TID 0000.0001) ># ECCO gradient check
0494 (PID.TID 0000.0001) ># *******************
0495 (PID.TID 0000.0001) > &GRDCHK_NML
0496 (PID.TID 0000.0001) > grdchk_eps = 1.d-4,
0497 (PID.TID 0000.0001) >### nbeg = 1,
0498 (PID.TID 0000.0001) > iGloPos = 15,
0499 (PID.TID 0000.0001) > jGloPos = 5,
0500 (PID.TID 0000.0001) > kGloPos = 4,
0501 (PID.TID 0000.0001) > iGloTile = 1,
0502 (PID.TID 0000.0001) > jgloTile = 1,
0503 (PID.TID 0000.0001) > nstep = 1,
0504 (PID.TID 0000.0001) > nend = 4,
b15f6f1e9f Jean*0505 (PID.TID 0000.0001) > grdchkvarname = "xx_ptr1",
f69308fe16 Oliv*0506 (PID.TID 0000.0001) > /
76cd8733fa Oliv*0507 (PID.TID 0000.0001)
0508 (PID.TID 0000.0001) GRDCHK_READPARMS: finished reading data.grdchk
0509 (PID.TID 0000.0001) SET_PARMS: done
0510 (PID.TID 0000.0001) Enter INI_VERTICAL_GRID: setInterFDr= T ; setCenterDr= F
0511 (PID.TID 0000.0001) GAD_INIT_FIXED: GAD_OlMinSize= 1 0 1
0512 (PID.TID 0000.0001)
0513 (PID.TID 0000.0001) // ===================================
0514 (PID.TID 0000.0001) // GAD parameters :
0515 (PID.TID 0000.0001) // ===================================
0516 (PID.TID 0000.0001) tempAdvScheme = /* Temp. Horiz.Advection scheme selector */
0517 (PID.TID 0000.0001) 2
0518 (PID.TID 0000.0001) ;
0519 (PID.TID 0000.0001) tempVertAdvScheme = /* Temp. Vert. Advection scheme selector */
0520 (PID.TID 0000.0001) 2
0521 (PID.TID 0000.0001) ;
0522 (PID.TID 0000.0001) tempMultiDimAdvec = /* use Muti-Dim Advec method for Temp */
0523 (PID.TID 0000.0001) F
0524 (PID.TID 0000.0001) ;
0525 (PID.TID 0000.0001) tempSOM_Advection = /* use 2nd Order Moment Advection for Temp */
0526 (PID.TID 0000.0001) F
0527 (PID.TID 0000.0001) ;
0528 (PID.TID 0000.0001) AdamsBashforthGt = /* apply Adams-Bashforth extrapolation on Gt */
0529 (PID.TID 0000.0001) T
0530 (PID.TID 0000.0001) ;
0531 (PID.TID 0000.0001) AdamsBashforth_T = /* apply Adams-Bashforth extrapolation on Temp */
0532 (PID.TID 0000.0001) F
0533 (PID.TID 0000.0001) ;
0534 (PID.TID 0000.0001) saltAdvScheme = /* Salt. Horiz.advection scheme selector */
0535 (PID.TID 0000.0001) 2
0536 (PID.TID 0000.0001) ;
0537 (PID.TID 0000.0001) saltVertAdvScheme = /* Salt. Vert. Advection scheme selector */
0538 (PID.TID 0000.0001) 2
0539 (PID.TID 0000.0001) ;
0540 (PID.TID 0000.0001) saltMultiDimAdvec = /* use Muti-Dim Advec method for Salt */
0541 (PID.TID 0000.0001) F
0542 (PID.TID 0000.0001) ;
0543 (PID.TID 0000.0001) saltSOM_Advection = /* use 2nd Order Moment Advection for Salt */
0544 (PID.TID 0000.0001) F
0545 (PID.TID 0000.0001) ;
0546 (PID.TID 0000.0001) AdamsBashforthGs = /* apply Adams-Bashforth extrapolation on Gs */
0547 (PID.TID 0000.0001) T
0548 (PID.TID 0000.0001) ;
0549 (PID.TID 0000.0001) AdamsBashforth_S = /* apply Adams-Bashforth extrapolation on Salt */
0550 (PID.TID 0000.0001) F
0551 (PID.TID 0000.0001) ;
0552 (PID.TID 0000.0001) // ===================================
b15f6f1e9f Jean*0553 (PID.TID 0000.0001) CTRL_INIT_FIXED: ivar= 8 = number of CTRL variables defined
0554 (PID.TID 0000.0001)
0555 (PID.TID 0000.0001) ctrl-wet 1: nvarlength = 160608
76cd8733fa Oliv*0556 (PID.TID 0000.0001) ctrl-wet 2: surface wet C = 616
0557 (PID.TID 0000.0001) ctrl-wet 3: surface wet W = 586
0558 (PID.TID 0000.0001) ctrl-wet 4: surface wet S = 557
0559 (PID.TID 0000.0001) ctrl-wet 5: 3D wet points = 10880
b15f6f1e9f Jean*0560 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 1 1
0561 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 2 1
0562 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 3 1
0563 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 4 1
0564 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 5 1
0565 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 6 1
0566 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 7 1
0567 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 8 1
0568 (PID.TID 0000.0001) ctrl-wet 6: no recs for ivar = 9 0
76cd8733fa Oliv*0569 (PID.TID 0000.0001) ctrl-wet -------------------------------------------------
b15f6f1e9f Jean*0570 (PID.TID 0000.0001) ctrl-wet 13: global nvarlength for Nr = 20 160608
76cd8733fa Oliv*0571 (PID.TID 0000.0001) ctrl-wet -------------------------------------------------
b15f6f1e9f Jean*0572 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 1 2158 2004 2052
0573 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 2 2155 2003 2049
0574 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 3 2154 2002 2048
0575 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 4 2151 2000 2047
0576 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 5 2148 1997 2044
0577 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 6 2143 1993 2040
0578 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 7 2143 1993 2040
0579 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 8 2141 1993 2038
0580 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 9 2139 1991 2036
0581 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 10 2134 1986 2030
0582 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 11 2126 1977 2022
0583 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 12 2108 1961 2003
0584 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 13 2101 1954 1995
0585 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 14 2086 1938 1981
0586 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 15 2054 1903 1946
0587 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 16 1998 1841 1879
0588 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 17 1844 1650 1702
0589 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 18 1180 951 996
0590 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 19 754 556 602
0591 (PID.TID 0000.0001) ctrl-wet 14: global nWet C/S/W k= 20 277 168 186
76cd8733fa Oliv*0592 (PID.TID 0000.0001) ctrl-wet -------------------------------------------------
b15f6f1e9f Jean*0593 (PID.TID 0000.0001) ctrl_init_wet: no. of control variables: 8
0594 (PID.TID 0000.0001) ctrl_init_wet: control vector length: 160608
f93c9f973f Jean*0595 (PID.TID 0000.0001)
0596 (PID.TID 0000.0001) // =======================================================
0597 (PID.TID 0000.0001) // control vector configuration >>> START <<<
0598 (PID.TID 0000.0001) // =======================================================
0599 (PID.TID 0000.0001)
0600 (PID.TID 0000.0001) Total number of ocean points per tile:
0601 (PID.TID 0000.0001) --------------------------------------
b15f6f1e9f Jean*0602 (PID.TID 0000.0001) sNx*sNy*Nr = 18000
f93c9f973f Jean*0603 (PID.TID 0000.0001)
0604 (PID.TID 0000.0001) Number of ocean points per tile:
0605 (PID.TID 0000.0001) --------------------------------
b15f6f1e9f Jean*0606 (PID.TID 0000.0001) bi,bj,#(c/s/w): 001 001 10880 9660 10196
0607 (PID.TID 0000.0001) bi,bj,#(c/s/w): 002 001 12622 11628 12169
0608 (PID.TID 0000.0001) bi,bj,#(c/s/w): 001 002 4933 4598 4381
0609 (PID.TID 0000.0001) bi,bj,#(c/s/w): 002 002 9559 8975 8990
0610 (PID.TID 0000.0001)
0611 (PID.TID 0000.0001) -> 2d control, genarr2d no. 1 is in use
0612 (PID.TID 0000.0001) file = xx_qnet
0613 (PID.TID 0000.0001) ncvartype = Arr2D
0614 (PID.TID 0000.0001) index = 1 (use this for pkg/grdchk)
0615 (PID.TID 0000.0001) ncvarindex = 1
0616 (PID.TID 0000.0001) weight = ones_64b.bin
0617 (PID.TID 0000.0001)
0618 (PID.TID 0000.0001) -> 2d control, genarr2d no. 2 is in use
0619 (PID.TID 0000.0001) file = xx_empmr
0620 (PID.TID 0000.0001) ncvartype = Arr2D
0621 (PID.TID 0000.0001) index = 2 (use this for pkg/grdchk)
0622 (PID.TID 0000.0001) ncvarindex = 2
0623 (PID.TID 0000.0001) weight = ones_64b.bin
0624 (PID.TID 0000.0001)
0625 (PID.TID 0000.0001) -> 2d control, genarr2d no. 3 is in use
0626 (PID.TID 0000.0001) file = xx_fu
0627 (PID.TID 0000.0001) ncvartype = Arr2D
0628 (PID.TID 0000.0001) index = 3 (use this for pkg/grdchk)
0629 (PID.TID 0000.0001) ncvarindex = 3
0630 (PID.TID 0000.0001) weight = ones_64b.bin
0631 (PID.TID 0000.0001)
0632 (PID.TID 0000.0001) -> 2d control, genarr2d no. 4 is in use
0633 (PID.TID 0000.0001) file = xx_fv
0634 (PID.TID 0000.0001) ncvartype = Arr2D
0635 (PID.TID 0000.0001) index = 4 (use this for pkg/grdchk)
0636 (PID.TID 0000.0001) ncvarindex = 4
0637 (PID.TID 0000.0001) weight = ones_64b.bin
0638 (PID.TID 0000.0001)
0639 (PID.TID 0000.0001) -> 3d control, genarr3d no. 1 is in use
0640 (PID.TID 0000.0001) file = xx_theta
0641 (PID.TID 0000.0001) ncvartype = Arr3D
0642 (PID.TID 0000.0001) index = 5 (use this for pkg/grdchk)
0643 (PID.TID 0000.0001) ncvarindex = 1
0644 (PID.TID 0000.0001) weight = ones_64b.bin
0645 (PID.TID 0000.0001)
0646 (PID.TID 0000.0001) -> 3d control, genarr3d no. 2 is in use
0647 (PID.TID 0000.0001) file = xx_salt
0648 (PID.TID 0000.0001) ncvartype = Arr3D
0649 (PID.TID 0000.0001) index = 6 (use this for pkg/grdchk)
0650 (PID.TID 0000.0001) ncvarindex = 2
0651 (PID.TID 0000.0001) weight = ones_64b.bin
0652 (PID.TID 0000.0001)
0653 (PID.TID 0000.0001) -> 3d control, genarr3d no. 3 is in use
0654 (PID.TID 0000.0001) file = xx_diffKr
0655 (PID.TID 0000.0001) ncvartype = Arr3D
0656 (PID.TID 0000.0001) index = 7 (use this for pkg/grdchk)
0657 (PID.TID 0000.0001) ncvarindex = 3
0658 (PID.TID 0000.0001) weight = ones_64b.bin
0659 (PID.TID 0000.0001)
0660 (PID.TID 0000.0001) -> 3d control, genarr3d no. 4 is in use
0661 (PID.TID 0000.0001) file = xx_ptr1
0662 (PID.TID 0000.0001) ncvartype = Arr3D
0663 (PID.TID 0000.0001) index = 8 (use this for pkg/grdchk)
0664 (PID.TID 0000.0001) ncvarindex = 4
0665 (PID.TID 0000.0001) weight = ones_64b.bin
f93c9f973f Jean*0666 (PID.TID 0000.0001)
0667 (PID.TID 0000.0001) // =======================================================
0668 (PID.TID 0000.0001) // control vector configuration >>> END <<<
0669 (PID.TID 0000.0001) // =======================================================
0670 (PID.TID 0000.0001)
76cd8733fa Oliv*0671 (PID.TID 0000.0001) INI_CG2D: CG2D normalisation factor = 8.8319877372200804E-05
0672 (PID.TID 0000.0001)
0673 (PID.TID 0000.0001) // =======================================================
0674 (PID.TID 0000.0001) // Model configuration
0675 (PID.TID 0000.0001) // =======================================================
0676 (PID.TID 0000.0001) //
0677 (PID.TID 0000.0001) // "Physical" paramters ( PARM01 in namelist )
0678 (PID.TID 0000.0001) //
0679 (PID.TID 0000.0001) buoyancyRelation = /* Type of relation to get Buoyancy */
0680 (PID.TID 0000.0001) 'OCEANIC'
0681 (PID.TID 0000.0001) ;
0682 (PID.TID 0000.0001) fluidIsAir = /* fluid major constituent is Air */
0683 (PID.TID 0000.0001) F
0684 (PID.TID 0000.0001) ;
0685 (PID.TID 0000.0001) fluidIsWater = /* fluid major constituent is Water */
0686 (PID.TID 0000.0001) T
0687 (PID.TID 0000.0001) ;
0688 (PID.TID 0000.0001) usingPCoords = /* use p (or p*) vertical coordinate */
0689 (PID.TID 0000.0001) F
0690 (PID.TID 0000.0001) ;
0691 (PID.TID 0000.0001) usingZCoords = /* use z (or z*) vertical coordinate */
0692 (PID.TID 0000.0001) T
0693 (PID.TID 0000.0001) ;
0694 (PID.TID 0000.0001) tRef = /* Reference temperature profile ( oC or K ) */
0695 (PID.TID 0000.0001) 1.600000000000000E+01, /* K = 1 */
0696 (PID.TID 0000.0001) 1.520000000000000E+01, /* K = 2 */
0697 (PID.TID 0000.0001) 1.450000000000000E+01, /* K = 3 */
0698 (PID.TID 0000.0001) 1.390000000000000E+01, /* K = 4 */
0699 (PID.TID 0000.0001) 1.330000000000000E+01, /* K = 5 */
0700 (PID.TID 0000.0001) 1.240000000000000E+01, /* K = 6 */
0701 (PID.TID 0000.0001) 1.130000000000000E+01, /* K = 7 */
0702 (PID.TID 0000.0001) 9.900000000000000E+00, /* K = 8 */
0703 (PID.TID 0000.0001) 8.400000000000000E+00, /* K = 9 */
0704 (PID.TID 0000.0001) 6.700000000000000E+00, /* K = 10 */
0705 (PID.TID 0000.0001) 5.200000000000000E+00, /* K = 11 */
0706 (PID.TID 0000.0001) 3.800000000000000E+00, /* K = 12 */
0707 (PID.TID 0000.0001) 2.900000000000000E+00, /* K = 13 */
0708 (PID.TID 0000.0001) 2.300000000000000E+00, /* K = 14 */
0709 (PID.TID 0000.0001) 1.800000000000000E+00, /* K = 15 */
0710 (PID.TID 0000.0001) 1.500000000000000E+00, /* K = 16 */
0711 (PID.TID 0000.0001) 1.100000000000000E+00, /* K = 17 */
0712 (PID.TID 0000.0001) 8.000000000000000E-01, /* K = 18 */
0713 (PID.TID 0000.0001) 6.600000000000000E-01, /* K = 19 */
0714 (PID.TID 0000.0001) 6.300000000000000E-01 /* K = 20 */
0715 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0716 (PID.TID 0000.0001) sRef = /* Reference salinity profile ( g/kg ) */
76cd8733fa Oliv*0717 (PID.TID 0000.0001) 3.465000000000000E+01, /* K = 1 */
0718 (PID.TID 0000.0001) 3.475000000000000E+01, /* K = 2 */
0719 (PID.TID 0000.0001) 3.482000000000000E+01, /* K = 3 */
0720 (PID.TID 0000.0001) 3.487000000000000E+01, /* K = 4 */
0721 (PID.TID 0000.0001) 2 @ 3.490000000000000E+01, /* K = 5: 6 */
0722 (PID.TID 0000.0001) 3.486000000000000E+01, /* K = 7 */
0723 (PID.TID 0000.0001) 3.478000000000000E+01, /* K = 8 */
0724 (PID.TID 0000.0001) 3.469000000000000E+01, /* K = 9 */
0725 (PID.TID 0000.0001) 3.460000000000000E+01, /* K = 10 */
0726 (PID.TID 0000.0001) 3.458000000000000E+01, /* K = 11 */
0727 (PID.TID 0000.0001) 3.462000000000000E+01, /* K = 12 */
0728 (PID.TID 0000.0001) 3.468000000000000E+01, /* K = 13 */
0729 (PID.TID 0000.0001) 3.472000000000000E+01, /* K = 14 */
0730 (PID.TID 0000.0001) 3.473000000000000E+01, /* K = 15 */
0731 (PID.TID 0000.0001) 3.474000000000000E+01, /* K = 16 */
0732 (PID.TID 0000.0001) 2 @ 3.473000000000000E+01, /* K = 17: 18 */
0733 (PID.TID 0000.0001) 2 @ 3.472000000000000E+01 /* K = 19: 20 */
0734 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0735 (PID.TID 0000.0001) rhoRef = /* Density vertical profile from (Ref,sRef)( kg/m^3 ) */
0736 (PID.TID 0000.0001) 9.998000000000000E+02, /* K = 1 */
0737 (PID.TID 0000.0001) 1.000033953200000E+03, /* K = 2 */
0738 (PID.TID 0000.0001) 1.000225714840000E+03, /* K = 3 */
0739 (PID.TID 0000.0001) 1.000382683440000E+03, /* K = 4 */
0740 (PID.TID 0000.0001) 1.000524855000000E+03, /* K = 5 */
0741 (PID.TID 0000.0001) 1.000704819000000E+03, /* K = 6 */
0742 (PID.TID 0000.0001) 1.000895180920000E+03, /* K = 7 */
0743 (PID.TID 0000.0001) 1.001115936760000E+03, /* K = 8 */
0744 (PID.TID 0000.0001) 1.001349290080000E+03, /* K = 9 */
0745 (PID.TID 0000.0001) 1.001622635400000E+03, /* K = 10 */
0746 (PID.TID 0000.0001) 1.001907778360000E+03, /* K = 11 */
0747 (PID.TID 0000.0001) 1.002217316440000E+03, /* K = 12 */
0748 (PID.TID 0000.0001) 1.002441671560000E+03, /* K = 13 */
0749 (PID.TID 0000.0001) 1.002591241640000E+03, /* K = 14 */
0750 (PID.TID 0000.0001) 1.002698620160000E+03, /* K = 15 */
0751 (PID.TID 0000.0001) 1.002766006680000E+03, /* K = 16 */
0752 (PID.TID 0000.0001) 1.002838592160000E+03, /* K = 17 */
0753 (PID.TID 0000.0001) 1.002898580160000E+03, /* K = 18 */
0754 (PID.TID 0000.0001) 1.002919176040000E+03, /* K = 19 */
0755 (PID.TID 0000.0001) 1.002925174840000E+03 /* K = 20 */
0756 (PID.TID 0000.0001) ;
0757 (PID.TID 0000.0001) dBdrRef = /* Vertical grad. of reference buoyancy [(m/s/r)^2] */
0758 (PID.TID 0000.0001) 0.000000000000000E+00, /* K = 1 */
0759 (PID.TID 0000.0001) 4.591080000000024E-05, /* K = 2 */
0760 (PID.TID 0000.0001) 3.583920000000001E-05, /* K = 3 */
0761 (PID.TID 0000.0001) 2.678556521739094E-05, /* K = 4 */
0762 (PID.TID 0000.0001) 2.231971200000012E-05, /* K = 5 */
0763 (PID.TID 0000.0001) 2.616000000000001E-05, /* K = 6 */
0764 (PID.TID 0000.0001) 2.490432000000008E-05, /* K = 7 */
0765 (PID.TID 0000.0001) 2.475483428571444E-05, /* K = 8 */
0766 (PID.TID 0000.0001) 2.129910697674396E-05, /* K = 9 */
0767 (PID.TID 0000.0001) 1.950584727272747E-05, /* K = 10 */
0768 (PID.TID 0000.0001) 1.576232112676044E-05, /* K = 11 */
0769 (PID.TID 0000.0001) 1.320511304347824E-05, /* K = 12 */
0770 (PID.TID 0000.0001) 7.590910344827643E-06, /* K = 13 */
0771 (PID.TID 0000.0001) 4.076599999999984E-06, /* K = 14 */
0772 (PID.TID 0000.0001) 2.394531818181784E-06, /* K = 15 */
0773 (PID.TID 0000.0001) 1.259417142857214E-06, /* K = 16 */
0774 (PID.TID 0000.0001) 1.162785306122388E-06, /* K = 17 */
0775 (PID.TID 0000.0001) 8.530434782608698E-07, /* K = 18 */
0776 (PID.TID 0000.0001) 2.694480000000193E-07, /* K = 19 */
0777 (PID.TID 0000.0001) 7.403773584905666E-08 /* K = 20 */
0778 (PID.TID 0000.0001) ;
4cadabcaa8 Jean*0779 (PID.TID 0000.0001) useStrainTensionVisc= /* Use StrainTension Form of Viscous Operator */
76cd8733fa Oliv*0780 (PID.TID 0000.0001) F
0781 (PID.TID 0000.0001) ;
4cadabcaa8 Jean*0782 (PID.TID 0000.0001) useVariableVisc = /* Use variable horizontal viscosity */
76cd8733fa Oliv*0783 (PID.TID 0000.0001) F
0784 (PID.TID 0000.0001) ;
4cadabcaa8 Jean*0785 (PID.TID 0000.0001) useHarmonicVisc = /* Use harmonic horizontal viscosity */
0786 (PID.TID 0000.0001) T
76cd8733fa Oliv*0787 (PID.TID 0000.0001) ;
4cadabcaa8 Jean*0788 (PID.TID 0000.0001) useBiharmonicVisc= /* Use biharmonic horiz. viscosity */
0789 (PID.TID 0000.0001) F
76cd8733fa Oliv*0790 (PID.TID 0000.0001) ;
4cadabcaa8 Jean*0791 (PID.TID 0000.0001) useSmag3D = /* Use isotropic 3-D Smagorinsky viscosity */
0792 (PID.TID 0000.0001) F
76cd8733fa Oliv*0793 (PID.TID 0000.0001) ;
4cadabcaa8 Jean*0794 (PID.TID 0000.0001) viscAh = /* Lateral harmonic viscosity ( m^2/s ) */
0795 (PID.TID 0000.0001) 5.000000000000000E+05
76cd8733fa Oliv*0796 (PID.TID 0000.0001) ;
0797 (PID.TID 0000.0001) viscA4 = /* Lateral biharmonic viscosity ( m^4/s ) */
0798 (PID.TID 0000.0001) 0.000000000000000E+00
0799 (PID.TID 0000.0001) ;
0800 (PID.TID 0000.0001) no_slip_sides = /* Viscous BCs: No-slip sides */
0801 (PID.TID 0000.0001) F
0802 (PID.TID 0000.0001) ;
0803 (PID.TID 0000.0001) sideDragFactor = /* side-drag scaling factor (non-dim) */
0804 (PID.TID 0000.0001) 2.000000000000000E+00
0805 (PID.TID 0000.0001) ;
0806 (PID.TID 0000.0001) viscArNr = /* vertical profile of vertical viscosity ( m^2/s )*/
0807 (PID.TID 0000.0001) 20 @ 1.000000000000000E-03 /* K = 1: 20 */
0808 (PID.TID 0000.0001) ;
0809 (PID.TID 0000.0001) no_slip_bottom = /* Viscous BCs: No-slip bottom */
0810 (PID.TID 0000.0001) T
0811 (PID.TID 0000.0001) ;
f93c9f973f Jean*0812 (PID.TID 0000.0001) bottomVisc_pCell = /* Partial-cell in bottom Visc. BC */
0813 (PID.TID 0000.0001) F
0814 (PID.TID 0000.0001) ;
76cd8733fa Oliv*0815 (PID.TID 0000.0001) bottomDragLinear = /* linear bottom-drag coefficient ( m/s ) */
0816 (PID.TID 0000.0001) 0.000000000000000E+00
0817 (PID.TID 0000.0001) ;
0818 (PID.TID 0000.0001) bottomDragQuadratic = /* quadratic bottom-drag coefficient (-) */
0819 (PID.TID 0000.0001) 0.000000000000000E+00
0820 (PID.TID 0000.0001) ;
f93c9f973f Jean*0821 (PID.TID 0000.0001) selectBotDragQuadr = /* select quadratic bottom drag options */
0822 (PID.TID 0000.0001) -1
0823 (PID.TID 0000.0001) ;
76cd8733fa Oliv*0824 (PID.TID 0000.0001) diffKhT = /* Laplacian diffusion of heat laterally ( m^2/s ) */
0825 (PID.TID 0000.0001) 1.000000000000000E+03
0826 (PID.TID 0000.0001) ;
0827 (PID.TID 0000.0001) diffK4T = /* Biharmonic diffusion of heat laterally ( m^4/s ) */
0828 (PID.TID 0000.0001) 0.000000000000000E+00
0829 (PID.TID 0000.0001) ;
0830 (PID.TID 0000.0001) diffKhS = /* Laplacian diffusion of salt laterally ( m^2/s ) */
0831 (PID.TID 0000.0001) 1.000000000000000E+03
0832 (PID.TID 0000.0001) ;
0833 (PID.TID 0000.0001) diffK4S = /* Biharmonic diffusion of salt laterally ( m^4/s ) */
0834 (PID.TID 0000.0001) 0.000000000000000E+00
0835 (PID.TID 0000.0001) ;
0836 (PID.TID 0000.0001) diffKrNrT = /* vertical profile of vertical diffusion of Temp ( m^2/s )*/
f93c9f973f Jean*0837 (PID.TID 0000.0001) 20 @ 0.000000000000000E+00 /* K = 1: 20 */
76cd8733fa Oliv*0838 (PID.TID 0000.0001) ;
0839 (PID.TID 0000.0001) diffKrNrS = /* vertical profile of vertical diffusion of Salt ( m^2/s )*/
0840 (PID.TID 0000.0001) 20 @ 3.000000000000000E-05 /* K = 1: 20 */
0841 (PID.TID 0000.0001) ;
0842 (PID.TID 0000.0001) diffKrBL79surf = /* Surface diffusion for Bryan and Lewis 79 ( m^2/s ) */
0843 (PID.TID 0000.0001) 0.000000000000000E+00
0844 (PID.TID 0000.0001) ;
0845 (PID.TID 0000.0001) diffKrBL79deep = /* Deep diffusion for Bryan and Lewis 1979 ( m^2/s ) */
0846 (PID.TID 0000.0001) 0.000000000000000E+00
0847 (PID.TID 0000.0001) ;
0848 (PID.TID 0000.0001) diffKrBL79scl = /* Depth scale for Bryan and Lewis 1979 ( m ) */
0849 (PID.TID 0000.0001) 2.000000000000000E+02
0850 (PID.TID 0000.0001) ;
0851 (PID.TID 0000.0001) diffKrBL79Ho = /* Turning depth for Bryan and Lewis 1979 ( m ) */
0852 (PID.TID 0000.0001) -2.000000000000000E+03
0853 (PID.TID 0000.0001) ;
0854 (PID.TID 0000.0001) ivdc_kappa = /* Implicit Vertical Diffusivity for Convection ( m^2/s) */
0855 (PID.TID 0000.0001) 0.000000000000000E+00
0856 (PID.TID 0000.0001) ;
0857 (PID.TID 0000.0001) hMixCriteria= /* Criteria for mixed-layer diagnostic */
0858 (PID.TID 0000.0001) -8.000000000000000E-01
0859 (PID.TID 0000.0001) ;
0860 (PID.TID 0000.0001) dRhoSmall = /* Parameter for mixed-layer diagnostic */
0861 (PID.TID 0000.0001) 1.000000000000000E-06
0862 (PID.TID 0000.0001) ;
0863 (PID.TID 0000.0001) hMixSmooth= /* Smoothing parameter for mixed-layer diagnostic */
0864 (PID.TID 0000.0001) 0.000000000000000E+00
0865 (PID.TID 0000.0001) ;
0866 (PID.TID 0000.0001) eosType = /* Type of Equation of State */
0867 (PID.TID 0000.0001) 'LINEAR'
0868 (PID.TID 0000.0001) ;
0869 (PID.TID 0000.0001) tAlpha = /* Linear EOS thermal expansion coefficient ( 1/oC ) */
0870 (PID.TID 0000.0001) 2.000000000000000E-04
0871 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0872 (PID.TID 0000.0001) sBeta = /* Linear EOS haline contraction coefficient ( 1/(g/kg) ) */
76cd8733fa Oliv*0873 (PID.TID 0000.0001) 7.400000000000000E-04
0874 (PID.TID 0000.0001) ;
0875 (PID.TID 0000.0001) rhoNil = /* Reference density for Linear EOS ( kg/m^3 ) */
0876 (PID.TID 0000.0001) 9.998000000000000E+02
0877 (PID.TID 0000.0001) ;
f93c9f973f Jean*0878 (PID.TID 0000.0001) selectP_inEOS_Zc = /* select pressure to use in EOS (0,1,2,3) */
0879 (PID.TID 0000.0001) 0
0880 (PID.TID 0000.0001) 0= -g*rhoConst*z ; 1= pRef (from tRef,sRef); 2= Hyd P ; 3= Hyd+NH P
0881 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0882 (PID.TID 0000.0001) surf_pRef = /* Surface reference pressure ( Pa ) */
0883 (PID.TID 0000.0001) 1.013250000000000E+05
0884 (PID.TID 0000.0001) ;
f93c9f973f Jean*0885 (PID.TID 0000.0001) HeatCapacity_Cp = /* Specific heat capacity ( J/kg/K ) */
0886 (PID.TID 0000.0001) 3.994000000000000E+03
0887 (PID.TID 0000.0001) ;
76cd8733fa Oliv*0888 (PID.TID 0000.0001) celsius2K = /* 0 degree Celsius converted to Kelvin ( K ) */
0889 (PID.TID 0000.0001) 2.731500000000000E+02
0890 (PID.TID 0000.0001) ;
0891 (PID.TID 0000.0001) rhoConst = /* Reference density (Boussinesq) ( kg/m^3 ) */
0892 (PID.TID 0000.0001) 9.998000000000000E+02
0893 (PID.TID 0000.0001) ;
0894 (PID.TID 0000.0001) rhoFacC = /* normalized Reference density @ cell-Center (-) */
0895 (PID.TID 0000.0001) 20 @ 1.000000000000000E+00 /* K = 1: 20 */
0896 (PID.TID 0000.0001) ;
0897 (PID.TID 0000.0001) rhoFacF = /* normalized Reference density @ W-Interface (-) */
0898 (PID.TID 0000.0001) 21 @ 1.000000000000000E+00 /* K = 1: 21 */
0899 (PID.TID 0000.0001) ;
0900 (PID.TID 0000.0001) rhoConstFresh = /* Fresh-water reference density ( kg/m^3 ) */
0901 (PID.TID 0000.0001) 9.998000000000000E+02
0902 (PID.TID 0000.0001) ;
0903 (PID.TID 0000.0001) gravity = /* Gravitational acceleration ( m/s^2 ) */
0904 (PID.TID 0000.0001) 9.810000000000000E+00
0905 (PID.TID 0000.0001) ;
0906 (PID.TID 0000.0001) gBaro = /* Barotropic gravity ( m/s^2 ) */
0907 (PID.TID 0000.0001) 9.810000000000000E+00
0908 (PID.TID 0000.0001) ;
f93c9f973f Jean*0909 (PID.TID 0000.0001) gravFacC = /* gravity factor (vs surf.) @ cell-Center (-) */
0910 (PID.TID 0000.0001) 20 @ 1.000000000000000E+00 /* K = 1: 20 */
0911 (PID.TID 0000.0001) ;
0912 (PID.TID 0000.0001) gravFacF = /* gravity factor (vs surf.) @ W-Interface (-) */
0913 (PID.TID 0000.0001) 21 @ 1.000000000000000E+00 /* K = 1: 21 */
0914 (PID.TID 0000.0001) ;
76cd8733fa Oliv*0915 (PID.TID 0000.0001) rotationPeriod = /* Rotation Period ( s ) */
0916 (PID.TID 0000.0001) 8.616400000000000E+04
0917 (PID.TID 0000.0001) ;
0918 (PID.TID 0000.0001) omega = /* Angular velocity ( rad/s ) */
0919 (PID.TID 0000.0001) 7.292123516990375E-05
0920 (PID.TID 0000.0001) ;
0921 (PID.TID 0000.0001) f0 = /* Reference coriolis parameter ( 1/s ) */
0922 (PID.TID 0000.0001) 1.000000000000000E-04
0923 (PID.TID 0000.0001) ;
0924 (PID.TID 0000.0001) beta = /* Beta ( 1/(m.s) ) */
0925 (PID.TID 0000.0001) 9.999999999999999E-12
0926 (PID.TID 0000.0001) ;
0927 (PID.TID 0000.0001) fPrime = /* Second coriolis parameter ( 1/s ) */
0928 (PID.TID 0000.0001) 0.000000000000000E+00
0929 (PID.TID 0000.0001) ;
0930 (PID.TID 0000.0001) rigidLid = /* Rigid lid on/off flag */
0931 (PID.TID 0000.0001) F
0932 (PID.TID 0000.0001) ;
0933 (PID.TID 0000.0001) implicitFreeSurface = /* Implicit free surface on/off flag */
0934 (PID.TID 0000.0001) T
0935 (PID.TID 0000.0001) ;
0936 (PID.TID 0000.0001) freeSurfFac = /* Implicit free surface factor */
0937 (PID.TID 0000.0001) 1.000000000000000E+00
0938 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0939 (PID.TID 0000.0001) implicSurfPress = /* Surface Pressure implicit factor (0-1) */
76cd8733fa Oliv*0940 (PID.TID 0000.0001) 1.000000000000000E+00
0941 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0942 (PID.TID 0000.0001) implicDiv2DFlow = /* Barot. Flow Div. implicit factor (0-1) */
76cd8733fa Oliv*0943 (PID.TID 0000.0001) 1.000000000000000E+00
0944 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0945 (PID.TID 0000.0001) uniformLin_PhiSurf = /* use uniform Bo_surf on/off flag */
76cd8733fa Oliv*0946 (PID.TID 0000.0001) T
0947 (PID.TID 0000.0001) ;
0948 (PID.TID 0000.0001) uniformFreeSurfLev = /* free-surface level-index is uniform */
0949 (PID.TID 0000.0001) T
0950 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0951 (PID.TID 0000.0001) sIceLoadFac = /* scale factor for sIceLoad (0-1) */
0952 (PID.TID 0000.0001) 1.000000000000000E+00
0953 (PID.TID 0000.0001) ;
76cd8733fa Oliv*0954 (PID.TID 0000.0001) hFacMin = /* minimum partial cell factor (hFac) */
0955 (PID.TID 0000.0001) 1.000000000000000E+00
0956 (PID.TID 0000.0001) ;
0957 (PID.TID 0000.0001) hFacMinDr = /* minimum partial cell thickness ( m) */
f93c9f973f Jean*0958 (PID.TID 0000.0001) 0.000000000000000E+00
76cd8733fa Oliv*0959 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0960 (PID.TID 0000.0001) exactConserv = /* Update etaN from continuity Eq on/off flag */
76cd8733fa Oliv*0961 (PID.TID 0000.0001) T
0962 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0963 (PID.TID 0000.0001) linFSConserveTr = /* Tracer correction for Lin Free Surface on/off flag */
76cd8733fa Oliv*0964 (PID.TID 0000.0001) F
0965 (PID.TID 0000.0001) ;
0966 (PID.TID 0000.0001) nonlinFreeSurf = /* Non-linear Free Surf. options (-1,0,1,2,3)*/
0967 (PID.TID 0000.0001) 3
0968 (PID.TID 0000.0001) -1,0= Off ; 1,2,3= On, 2=+rescale gU,gV, 3=+update cg2d solv.
0969 (PID.TID 0000.0001) ;
0970 (PID.TID 0000.0001) hFacInf = /* lower threshold for hFac (nonlinFreeSurf only)*/
0971 (PID.TID 0000.0001) 2.000000000000000E-01
0972 (PID.TID 0000.0001) ;
0973 (PID.TID 0000.0001) hFacSup = /* upper threshold for hFac (nonlinFreeSurf only)*/
0974 (PID.TID 0000.0001) 2.000000000000000E+00
0975 (PID.TID 0000.0001) ;
0976 (PID.TID 0000.0001) select_rStar = /* r* Vertical coord. options (=0 r coord.; >0 uses r*)*/
0977 (PID.TID 0000.0001) 1
0978 (PID.TID 0000.0001) ;
0979 (PID.TID 0000.0001) useRealFreshWaterFlux = /* Real Fresh Water Flux on/off flag*/
0980 (PID.TID 0000.0001) F
0981 (PID.TID 0000.0001) ;
0982 (PID.TID 0000.0001) temp_EvPrRn = /* Temp. of Evap/Prec/R (UNSET=use local T)(oC)*/
0983 (PID.TID 0000.0001) 1.234567000000000E+05
0984 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0985 (PID.TID 0000.0001) salt_EvPrRn = /* Salin. of Evap/Prec/R (UNSET=use local S)(g/kg)*/
76cd8733fa Oliv*0986 (PID.TID 0000.0001) 0.000000000000000E+00
0987 (PID.TID 0000.0001) ;
0988 (PID.TID 0000.0001) selectAddFluid = /* option for mass source/sink of fluid (=0: off) */
0989 (PID.TID 0000.0001) 0
0990 (PID.TID 0000.0001) ;
0991 (PID.TID 0000.0001) temp_addMass = /* Temp. of addMass array (UNSET=use local T)(oC)*/
0992 (PID.TID 0000.0001) 1.234567000000000E+05
0993 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0994 (PID.TID 0000.0001) salt_addMass = /* Salin. of addMass array (UNSET=use local S)(g/kg)*/
76cd8733fa Oliv*0995 (PID.TID 0000.0001) 0.000000000000000E+00
0996 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*0997 (PID.TID 0000.0001) convertFW2Salt = /* convert F.W. Flux to Salt Flux (-1=use local S)(g/kg)*/
76cd8733fa Oliv*0998 (PID.TID 0000.0001) 3.500000000000000E+01
0999 (PID.TID 0000.0001) ;
1000 (PID.TID 0000.0001) use3Dsolver = /* use 3-D pressure solver on/off flag */
1001 (PID.TID 0000.0001) F
1002 (PID.TID 0000.0001) ;
1003 (PID.TID 0000.0001) nonHydrostatic = /* Non-Hydrostatic on/off flag */
1004 (PID.TID 0000.0001) F
1005 (PID.TID 0000.0001) ;
1006 (PID.TID 0000.0001) nh_Am2 = /* Non-Hydrostatic terms scaling factor */
1007 (PID.TID 0000.0001) 1.000000000000000E+00
1008 (PID.TID 0000.0001) ;
1009 (PID.TID 0000.0001) implicitNHPress = /* Non-Hyd Pressure implicit factor (0-1)*/
1010 (PID.TID 0000.0001) 1.000000000000000E+00
1011 (PID.TID 0000.0001) ;
1012 (PID.TID 0000.0001) selectNHfreeSurf = /* Non-Hyd (free-)Surface option */
1013 (PID.TID 0000.0001) 0
1014 (PID.TID 0000.0001) ;
1015 (PID.TID 0000.0001) quasiHydrostatic = /* Quasi-Hydrostatic on/off flag */
1016 (PID.TID 0000.0001) F
1017 (PID.TID 0000.0001) ;
1018 (PID.TID 0000.0001) calc_wVelocity = /* vertical velocity calculation on/off flag */
1019 (PID.TID 0000.0001) T
1020 (PID.TID 0000.0001) ;
1021 (PID.TID 0000.0001) momStepping = /* Momentum equation on/off flag */
1022 (PID.TID 0000.0001) T
1023 (PID.TID 0000.0001) ;
1024 (PID.TID 0000.0001) vectorInvariantMomentum= /* Vector-Invariant Momentum on/off */
4cadabcaa8 Jean*1025 (PID.TID 0000.0001) T
76cd8733fa Oliv*1026 (PID.TID 0000.0001) ;
1027 (PID.TID 0000.0001) momAdvection = /* Momentum advection on/off flag */
1028 (PID.TID 0000.0001) T
1029 (PID.TID 0000.0001) ;
1030 (PID.TID 0000.0001) momViscosity = /* Momentum viscosity on/off flag */
1031 (PID.TID 0000.0001) T
1032 (PID.TID 0000.0001) ;
1033 (PID.TID 0000.0001) momImplVertAdv= /* Momentum implicit vert. advection on/off*/
1034 (PID.TID 0000.0001) F
1035 (PID.TID 0000.0001) ;
1036 (PID.TID 0000.0001) implicitViscosity = /* Implicit viscosity on/off flag */
1037 (PID.TID 0000.0001) F
1038 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1039 (PID.TID 0000.0001) selectImplicitDrag= /* Implicit bot Drag options (0,1,2)*/
1040 (PID.TID 0000.0001) 0
1041 (PID.TID 0000.0001) 0= Expl. ; 1= Impl. on provis. Vel ; 2= Fully Impl (with surf.P)
76cd8733fa Oliv*1042 (PID.TID 0000.0001) ;
1043 (PID.TID 0000.0001) useNHMTerms = /* Non-Hydrostatic Metric-Terms on/off */
1044 (PID.TID 0000.0001) F
1045 (PID.TID 0000.0001) ;
1046 (PID.TID 0000.0001) useCoriolis = /* Coriolis on/off flag */
1047 (PID.TID 0000.0001) T
1048 (PID.TID 0000.0001) ;
1049 (PID.TID 0000.0001) useCDscheme = /* CD scheme on/off flag */
1050 (PID.TID 0000.0001) T
1051 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1052 (PID.TID 0000.0001) selectCoriMap = /* Coriolis Map options (0,1,2,3)*/
1053 (PID.TID 0000.0001) 2
1054 (PID.TID 0000.0001) 0= f-Plane ; 1= Beta-Plane ; 2= Spherical ; 3= read from file
76cd8733fa Oliv*1055 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1056 (PID.TID 0000.0001) select3dCoriScheme= /* Scheme selector for 3-D Coriolis-Term */
1057 (PID.TID 0000.0001) 0
1058 (PID.TID 0000.0001) = 0 : Off (ignore 3-D Coriolis Terms in Omega.Cos(Lat) )
1059 (PID.TID 0000.0001) = 1 : original discretization ; = 2 : using averaged Transport
1060 (PID.TID 0000.0001) = 3 : same as 2 with hFac in gW_Cor
76cd8733fa Oliv*1061 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1062 (PID.TID 0000.0001) selectCoriScheme= /* Scheme selector for Coriolis-Term */
1063 (PID.TID 0000.0001) 0
1064 (PID.TID 0000.0001) = 0 : original discretization (simple averaging, no hFac)
1065 (PID.TID 0000.0001) = 1 : Wet-point averaging (Jamar & Ozer 1986)
1066 (PID.TID 0000.0001) = 2 : hFac weighted average (Angular Mom. conserving)
1067 (PID.TID 0000.0001) = 3 : energy conserving scheme using hFac weighted average
76cd8733fa Oliv*1068 (PID.TID 0000.0001) ;
1069 (PID.TID 0000.0001) useAbsVorticity= /* V.I Works with f+zeta in Coriolis */
1070 (PID.TID 0000.0001) F
1071 (PID.TID 0000.0001) ;
1072 (PID.TID 0000.0001) selectVortScheme= /* V.I Scheme selector for Vorticity-Term */
4cadabcaa8 Jean*1073 (PID.TID 0000.0001) 1
76cd8733fa Oliv*1074 (PID.TID 0000.0001) = 0 : enstrophy (Shallow-Water Eq.) conserving scheme by Sadourny, JAS 75
1075 (PID.TID 0000.0001) = 1 : same as 0 with modified hFac
1076 (PID.TID 0000.0001) = 2 : energy conserving scheme (used by Sadourny in JAS 75 paper)
1077 (PID.TID 0000.0001) = 3 : energy (general) and enstrophy (2D, nonDiv.) conserving scheme
1078 (PID.TID 0000.0001) from Sadourny (Burridge & Haseler, ECMWF Rep.4, 1977)
b15f6f1e9f Jean*1079 (PID.TID 0000.0001) = 4 : shift 1/hFac from Vorticity to gU,gV tend. (Ang.Mom. conserving)
1080 (PID.TID 0000.0001) ;
1081 (PID.TID 0000.0001) useJamartMomAdv= /* V.I Non-linear terms Jamart flag */
1082 (PID.TID 0000.0001) F
76cd8733fa Oliv*1083 (PID.TID 0000.0001) ;
1084 (PID.TID 0000.0001) upwindVorticity= /* V.I Upwind bias vorticity flag */
1085 (PID.TID 0000.0001) F
1086 (PID.TID 0000.0001) ;
1087 (PID.TID 0000.0001) highOrderVorticity= /* V.I High order vort. advect. flag */
1088 (PID.TID 0000.0001) F
1089 (PID.TID 0000.0001) ;
1090 (PID.TID 0000.0001) upwindShear= /* V.I Upwind vertical Shear advection flag */
1091 (PID.TID 0000.0001) F
1092 (PID.TID 0000.0001) ;
1093 (PID.TID 0000.0001) selectKEscheme= /* V.I Kinetic Energy scheme selector */
1094 (PID.TID 0000.0001) 0
1095 (PID.TID 0000.0001) ;
1096 (PID.TID 0000.0001) momForcing = /* Momentum forcing on/off flag */
1097 (PID.TID 0000.0001) T
1098 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1099 (PID.TID 0000.0001) momTidalForcing = /* Momentum Tidal forcing on/off flag */
1100 (PID.TID 0000.0001) T
1101 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1102 (PID.TID 0000.0001) momPressureForcing = /* Momentum pressure term on/off flag */
1103 (PID.TID 0000.0001) T
1104 (PID.TID 0000.0001) ;
1105 (PID.TID 0000.0001) implicitIntGravWave= /* Implicit Internal Gravity Wave flag */
1106 (PID.TID 0000.0001) F
1107 (PID.TID 0000.0001) ;
1108 (PID.TID 0000.0001) staggerTimeStep = /* Stagger time stepping on/off flag */
1109 (PID.TID 0000.0001) F
1110 (PID.TID 0000.0001) ;
1111 (PID.TID 0000.0001) doResetHFactors = /* reset thickness factors @ each time-step */
1112 (PID.TID 0000.0001) T
1113 (PID.TID 0000.0001) ;
1114 (PID.TID 0000.0001) multiDimAdvection = /* enable/disable Multi-Dim Advection */
1115 (PID.TID 0000.0001) T
1116 (PID.TID 0000.0001) ;
1117 (PID.TID 0000.0001) useMultiDimAdvec = /* Multi-Dim Advection is/is-not used */
1118 (PID.TID 0000.0001) F
1119 (PID.TID 0000.0001) ;
1120 (PID.TID 0000.0001) implicitDiffusion = /* Implicit Diffusion on/off flag */
1121 (PID.TID 0000.0001) T
1122 (PID.TID 0000.0001) ;
1123 (PID.TID 0000.0001) tempStepping = /* Temperature equation on/off flag */
1124 (PID.TID 0000.0001) T
1125 (PID.TID 0000.0001) ;
1126 (PID.TID 0000.0001) tempAdvection = /* Temperature advection on/off flag */
1127 (PID.TID 0000.0001) T
1128 (PID.TID 0000.0001) ;
1129 (PID.TID 0000.0001) tempImplVertAdv = /* Temp. implicit vert. advection on/off */
1130 (PID.TID 0000.0001) F
1131 (PID.TID 0000.0001) ;
1132 (PID.TID 0000.0001) tempForcing = /* Temperature forcing on/off flag */
1133 (PID.TID 0000.0001) T
1134 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1135 (PID.TID 0000.0001) selectPenetratingSW = /* short wave penetration selector */
1136 (PID.TID 0000.0001) 1
1137 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1138 (PID.TID 0000.0001) doThetaClimRelax = /* apply SST relaxation on/off flag */
1139 (PID.TID 0000.0001) T
1140 (PID.TID 0000.0001) ;
1141 (PID.TID 0000.0001) tempIsActiveTr = /* Temp. is a dynamically Active Tracer */
1142 (PID.TID 0000.0001) T
1143 (PID.TID 0000.0001) ;
1144 (PID.TID 0000.0001) saltStepping = /* Salinity equation on/off flag */
1145 (PID.TID 0000.0001) T
1146 (PID.TID 0000.0001) ;
1147 (PID.TID 0000.0001) saltAdvection = /* Salinity advection on/off flag */
1148 (PID.TID 0000.0001) T
1149 (PID.TID 0000.0001) ;
1150 (PID.TID 0000.0001) saltImplVertAdv = /* Sali. implicit vert. advection on/off */
1151 (PID.TID 0000.0001) F
1152 (PID.TID 0000.0001) ;
1153 (PID.TID 0000.0001) saltForcing = /* Salinity forcing on/off flag */
1154 (PID.TID 0000.0001) T
1155 (PID.TID 0000.0001) ;
1156 (PID.TID 0000.0001) doSaltClimRelax = /* apply SSS relaxation on/off flag */
1157 (PID.TID 0000.0001) T
1158 (PID.TID 0000.0001) ;
1159 (PID.TID 0000.0001) saltIsActiveTr = /* Salt is a dynamically Active Tracer */
1160 (PID.TID 0000.0001) T
1161 (PID.TID 0000.0001) ;
1162 (PID.TID 0000.0001) readBinaryPrec = /* Precision used for reading binary files */
1163 (PID.TID 0000.0001) 32
1164 (PID.TID 0000.0001) ;
1165 (PID.TID 0000.0001) writeBinaryPrec = /* Precision used for writing binary files */
1166 (PID.TID 0000.0001) 32
1167 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1168 (PID.TID 0000.0001) rwSuffixType = /* select format of mds file suffix */
1169 (PID.TID 0000.0001) 0
1170 (PID.TID 0000.0001) = 0 : myIter (I10.10) ; = 1 : 100*myTime (100th sec) ;
1171 (PID.TID 0000.0001) = 2 : myTime (seconds); = 3 : myTime/360 (10th of hr);
1172 (PID.TID 0000.0001) = 4 : myTime/3600 (hours)
1173 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1174 (PID.TID 0000.0001) globalFiles = /* write "global" (=not per tile) files */
1175 (PID.TID 0000.0001) F
1176 (PID.TID 0000.0001) ;
1177 (PID.TID 0000.0001) useSingleCpuIO = /* only master MPI process does I/O */
1178 (PID.TID 0000.0001) F
1179 (PID.TID 0000.0001) ;
f93c9f973f Jean*1180 (PID.TID 0000.0001) useSingleCpuInput = /* only master process reads input */
1181 (PID.TID 0000.0001) F
1182 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1183 (PID.TID 0000.0001) /* debLev[*] : level of debug & auxiliary message printing */
1184 (PID.TID 0000.0001) debLevZero = 0 ; /* level of disabled aux. msg printing */
1185 (PID.TID 0000.0001) debLevA = 1 ; /* level of minimum aux. msg printing */
1186 (PID.TID 0000.0001) debLevB = 2 ; /* level of low aux. print (report read-file opening)*/
1187 (PID.TID 0000.0001) debLevC = 3 ; /* level of moderate debug prt (most pkgs debug msg) */
1188 (PID.TID 0000.0001) debLevD = 4 ; /* level of enhanced debug prt (add DEBUG_STATS prt) */
1189 (PID.TID 0000.0001) debLevE = 5 ; /* level of extensive debug printing */
1190 (PID.TID 0000.0001) debugLevel = /* select debug printing level */
1191 (PID.TID 0000.0001) 1
1192 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1193 (PID.TID 0000.0001) plotLevel = /* select PLOT_FIELD printing level */
1194 (PID.TID 0000.0001) 1
1195 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1196 (PID.TID 0000.0001) //
1197 (PID.TID 0000.0001) // Elliptic solver(s) paramters ( PARM02 in namelist )
1198 (PID.TID 0000.0001) //
1199 (PID.TID 0000.0001) cg2dMaxIters = /* Upper limit on 2d con. grad iterations */
1200 (PID.TID 0000.0001) 200
1201 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1202 (PID.TID 0000.0001) cg2dMinItersNSA = /* Minimum number of iterations of 2d con. grad solver */
1203 (PID.TID 0000.0001) 0
76cd8733fa Oliv*1204 (PID.TID 0000.0001) ;
1205 (PID.TID 0000.0001) cg2dUseMinResSol= /* use cg2d last-iter(=0) / min-resid.(=1) solution */
1206 (PID.TID 0000.0001) 0
1207 (PID.TID 0000.0001) ;
1208 (PID.TID 0000.0001) cg2dTargetResidual = /* 2d con. grad target residual */
b15f6f1e9f Jean*1209 (PID.TID 0000.0001) 1.000000000000000E-17
76cd8733fa Oliv*1210 (PID.TID 0000.0001) ;
1211 (PID.TID 0000.0001) cg2dTargetResWunit = /* CG2d target residual [W units] */
b15f6f1e9f Jean*1212 (PID.TID 0000.0001) -1.000000000000000E+00
76cd8733fa Oliv*1213 (PID.TID 0000.0001) ;
1214 (PID.TID 0000.0001) cg2dPreCondFreq = /* Freq. for updating cg2d preconditioner */
1215 (PID.TID 0000.0001) 1
1216 (PID.TID 0000.0001) ;
1217 (PID.TID 0000.0001) useSRCGSolver = /* use single reduction CG solver(s) */
1218 (PID.TID 0000.0001) F
1219 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1220 (PID.TID 0000.0001) useNSACGSolver = /* use not-self-adjoint CG solver */
1221 (PID.TID 0000.0001) F
1222 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1223 (PID.TID 0000.0001) printResidualFreq = /* Freq. for printing CG residual */
b15f6f1e9f Jean*1224 (PID.TID 0000.0001) -1
76cd8733fa Oliv*1225 (PID.TID 0000.0001) ;
1226 (PID.TID 0000.0001) //
1227 (PID.TID 0000.0001) // Time stepping paramters ( PARM03 in namelist )
1228 (PID.TID 0000.0001) //
1229 (PID.TID 0000.0001) deltaTMom = /* Momentum equation timestep ( s ) */
1230 (PID.TID 0000.0001) 2.400000000000000E+03
1231 (PID.TID 0000.0001) ;
1232 (PID.TID 0000.0001) deltaTFreeSurf = /* FreeSurface equation timestep ( s ) */
1233 (PID.TID 0000.0001) 8.640000000000000E+04
1234 (PID.TID 0000.0001) ;
1235 (PID.TID 0000.0001) dTtracerLev = /* Tracer equation timestep ( s ) */
1236 (PID.TID 0000.0001) 20 @ 8.640000000000000E+04 /* K = 1: 20 */
1237 (PID.TID 0000.0001) ;
1238 (PID.TID 0000.0001) deltaTClock = /* Model clock timestep ( s ) */
1239 (PID.TID 0000.0001) 8.640000000000000E+04
1240 (PID.TID 0000.0001) ;
1241 (PID.TID 0000.0001) cAdjFreq = /* Convective adjustment interval ( s ) */
1242 (PID.TID 0000.0001) 8.640000000000000E+04
1243 (PID.TID 0000.0001) ;
1244 (PID.TID 0000.0001) momForcingOutAB = /* =1: take Momentum Forcing out of Adams-Bash. stepping */
1245 (PID.TID 0000.0001) 0
1246 (PID.TID 0000.0001) ;
1247 (PID.TID 0000.0001) tracForcingOutAB = /* =1: take T,S,pTr Forcing out of Adams-Bash. stepping */
1248 (PID.TID 0000.0001) 0
1249 (PID.TID 0000.0001) ;
1250 (PID.TID 0000.0001) momDissip_In_AB = /* put Dissipation Tendency in Adams-Bash. stepping */
1251 (PID.TID 0000.0001) T
1252 (PID.TID 0000.0001) ;
1253 (PID.TID 0000.0001) doAB_onGtGs = /* apply AB on Tendencies (rather than on T,S)*/
1254 (PID.TID 0000.0001) T
1255 (PID.TID 0000.0001) ;
1256 (PID.TID 0000.0001) abEps = /* Adams-Bashforth-2 stabilizing weight */
1257 (PID.TID 0000.0001) 1.000000000000000E-01
1258 (PID.TID 0000.0001) ;
f93c9f973f Jean*1259 (PID.TID 0000.0001) applyExchUV_early = /* Apply EXCH to U,V earlier in time-step */
1260 (PID.TID 0000.0001) F
1261 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1262 (PID.TID 0000.0001) tauCD = /* CD coupling time-scale ( s ) */
1263 (PID.TID 0000.0001) 3.214280000000000E+05
1264 (PID.TID 0000.0001) ;
1265 (PID.TID 0000.0001) rCD = /* Normalised CD coupling parameter */
1266 (PID.TID 0000.0001) 9.925333200592357E-01
1267 (PID.TID 0000.0001) ;
1268 (PID.TID 0000.0001) epsAB_CD = /* AB-2 stabilizing weight for CD-scheme*/
1269 (PID.TID 0000.0001) 1.000000000000000E-01
1270 (PID.TID 0000.0001) ;
1271 (PID.TID 0000.0001) pickupStrictlyMatch= /* stop if pickup do not strictly match */
1272 (PID.TID 0000.0001) T
1273 (PID.TID 0000.0001) ;
1274 (PID.TID 0000.0001) nIter0 = /* Run starting timestep number */
1275 (PID.TID 0000.0001) 0
1276 (PID.TID 0000.0001) ;
1277 (PID.TID 0000.0001) nTimeSteps = /* Number of timesteps */
1278 (PID.TID 0000.0001) 4
1279 (PID.TID 0000.0001) ;
1280 (PID.TID 0000.0001) nEndIter = /* Run ending timestep number */
1281 (PID.TID 0000.0001) 4
1282 (PID.TID 0000.0001) ;
1283 (PID.TID 0000.0001) baseTime = /* Model base time ( s ) */
1284 (PID.TID 0000.0001) 0.000000000000000E+00
1285 (PID.TID 0000.0001) ;
1286 (PID.TID 0000.0001) startTime = /* Run start time ( s ) */
1287 (PID.TID 0000.0001) 0.000000000000000E+00
1288 (PID.TID 0000.0001) ;
1289 (PID.TID 0000.0001) endTime = /* Integration ending time ( s ) */
1290 (PID.TID 0000.0001) 3.456000000000000E+05
1291 (PID.TID 0000.0001) ;
1292 (PID.TID 0000.0001) pChkPtFreq = /* Permanent restart/pickup file interval ( s ) */
1293 (PID.TID 0000.0001) 8.640000000000000E+07
1294 (PID.TID 0000.0001) ;
1295 (PID.TID 0000.0001) chkPtFreq = /* Rolling restart/pickup file interval ( s ) */
1296 (PID.TID 0000.0001) 8.640000000000000E+07
1297 (PID.TID 0000.0001) ;
1298 (PID.TID 0000.0001) pickup_write_mdsio = /* Model IO flag. */
1299 (PID.TID 0000.0001) T
1300 (PID.TID 0000.0001) ;
1301 (PID.TID 0000.0001) pickup_read_mdsio = /* Model IO flag. */
1302 (PID.TID 0000.0001) T
1303 (PID.TID 0000.0001) ;
1304 (PID.TID 0000.0001) writePickupAtEnd = /* Model IO flag. */
1305 (PID.TID 0000.0001) T
1306 (PID.TID 0000.0001) ;
1307 (PID.TID 0000.0001) dumpFreq = /* Model state write out interval ( s ). */
1308 (PID.TID 0000.0001) 8.640000000000000E+04
1309 (PID.TID 0000.0001) ;
1310 (PID.TID 0000.0001) dumpInitAndLast= /* write out Initial & Last iter. model state */
1311 (PID.TID 0000.0001) T
1312 (PID.TID 0000.0001) ;
1313 (PID.TID 0000.0001) snapshot_mdsio = /* Model IO flag. */
1314 (PID.TID 0000.0001) T
1315 (PID.TID 0000.0001) ;
1316 (PID.TID 0000.0001) monitorFreq = /* Monitor output interval ( s ). */
1317 (PID.TID 0000.0001) 0.000000000000000E+00
1318 (PID.TID 0000.0001) ;
1319 (PID.TID 0000.0001) monitorSelect = /* select group of variables to monitor */
1320 (PID.TID 0000.0001) 3
1321 (PID.TID 0000.0001) ;
1322 (PID.TID 0000.0001) monitor_stdio = /* Model IO flag. */
1323 (PID.TID 0000.0001) T
1324 (PID.TID 0000.0001) ;
1325 (PID.TID 0000.0001) externForcingPeriod = /* forcing period (s) */
1326 (PID.TID 0000.0001) 0.000000000000000E+00
1327 (PID.TID 0000.0001) ;
1328 (PID.TID 0000.0001) externForcingCycle = /* period of the cyle (s). */
1329 (PID.TID 0000.0001) 0.000000000000000E+00
1330 (PID.TID 0000.0001) ;
1331 (PID.TID 0000.0001) tauThetaClimRelax = /* relaxation time scale (s) */
1332 (PID.TID 0000.0001) 2.592000000000000E+06
1333 (PID.TID 0000.0001) ;
1334 (PID.TID 0000.0001) tauSaltClimRelax = /* relaxation time scale (s) */
1335 (PID.TID 0000.0001) 2.592000000000000E+06
1336 (PID.TID 0000.0001) ;
1337 (PID.TID 0000.0001) latBandClimRelax = /* max. Lat. where relaxation */
1338 (PID.TID 0000.0001) 1.800000000000000E+02
1339 (PID.TID 0000.0001) ;
1340 (PID.TID 0000.0001) //
1341 (PID.TID 0000.0001) // Gridding paramters ( PARM04 in namelist )
1342 (PID.TID 0000.0001) //
1343 (PID.TID 0000.0001) usingCartesianGrid = /* Cartesian coordinates flag ( True/False ) */
1344 (PID.TID 0000.0001) F
1345 (PID.TID 0000.0001) ;
1346 (PID.TID 0000.0001) usingCylindricalGrid = /* Cylindrical coordinates flag ( True/False ) */
1347 (PID.TID 0000.0001) F
1348 (PID.TID 0000.0001) ;
1349 (PID.TID 0000.0001) usingSphericalPolarGrid = /* Spherical coordinates flag ( True/False ) */
1350 (PID.TID 0000.0001) T
1351 (PID.TID 0000.0001) ;
1352 (PID.TID 0000.0001) usingCurvilinearGrid = /* Curvilinear coordinates flag ( True/False ) */
1353 (PID.TID 0000.0001) F
1354 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1355 (PID.TID 0000.0001) useMin4hFacEdges = /* set hFacW,S as minimum of adjacent hFacC factor */
1356 (PID.TID 0000.0001) F
1357 (PID.TID 0000.0001) ;
1358 (PID.TID 0000.0001) interViscAr_pCell = /* account for partial-cell in interior vert. viscosity */
1359 (PID.TID 0000.0001) F
1360 (PID.TID 0000.0001) ;
1361 (PID.TID 0000.0001) interDiffKr_pCell = /* account for partial-cell in interior vert. diffusion */
1362 (PID.TID 0000.0001) F
1363 (PID.TID 0000.0001) ;
1364 (PID.TID 0000.0001) pCellMix_select = /* option to enhance mixing near surface & bottom */
1365 (PID.TID 0000.0001) 0
1366 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1367 (PID.TID 0000.0001) selectSigmaCoord = /* Hybrid-Sigma Vert. Coordinate option */
1368 (PID.TID 0000.0001) 0
1369 (PID.TID 0000.0001) ;
1370 (PID.TID 0000.0001) rSigmaBnd = /* r/sigma transition ( units of r == m ) */
1371 (PID.TID 0000.0001) 1.234567000000000E+05
1372 (PID.TID 0000.0001) ;
1373 (PID.TID 0000.0001) rkSign = /* index orientation relative to vertical coordinate */
1374 (PID.TID 0000.0001) -1.000000000000000E+00
1375 (PID.TID 0000.0001) ;
1376 (PID.TID 0000.0001) gravitySign = /* gravity orientation relative to vertical coordinate */
1377 (PID.TID 0000.0001) -1.000000000000000E+00
1378 (PID.TID 0000.0001) ;
f93c9f973f Jean*1379 (PID.TID 0000.0001) seaLev_Z = /* reference height of sea-level [m] */
1380 (PID.TID 0000.0001) 0.000000000000000E+00
1381 (PID.TID 0000.0001) ;
1382 (PID.TID 0000.0001) top_Pres = /* reference pressure at the top [Pa] */
1383 (PID.TID 0000.0001) 0.000000000000000E+00
1384 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1385 (PID.TID 0000.0001) mass2rUnit = /* convert mass per unit area [kg/m2] to r-units [m] */
1386 (PID.TID 0000.0001) 1.000200040008002E-03
1387 (PID.TID 0000.0001) ;
1388 (PID.TID 0000.0001) rUnit2mass = /* convert r-units [m] to mass per unit area [kg/m2] */
1389 (PID.TID 0000.0001) 9.998000000000000E+02
1390 (PID.TID 0000.0001) ;
1391 (PID.TID 0000.0001) drC = /* C spacing ( units of r ) */
1392 (PID.TID 0000.0001) 2.500000000000000E+01, /* K = 1 */
1393 (PID.TID 0000.0001) 5.000000000000000E+01, /* K = 2 */
1394 (PID.TID 0000.0001) 5.250000000000000E+01, /* K = 3 */
1395 (PID.TID 0000.0001) 5.750000000000000E+01, /* K = 4 */
1396 (PID.TID 0000.0001) 6.250000000000000E+01, /* K = 5 */
1397 (PID.TID 0000.0001) 6.750000000000000E+01, /* K = 6 */
1398 (PID.TID 0000.0001) 7.500000000000000E+01, /* K = 7 */
1399 (PID.TID 0000.0001) 8.750000000000000E+01, /* K = 8 */
1400 (PID.TID 0000.0001) 1.075000000000000E+02, /* K = 9 */
1401 (PID.TID 0000.0001) 1.375000000000000E+02, /* K = 10 */
1402 (PID.TID 0000.0001) 1.775000000000000E+02, /* K = 11 */
1403 (PID.TID 0000.0001) 2.300000000000000E+02, /* K = 12 */
1404 (PID.TID 0000.0001) 2.900000000000000E+02, /* K = 13 */
1405 (PID.TID 0000.0001) 3.600000000000000E+02, /* K = 14 */
1406 (PID.TID 0000.0001) 4.400000000000000E+02, /* K = 15 */
1407 (PID.TID 0000.0001) 5.250000000000000E+02, /* K = 16 */
1408 (PID.TID 0000.0001) 6.125000000000000E+02, /* K = 17 */
1409 (PID.TID 0000.0001) 6.900000000000000E+02, /* K = 18 */
1410 (PID.TID 0000.0001) 7.500000000000000E+02, /* K = 19 */
4cadabcaa8 Jean*1411 (PID.TID 0000.0001) 7.950000000000000E+02, /* K = 20 */
1412 (PID.TID 0000.0001) 4.075000000000000E+02 /* K = 21 */
76cd8733fa Oliv*1413 (PID.TID 0000.0001) ;
1414 (PID.TID 0000.0001) drF = /* W spacing ( units of r ) */
1415 (PID.TID 0000.0001) 2 @ 5.000000000000000E+01, /* K = 1: 2 */
1416 (PID.TID 0000.0001) 5.500000000000000E+01, /* K = 3 */
1417 (PID.TID 0000.0001) 6.000000000000000E+01, /* K = 4 */
1418 (PID.TID 0000.0001) 6.500000000000000E+01, /* K = 5 */
1419 (PID.TID 0000.0001) 7.000000000000000E+01, /* K = 6 */
1420 (PID.TID 0000.0001) 8.000000000000000E+01, /* K = 7 */
1421 (PID.TID 0000.0001) 9.500000000000000E+01, /* K = 8 */
1422 (PID.TID 0000.0001) 1.200000000000000E+02, /* K = 9 */
1423 (PID.TID 0000.0001) 1.550000000000000E+02, /* K = 10 */
1424 (PID.TID 0000.0001) 2.000000000000000E+02, /* K = 11 */
1425 (PID.TID 0000.0001) 2.600000000000000E+02, /* K = 12 */
1426 (PID.TID 0000.0001) 3.200000000000000E+02, /* K = 13 */
1427 (PID.TID 0000.0001) 4.000000000000000E+02, /* K = 14 */
1428 (PID.TID 0000.0001) 4.800000000000000E+02, /* K = 15 */
1429 (PID.TID 0000.0001) 5.700000000000000E+02, /* K = 16 */
1430 (PID.TID 0000.0001) 6.550000000000000E+02, /* K = 17 */
1431 (PID.TID 0000.0001) 7.250000000000000E+02, /* K = 18 */
1432 (PID.TID 0000.0001) 7.750000000000000E+02, /* K = 19 */
1433 (PID.TID 0000.0001) 8.150000000000000E+02 /* K = 20 */
1434 (PID.TID 0000.0001) ;
1435 (PID.TID 0000.0001) delX = /* U spacing ( m - cartesian, degrees - spherical ) */
1436 (PID.TID 0000.0001) 90 @ 4.000000000000000E+00 /* I = 1: 90 */
1437 (PID.TID 0000.0001) ;
1438 (PID.TID 0000.0001) delY = /* V spacing ( m - cartesian, degrees - spherical ) */
1439 (PID.TID 0000.0001) 40 @ 4.000000000000000E+00 /* J = 1: 40 */
1440 (PID.TID 0000.0001) ;
1441 (PID.TID 0000.0001) xgOrigin = /* X-axis origin of West edge (cartesian: m, lat-lon: deg) */
1442 (PID.TID 0000.0001) 0.000000000000000E+00
1443 (PID.TID 0000.0001) ;
1444 (PID.TID 0000.0001) ygOrigin = /* Y-axis origin of South edge (cartesian: m, lat-lon: deg) */
1445 (PID.TID 0000.0001) -8.000000000000000E+01
1446 (PID.TID 0000.0001) ;
1447 (PID.TID 0000.0001) rSphere = /* Radius ( ignored - cartesian, m - spherical ) */
1448 (PID.TID 0000.0001) 6.370000000000000E+06
1449 (PID.TID 0000.0001) ;
1450 (PID.TID 0000.0001) deepAtmosphere = /* Deep/Shallow Atmosphere flag (True/False) */
1451 (PID.TID 0000.0001) F
1452 (PID.TID 0000.0001) ;
1453 (PID.TID 0000.0001) xC = /* xC(:,1,:,1) : P-point X coord ( deg. or m if cartesian) */
1454 (PID.TID 0000.0001) 2.000000000000000E+00, /* I = 1 */
1455 (PID.TID 0000.0001) 6.000000000000000E+00, /* I = 2 */
1456 (PID.TID 0000.0001) 1.000000000000000E+01, /* I = 3 */
1457 (PID.TID 0000.0001) . . .
1458 (PID.TID 0000.0001) 8.200000000000000E+01, /* I = 21 */
1459 (PID.TID 0000.0001) 8.600000000000000E+01, /* I = 22 */
1460 (PID.TID 0000.0001) 9.000000000000000E+01, /* I = 23 */
1461 (PID.TID 0000.0001) 9.400000000000000E+01, /* I = 24 */
1462 (PID.TID 0000.0001) 9.800000000000000E+01, /* I = 25 */
1463 (PID.TID 0000.0001) 1.020000000000000E+02, /* I = 26 */
1464 (PID.TID 0000.0001) . . .
1465 (PID.TID 0000.0001) 1.700000000000000E+02, /* I = 43 */
1466 (PID.TID 0000.0001) 1.740000000000000E+02, /* I = 44 */
1467 (PID.TID 0000.0001) 1.780000000000000E+02, /* I = 45 */
1468 (PID.TID 0000.0001) 1.820000000000000E+02, /* I = 46 */
1469 (PID.TID 0000.0001) 1.860000000000000E+02, /* I = 47 */
1470 (PID.TID 0000.0001) 1.900000000000000E+02, /* I = 48 */
1471 (PID.TID 0000.0001) . . .
1472 (PID.TID 0000.0001) 2.580000000000000E+02, /* I = 65 */
1473 (PID.TID 0000.0001) 2.620000000000000E+02, /* I = 66 */
1474 (PID.TID 0000.0001) 2.660000000000000E+02, /* I = 67 */
1475 (PID.TID 0000.0001) 2.700000000000000E+02, /* I = 68 */
1476 (PID.TID 0000.0001) 2.740000000000000E+02, /* I = 69 */
1477 (PID.TID 0000.0001) 2.780000000000000E+02, /* I = 70 */
1478 (PID.TID 0000.0001) . . .
1479 (PID.TID 0000.0001) 3.500000000000000E+02, /* I = 88 */
1480 (PID.TID 0000.0001) 3.540000000000000E+02, /* I = 89 */
1481 (PID.TID 0000.0001) 3.580000000000000E+02 /* I = 90 */
1482 (PID.TID 0000.0001) ;
1483 (PID.TID 0000.0001) yC = /* yC(1,:,1,:) : P-point Y coord ( deg. or m if cartesian) */
1484 (PID.TID 0000.0001) -7.800000000000000E+01, /* J = 1 */
1485 (PID.TID 0000.0001) -7.400000000000000E+01, /* J = 2 */
1486 (PID.TID 0000.0001) -7.000000000000000E+01, /* J = 3 */
1487 (PID.TID 0000.0001) -6.600000000000000E+01, /* J = 4 */
1488 (PID.TID 0000.0001) -6.200000000000000E+01, /* J = 5 */
1489 (PID.TID 0000.0001) -5.800000000000000E+01, /* J = 6 */
1490 (PID.TID 0000.0001) -5.400000000000000E+01, /* J = 7 */
1491 (PID.TID 0000.0001) -5.000000000000000E+01, /* J = 8 */
1492 (PID.TID 0000.0001) -4.600000000000000E+01, /* J = 9 */
1493 (PID.TID 0000.0001) -4.200000000000000E+01, /* J = 10 */
1494 (PID.TID 0000.0001) -3.800000000000000E+01, /* J = 11 */
1495 (PID.TID 0000.0001) -3.400000000000000E+01, /* J = 12 */
1496 (PID.TID 0000.0001) -3.000000000000000E+01, /* J = 13 */
1497 (PID.TID 0000.0001) -2.600000000000000E+01, /* J = 14 */
1498 (PID.TID 0000.0001) -2.200000000000000E+01, /* J = 15 */
1499 (PID.TID 0000.0001) -1.800000000000000E+01, /* J = 16 */
1500 (PID.TID 0000.0001) -1.400000000000000E+01, /* J = 17 */
1501 (PID.TID 0000.0001) -1.000000000000000E+01, /* J = 18 */
1502 (PID.TID 0000.0001) -6.000000000000000E+00, /* J = 19 */
1503 (PID.TID 0000.0001) -2.000000000000000E+00, /* J = 20 */
1504 (PID.TID 0000.0001) 2.000000000000000E+00, /* J = 21 */
1505 (PID.TID 0000.0001) 6.000000000000000E+00, /* J = 22 */
1506 (PID.TID 0000.0001) 1.000000000000000E+01, /* J = 23 */
1507 (PID.TID 0000.0001) 1.400000000000000E+01, /* J = 24 */
1508 (PID.TID 0000.0001) 1.800000000000000E+01, /* J = 25 */
1509 (PID.TID 0000.0001) 2.200000000000000E+01, /* J = 26 */
1510 (PID.TID 0000.0001) 2.600000000000000E+01, /* J = 27 */
1511 (PID.TID 0000.0001) 3.000000000000000E+01, /* J = 28 */
1512 (PID.TID 0000.0001) 3.400000000000000E+01, /* J = 29 */
1513 (PID.TID 0000.0001) 3.800000000000000E+01, /* J = 30 */
1514 (PID.TID 0000.0001) 4.200000000000000E+01, /* J = 31 */
1515 (PID.TID 0000.0001) 4.600000000000000E+01, /* J = 32 */
1516 (PID.TID 0000.0001) 5.000000000000000E+01, /* J = 33 */
1517 (PID.TID 0000.0001) 5.400000000000000E+01, /* J = 34 */
1518 (PID.TID 0000.0001) 5.800000000000000E+01, /* J = 35 */
1519 (PID.TID 0000.0001) 6.200000000000000E+01, /* J = 36 */
1520 (PID.TID 0000.0001) 6.600000000000000E+01, /* J = 37 */
1521 (PID.TID 0000.0001) 7.000000000000000E+01, /* J = 38 */
1522 (PID.TID 0000.0001) 7.400000000000000E+01, /* J = 39 */
1523 (PID.TID 0000.0001) 7.800000000000000E+01 /* J = 40 */
1524 (PID.TID 0000.0001) ;
1525 (PID.TID 0000.0001) rcoord = /* P-point R coordinate ( units of r ) */
1526 (PID.TID 0000.0001) -2.500000000000000E+01, /* K = 1 */
1527 (PID.TID 0000.0001) -7.500000000000000E+01, /* K = 2 */
1528 (PID.TID 0000.0001) -1.275000000000000E+02, /* K = 3 */
1529 (PID.TID 0000.0001) -1.850000000000000E+02, /* K = 4 */
1530 (PID.TID 0000.0001) -2.475000000000000E+02, /* K = 5 */
1531 (PID.TID 0000.0001) -3.150000000000000E+02, /* K = 6 */
1532 (PID.TID 0000.0001) -3.900000000000000E+02, /* K = 7 */
1533 (PID.TID 0000.0001) -4.775000000000000E+02, /* K = 8 */
1534 (PID.TID 0000.0001) -5.850000000000000E+02, /* K = 9 */
1535 (PID.TID 0000.0001) -7.225000000000000E+02, /* K = 10 */
1536 (PID.TID 0000.0001) -9.000000000000000E+02, /* K = 11 */
1537 (PID.TID 0000.0001) -1.130000000000000E+03, /* K = 12 */
1538 (PID.TID 0000.0001) -1.420000000000000E+03, /* K = 13 */
1539 (PID.TID 0000.0001) -1.780000000000000E+03, /* K = 14 */
1540 (PID.TID 0000.0001) -2.220000000000000E+03, /* K = 15 */
1541 (PID.TID 0000.0001) -2.745000000000000E+03, /* K = 16 */
1542 (PID.TID 0000.0001) -3.357500000000000E+03, /* K = 17 */
1543 (PID.TID 0000.0001) -4.047500000000000E+03, /* K = 18 */
1544 (PID.TID 0000.0001) -4.797500000000000E+03, /* K = 19 */
1545 (PID.TID 0000.0001) -5.592500000000000E+03 /* K = 20 */
1546 (PID.TID 0000.0001) ;
1547 (PID.TID 0000.0001) rF = /* W-Interf. R coordinate ( units of r ) */
1548 (PID.TID 0000.0001) 0.000000000000000E+00, /* K = 1 */
1549 (PID.TID 0000.0001) -5.000000000000000E+01, /* K = 2 */
1550 (PID.TID 0000.0001) -1.000000000000000E+02, /* K = 3 */
1551 (PID.TID 0000.0001) -1.550000000000000E+02, /* K = 4 */
1552 (PID.TID 0000.0001) -2.150000000000000E+02, /* K = 5 */
1553 (PID.TID 0000.0001) -2.800000000000000E+02, /* K = 6 */
1554 (PID.TID 0000.0001) -3.500000000000000E+02, /* K = 7 */
1555 (PID.TID 0000.0001) -4.300000000000000E+02, /* K = 8 */
1556 (PID.TID 0000.0001) -5.250000000000000E+02, /* K = 9 */
1557 (PID.TID 0000.0001) -6.450000000000000E+02, /* K = 10 */
1558 (PID.TID 0000.0001) -8.000000000000000E+02, /* K = 11 */
1559 (PID.TID 0000.0001) -1.000000000000000E+03, /* K = 12 */
1560 (PID.TID 0000.0001) -1.260000000000000E+03, /* K = 13 */
1561 (PID.TID 0000.0001) -1.580000000000000E+03, /* K = 14 */
1562 (PID.TID 0000.0001) -1.980000000000000E+03, /* K = 15 */
1563 (PID.TID 0000.0001) -2.460000000000000E+03, /* K = 16 */
1564 (PID.TID 0000.0001) -3.030000000000000E+03, /* K = 17 */
1565 (PID.TID 0000.0001) -3.685000000000000E+03, /* K = 18 */
1566 (PID.TID 0000.0001) -4.410000000000000E+03, /* K = 19 */
1567 (PID.TID 0000.0001) -5.185000000000000E+03, /* K = 20 */
1568 (PID.TID 0000.0001) -6.000000000000000E+03 /* K = 21 */
1569 (PID.TID 0000.0001) ;
1570 (PID.TID 0000.0001) deepFacC = /* deep-model grid factor @ cell-Center (-) */
1571 (PID.TID 0000.0001) 20 @ 1.000000000000000E+00 /* K = 1: 20 */
1572 (PID.TID 0000.0001) ;
1573 (PID.TID 0000.0001) deepFacF = /* deep-model grid factor @ W-Interface (-) */
1574 (PID.TID 0000.0001) 21 @ 1.000000000000000E+00 /* K = 1: 21 */
1575 (PID.TID 0000.0001) ;
1576 (PID.TID 0000.0001) rotateGrid = /* use rotated grid ( True/False ) */
1577 (PID.TID 0000.0001) F
1578 (PID.TID 0000.0001) ;
1579 (PID.TID 0000.0001) phiEuler = /* Euler angle, rotation about original z-coordinate [rad] */
1580 (PID.TID 0000.0001) 0.000000000000000E+00
1581 (PID.TID 0000.0001) ;
1582 (PID.TID 0000.0001) thetaEuler = /* Euler angle, rotation about new x-coordinate [rad] */
1583 (PID.TID 0000.0001) 0.000000000000000E+00
1584 (PID.TID 0000.0001) ;
1585 (PID.TID 0000.0001) psiEuler = /* Euler angle, rotation about new z-coordinate [rad] */
1586 (PID.TID 0000.0001) 0.000000000000000E+00
1587 (PID.TID 0000.0001) ;
1588 (PID.TID 0000.0001) dxF = /* dxF(:,1,:,1) ( units: m ) */
1589 (PID.TID 0000.0001) 90 @ 9.246038586187513E+04 /* I = 1: 90 */
1590 (PID.TID 0000.0001) ;
1591 (PID.TID 0000.0001) dxF = /* dxF(1,:,1,:) ( units: m ) */
1592 (PID.TID 0000.0001) 9.246038586187513E+04, /* J = 1 */
1593 (PID.TID 0000.0001) 1.225786591246834E+05, /* J = 2 */
1594 (PID.TID 0000.0001) 1.520997414818001E+05, /* J = 3 */
1595 (PID.TID 0000.0001) 1.808798091874300E+05, /* J = 4 */
1596 (PID.TID 0000.0001) 2.087786486446736E+05, /* J = 5 */
1597 (PID.TID 0000.0001) 2.356603395120765E+05, /* J = 6 */
1598 (PID.TID 0000.0001) 2.613939168938713E+05, /* J = 7 */
1599 (PID.TID 0000.0001) 2.858540093877838E+05, /* J = 8 */
1600 (PID.TID 0000.0001) 3.089214498819034E+05, /* J = 9 */
1601 (PID.TID 0000.0001) 3.304838561248741E+05, /* J = 10 */
1602 (PID.TID 0000.0001) 3.504361782409254E+05, /* J = 11 */
1603 (PID.TID 0000.0001) 3.686812105223082E+05, /* J = 12 */
1604 (PID.TID 0000.0001) 3.851300650057323E+05, /* J = 13 */
1605 (PID.TID 0000.0001) 3.997026045255871E+05, /* J = 14 */
1606 (PID.TID 0000.0001) 4.123278331341585E+05, /* J = 15 */
1607 (PID.TID 0000.0001) 4.229442419867491E+05, /* J = 16 */
1608 (PID.TID 0000.0001) 4.315001090065870E+05, /* J = 17 */
1609 (PID.TID 0000.0001) 4.379537508695838E+05, /* J = 18 */
1610 (PID.TID 0000.0001) 4.422737260813012E+05, /* J = 19 */
1611 (PID.TID 0000.0001) 2 @ 4.444389881567502E+05, /* J = 20: 21 */
1612 (PID.TID 0000.0001) 4.422737260813012E+05, /* J = 22 */
1613 (PID.TID 0000.0001) 4.379537508695838E+05, /* J = 23 */
1614 (PID.TID 0000.0001) 4.315001090065870E+05, /* J = 24 */
1615 (PID.TID 0000.0001) 4.229442419867491E+05, /* J = 25 */
1616 (PID.TID 0000.0001) 4.123278331341585E+05, /* J = 26 */
1617 (PID.TID 0000.0001) 3.997026045255871E+05, /* J = 27 */
1618 (PID.TID 0000.0001) 3.851300650057323E+05, /* J = 28 */
1619 (PID.TID 0000.0001) 3.686812105223082E+05, /* J = 29 */
1620 (PID.TID 0000.0001) 3.504361782409254E+05, /* J = 30 */
1621 (PID.TID 0000.0001) 3.304838561248741E+05, /* J = 31 */
1622 (PID.TID 0000.0001) 3.089214498819034E+05, /* J = 32 */
1623 (PID.TID 0000.0001) 2.858540093877838E+05, /* J = 33 */
1624 (PID.TID 0000.0001) 2.613939168938713E+05, /* J = 34 */
1625 (PID.TID 0000.0001) 2.356603395120765E+05, /* J = 35 */
1626 (PID.TID 0000.0001) 2.087786486446736E+05, /* J = 36 */
1627 (PID.TID 0000.0001) 1.808798091874300E+05, /* J = 37 */
1628 (PID.TID 0000.0001) 1.520997414818001E+05, /* J = 38 */
1629 (PID.TID 0000.0001) 1.225786591246834E+05, /* J = 39 */
1630 (PID.TID 0000.0001) 9.246038586187513E+04 /* J = 40 */
1631 (PID.TID 0000.0001) ;
1632 (PID.TID 0000.0001) dyF = /* dyF(:,1,:,1) ( units: m ) */
1633 (PID.TID 0000.0001) 90 @ 4.447098934081552E+05 /* I = 1: 90 */
1634 (PID.TID 0000.0001) ;
1635 (PID.TID 0000.0001) dyF = /* dyF(1,:,1,:) ( units: m ) */
1636 (PID.TID 0000.0001) 40 @ 4.447098934081552E+05 /* J = 1: 40 */
1637 (PID.TID 0000.0001) ;
1638 (PID.TID 0000.0001) dxG = /* dxG(:,1,:,1) ( units: m ) */
1639 (PID.TID 0000.0001) 90 @ 7.722306258078101E+04 /* I = 1: 90 */
1640 (PID.TID 0000.0001) ;
1641 (PID.TID 0000.0001) dxG = /* dxG(1,:,1,:) ( units: m ) */
1642 (PID.TID 0000.0001) 7.722306258078101E+04, /* J = 1 */
1643 (PID.TID 0000.0001) 1.075850604052271E+05, /* J = 2 */
1644 (PID.TID 0000.0001) 1.374229146297914E+05, /* J = 3 */
1645 (PID.TID 0000.0001) 1.665912582279823E+05, /* J = 4 */
1646 (PID.TID 0000.0001) 1.949479859617814E+05, /* J = 5 */
1647 (PID.TID 0000.0001) 2.223549467040777E+05, /* J = 6 */
1648 (PID.TID 0000.0001) 2.486786164970726E+05, /* J = 7 */
1649 (PID.TID 0000.0001) 2.737907490675810E+05, /* J = 8 */
1650 (PID.TID 0000.0001) 2.975690006299821E+05, /* J = 9 */
1651 (PID.TID 0000.0001) 3.198975259328452E+05, /* J = 10 */
1652 (PID.TID 0000.0001) 3.406675426453503E+05, /* J = 11 */
1653 (PID.TID 0000.0001) 3.597778613338690E+05, /* J = 12 */
1654 (PID.TID 0000.0001) 3.771353784467131E+05, /* J = 13 */
1655 (PID.TID 0000.0001) 3.926555299052806E+05, /* J = 14 */
1656 (PID.TID 0000.0001) 4.062627030917454E+05, /* J = 15 */
1657 (PID.TID 0000.0001) 4.178906052261313E+05, /* J = 16 */
1658 (PID.TID 0000.0001) 4.274825863380723E+05, /* J = 17 */
1659 (PID.TID 0000.0001) 4.349919152597734E+05, /* J = 18 */
1660 (PID.TID 0000.0001) 4.403820072955634E+05, /* J = 19 */
1661 (PID.TID 0000.0001) 4.436266024588540E+05, /* J = 20 */
1662 (PID.TID 0000.0001) 4.447098934081552E+05, /* J = 21 */
1663 (PID.TID 0000.0001) 4.436266024588540E+05, /* J = 22 */
1664 (PID.TID 0000.0001) 4.403820072955634E+05, /* J = 23 */
1665 (PID.TID 0000.0001) 4.349919152597734E+05, /* J = 24 */
1666 (PID.TID 0000.0001) 4.274825863380723E+05, /* J = 25 */
1667 (PID.TID 0000.0001) 4.178906052261313E+05, /* J = 26 */
1668 (PID.TID 0000.0001) 4.062627030917454E+05, /* J = 27 */
1669 (PID.TID 0000.0001) 3.926555299052806E+05, /* J = 28 */
1670 (PID.TID 0000.0001) 3.771353784467131E+05, /* J = 29 */
1671 (PID.TID 0000.0001) 3.597778613338690E+05, /* J = 30 */
1672 (PID.TID 0000.0001) 3.406675426453503E+05, /* J = 31 */
1673 (PID.TID 0000.0001) 3.198975259328452E+05, /* J = 32 */
1674 (PID.TID 0000.0001) 2.975690006299821E+05, /* J = 33 */
1675 (PID.TID 0000.0001) 2.737907490675810E+05, /* J = 34 */
1676 (PID.TID 0000.0001) 2.486786164970726E+05, /* J = 35 */
1677 (PID.TID 0000.0001) 2.223549467040777E+05, /* J = 36 */
1678 (PID.TID 0000.0001) 1.949479859617814E+05, /* J = 37 */
1679 (PID.TID 0000.0001) 1.665912582279823E+05, /* J = 38 */
1680 (PID.TID 0000.0001) 1.374229146297914E+05, /* J = 39 */
1681 (PID.TID 0000.0001) 1.075850604052271E+05 /* J = 40 */
1682 (PID.TID 0000.0001) ;
1683 (PID.TID 0000.0001) dyG = /* dyG(:,1,:,1) ( units: m ) */
1684 (PID.TID 0000.0001) 90 @ 4.447098934081552E+05 /* I = 1: 90 */
1685 (PID.TID 0000.0001) ;
1686 (PID.TID 0000.0001) dyG = /* dyG(1,:,1,:) ( units: m ) */
1687 (PID.TID 0000.0001) 40 @ 4.447098934081552E+05 /* J = 1: 40 */
1688 (PID.TID 0000.0001) ;
1689 (PID.TID 0000.0001) dxC = /* dxC(:,1,:,1) ( units: m ) */
1690 (PID.TID 0000.0001) 90 @ 9.246038586187513E+04 /* I = 1: 90 */
1691 (PID.TID 0000.0001) ;
1692 (PID.TID 0000.0001) dxC = /* dxC(1,:,1,:) ( units: m ) */
1693 (PID.TID 0000.0001) 9.246038586187513E+04, /* J = 1 */
1694 (PID.TID 0000.0001) 1.225786591246834E+05, /* J = 2 */
1695 (PID.TID 0000.0001) 1.520997414818001E+05, /* J = 3 */
1696 (PID.TID 0000.0001) 1.808798091874300E+05, /* J = 4 */
1697 (PID.TID 0000.0001) 2.087786486446736E+05, /* J = 5 */
1698 (PID.TID 0000.0001) 2.356603395120765E+05, /* J = 6 */
1699 (PID.TID 0000.0001) 2.613939168938713E+05, /* J = 7 */
1700 (PID.TID 0000.0001) 2.858540093877838E+05, /* J = 8 */
1701 (PID.TID 0000.0001) 3.089214498819034E+05, /* J = 9 */
1702 (PID.TID 0000.0001) 3.304838561248741E+05, /* J = 10 */
1703 (PID.TID 0000.0001) 3.504361782409254E+05, /* J = 11 */
1704 (PID.TID 0000.0001) 3.686812105223082E+05, /* J = 12 */
1705 (PID.TID 0000.0001) 3.851300650057323E+05, /* J = 13 */
1706 (PID.TID 0000.0001) 3.997026045255871E+05, /* J = 14 */
1707 (PID.TID 0000.0001) 4.123278331341585E+05, /* J = 15 */
1708 (PID.TID 0000.0001) 4.229442419867491E+05, /* J = 16 */
1709 (PID.TID 0000.0001) 4.315001090065870E+05, /* J = 17 */
1710 (PID.TID 0000.0001) 4.379537508695838E+05, /* J = 18 */
1711 (PID.TID 0000.0001) 4.422737260813012E+05, /* J = 19 */
1712 (PID.TID 0000.0001) 2 @ 4.444389881567502E+05, /* J = 20: 21 */
1713 (PID.TID 0000.0001) 4.422737260813012E+05, /* J = 22 */
1714 (PID.TID 0000.0001) 4.379537508695838E+05, /* J = 23 */
1715 (PID.TID 0000.0001) 4.315001090065870E+05, /* J = 24 */
1716 (PID.TID 0000.0001) 4.229442419867491E+05, /* J = 25 */
1717 (PID.TID 0000.0001) 4.123278331341585E+05, /* J = 26 */
1718 (PID.TID 0000.0001) 3.997026045255871E+05, /* J = 27 */
1719 (PID.TID 0000.0001) 3.851300650057323E+05, /* J = 28 */
1720 (PID.TID 0000.0001) 3.686812105223082E+05, /* J = 29 */
1721 (PID.TID 0000.0001) 3.504361782409254E+05, /* J = 30 */
1722 (PID.TID 0000.0001) 3.304838561248741E+05, /* J = 31 */
1723 (PID.TID 0000.0001) 3.089214498819034E+05, /* J = 32 */
1724 (PID.TID 0000.0001) 2.858540093877838E+05, /* J = 33 */
1725 (PID.TID 0000.0001) 2.613939168938713E+05, /* J = 34 */
1726 (PID.TID 0000.0001) 2.356603395120765E+05, /* J = 35 */
1727 (PID.TID 0000.0001) 2.087786486446736E+05, /* J = 36 */
1728 (PID.TID 0000.0001) 1.808798091874300E+05, /* J = 37 */
1729 (PID.TID 0000.0001) 1.520997414818001E+05, /* J = 38 */
1730 (PID.TID 0000.0001) 1.225786591246834E+05, /* J = 39 */
1731 (PID.TID 0000.0001) 9.246038586187513E+04 /* J = 40 */
1732 (PID.TID 0000.0001) ;
1733 (PID.TID 0000.0001) dyC = /* dyC(:,1,:,1) ( units: m ) */
1734 (PID.TID 0000.0001) 90 @ 4.447098934081552E+05 /* I = 1: 90 */
1735 (PID.TID 0000.0001) ;
1736 (PID.TID 0000.0001) dyC = /* dyC(1,:,1,:) ( units: m ) */
1737 (PID.TID 0000.0001) 40 @ 4.447098934081552E+05 /* J = 1: 40 */
1738 (PID.TID 0000.0001) ;
1739 (PID.TID 0000.0001) dxV = /* dxV(:,1,:,1) ( units: m ) */
1740 (PID.TID 0000.0001) 90 @ 7.722306258078101E+04 /* I = 1: 90 */
1741 (PID.TID 0000.0001) ;
1742 (PID.TID 0000.0001) dxV = /* dxV(1,:,1,:) ( units: m ) */
1743 (PID.TID 0000.0001) 7.722306258078101E+04, /* J = 1 */
1744 (PID.TID 0000.0001) 1.075850604052271E+05, /* J = 2 */
1745 (PID.TID 0000.0001) 1.374229146297914E+05, /* J = 3 */
1746 (PID.TID 0000.0001) 1.665912582279823E+05, /* J = 4 */
1747 (PID.TID 0000.0001) 1.949479859617814E+05, /* J = 5 */
1748 (PID.TID 0000.0001) 2.223549467040777E+05, /* J = 6 */
1749 (PID.TID 0000.0001) 2.486786164970726E+05, /* J = 7 */
1750 (PID.TID 0000.0001) 2.737907490675810E+05, /* J = 8 */
1751 (PID.TID 0000.0001) 2.975690006299821E+05, /* J = 9 */
1752 (PID.TID 0000.0001) 3.198975259328452E+05, /* J = 10 */
1753 (PID.TID 0000.0001) 3.406675426453503E+05, /* J = 11 */
1754 (PID.TID 0000.0001) 3.597778613338690E+05, /* J = 12 */
1755 (PID.TID 0000.0001) 3.771353784467131E+05, /* J = 13 */
1756 (PID.TID 0000.0001) 3.926555299052806E+05, /* J = 14 */
1757 (PID.TID 0000.0001) 4.062627030917454E+05, /* J = 15 */
1758 (PID.TID 0000.0001) 4.178906052261313E+05, /* J = 16 */
1759 (PID.TID 0000.0001) 4.274825863380723E+05, /* J = 17 */
1760 (PID.TID 0000.0001) 4.349919152597734E+05, /* J = 18 */
1761 (PID.TID 0000.0001) 4.403820072955634E+05, /* J = 19 */
1762 (PID.TID 0000.0001) 4.436266024588540E+05, /* J = 20 */
1763 (PID.TID 0000.0001) 4.447098934081552E+05, /* J = 21 */
1764 (PID.TID 0000.0001) 4.436266024588540E+05, /* J = 22 */
1765 (PID.TID 0000.0001) 4.403820072955634E+05, /* J = 23 */
1766 (PID.TID 0000.0001) 4.349919152597734E+05, /* J = 24 */
1767 (PID.TID 0000.0001) 4.274825863380723E+05, /* J = 25 */
1768 (PID.TID 0000.0001) 4.178906052261313E+05, /* J = 26 */
1769 (PID.TID 0000.0001) 4.062627030917454E+05, /* J = 27 */
1770 (PID.TID 0000.0001) 3.926555299052806E+05, /* J = 28 */
1771 (PID.TID 0000.0001) 3.771353784467131E+05, /* J = 29 */
1772 (PID.TID 0000.0001) 3.597778613338690E+05, /* J = 30 */
1773 (PID.TID 0000.0001) 3.406675426453503E+05, /* J = 31 */
1774 (PID.TID 0000.0001) 3.198975259328452E+05, /* J = 32 */
1775 (PID.TID 0000.0001) 2.975690006299821E+05, /* J = 33 */
1776 (PID.TID 0000.0001) 2.737907490675810E+05, /* J = 34 */
1777 (PID.TID 0000.0001) 2.486786164970726E+05, /* J = 35 */
1778 (PID.TID 0000.0001) 2.223549467040777E+05, /* J = 36 */
1779 (PID.TID 0000.0001) 1.949479859617814E+05, /* J = 37 */
1780 (PID.TID 0000.0001) 1.665912582279823E+05, /* J = 38 */
1781 (PID.TID 0000.0001) 1.374229146297914E+05, /* J = 39 */
1782 (PID.TID 0000.0001) 1.075850604052271E+05 /* J = 40 */
1783 (PID.TID 0000.0001) ;
1784 (PID.TID 0000.0001) dyU = /* dyU(:,1,:,1) ( units: m ) */
1785 (PID.TID 0000.0001) 90 @ 4.447098934081552E+05 /* I = 1: 90 */
1786 (PID.TID 0000.0001) ;
1787 (PID.TID 0000.0001) dyU = /* dyU(1,:,1,:) ( units: m ) */
1788 (PID.TID 0000.0001) 40 @ 4.447098934081552E+05 /* J = 1: 40 */
1789 (PID.TID 0000.0001) ;
1790 (PID.TID 0000.0001) rA = /* rA (:,1,:,1) ( units: m^2 ) */
1791 (PID.TID 0000.0001) 90 @ 4.110969866729047E+10 /* I = 1: 90 */
1792 (PID.TID 0000.0001) ;
1793 (PID.TID 0000.0001) rA = /* rA (1,:,1,:) ( units: m^2 ) */
1794 (PID.TID 0000.0001) 4.110969866729047E+10, /* J = 1 */
1795 (PID.TID 0000.0001) 5.450087291636666E+10, /* J = 2 */
1796 (PID.TID 0000.0001) 6.762652439100235E+10, /* J = 3 */
1797 (PID.TID 0000.0001) 8.042270623659996E+10, /* J = 4 */
1798 (PID.TID 0000.0001) 9.282707674147525E+10, /* J = 5 */
1799 (PID.TID 0000.0001) 1.047792030594103E+11, /* J = 6 */
1800 (PID.TID 0000.0001) 1.162208556324093E+11, /* J = 7 */
1801 (PID.TID 0000.0001) 1.270962918792468E+11, /* J = 8 */
1802 (PID.TID 0000.0001) 1.373525277677230E+11, /* J = 9 */
1803 (PID.TID 0000.0001) 1.469395959475426E+11, /* J = 10 */
1804 (PID.TID 0000.0001) 1.558107891862220E+11, /* J = 11 */
1805 (PID.TID 0000.0001) 1.639228879220326E+11, /* J = 12 */
1806 (PID.TID 0000.0001) 1.712363708253574E+11, /* J = 13 */
1807 (PID.TID 0000.0001) 1.777156073426415E+11, /* J = 14 */
1808 (PID.TID 0000.0001) 1.833290312848623E+11, /* J = 15 */
1809 (PID.TID 0000.0001) 1.880492946148330E+11, /* J = 16 */
1810 (PID.TID 0000.0001) 1.918534006840893E+11, /* J = 17 */
1811 (PID.TID 0000.0001) 1.947228162702493E+11, /* J = 18 */
1812 (PID.TID 0000.0001) 1.966435618690094E+11, /* J = 19 */
1813 (PID.TID 0000.0001) 2 @ 1.976062798008856E+11, /* J = 20: 21 */
1814 (PID.TID 0000.0001) 1.966435618690094E+11, /* J = 22 */
1815 (PID.TID 0000.0001) 1.947228162702493E+11, /* J = 23 */
1816 (PID.TID 0000.0001) 1.918534006840893E+11, /* J = 24 */
1817 (PID.TID 0000.0001) 1.880492946148330E+11, /* J = 25 */
1818 (PID.TID 0000.0001) 1.833290312848623E+11, /* J = 26 */
1819 (PID.TID 0000.0001) 1.777156073426415E+11, /* J = 27 */
1820 (PID.TID 0000.0001) 1.712363708253574E+11, /* J = 28 */
1821 (PID.TID 0000.0001) 1.639228879220326E+11, /* J = 29 */
1822 (PID.TID 0000.0001) 1.558107891862220E+11, /* J = 30 */
1823 (PID.TID 0000.0001) 1.469395959475426E+11, /* J = 31 */
1824 (PID.TID 0000.0001) 1.373525277677230E+11, /* J = 32 */
1825 (PID.TID 0000.0001) 1.270962918792468E+11, /* J = 33 */
1826 (PID.TID 0000.0001) 1.162208556324093E+11, /* J = 34 */
1827 (PID.TID 0000.0001) 1.047792030594103E+11, /* J = 35 */
1828 (PID.TID 0000.0001) 9.282707674147525E+10, /* J = 36 */
1829 (PID.TID 0000.0001) 8.042270623659996E+10, /* J = 37 */
1830 (PID.TID 0000.0001) 6.762652439100235E+10, /* J = 38 */
1831 (PID.TID 0000.0001) 5.450087291636666E+10, /* J = 39 */
1832 (PID.TID 0000.0001) 4.110969866729047E+10 /* J = 40 */
1833 (PID.TID 0000.0001) ;
1834 (PID.TID 0000.0001) rAw = /* rAw(:,1,:,1) ( units: m^2 ) */
1835 (PID.TID 0000.0001) 90 @ 4.110969866729047E+10 /* I = 1: 90 */
1836 (PID.TID 0000.0001) ;
1837 (PID.TID 0000.0001) rAw = /* rAw(1,:,1,:) ( units: m^2 ) */
1838 (PID.TID 0000.0001) 4.110969866729047E+10, /* J = 1 */
1839 (PID.TID 0000.0001) 5.450087291636666E+10, /* J = 2 */
1840 (PID.TID 0000.0001) 6.762652439100235E+10, /* J = 3 */
1841 (PID.TID 0000.0001) 8.042270623659996E+10, /* J = 4 */
1842 (PID.TID 0000.0001) 9.282707674147525E+10, /* J = 5 */
1843 (PID.TID 0000.0001) 1.047792030594103E+11, /* J = 6 */
1844 (PID.TID 0000.0001) 1.162208556324093E+11, /* J = 7 */
1845 (PID.TID 0000.0001) 1.270962918792468E+11, /* J = 8 */
1846 (PID.TID 0000.0001) 1.373525277677230E+11, /* J = 9 */
1847 (PID.TID 0000.0001) 1.469395959475426E+11, /* J = 10 */
1848 (PID.TID 0000.0001) 1.558107891862220E+11, /* J = 11 */
1849 (PID.TID 0000.0001) 1.639228879220326E+11, /* J = 12 */
1850 (PID.TID 0000.0001) 1.712363708253574E+11, /* J = 13 */
1851 (PID.TID 0000.0001) 1.777156073426415E+11, /* J = 14 */
1852 (PID.TID 0000.0001) 1.833290312848623E+11, /* J = 15 */
1853 (PID.TID 0000.0001) 1.880492946148330E+11, /* J = 16 */
1854 (PID.TID 0000.0001) 1.918534006840893E+11, /* J = 17 */
1855 (PID.TID 0000.0001) 1.947228162702493E+11, /* J = 18 */
1856 (PID.TID 0000.0001) 1.966435618690094E+11, /* J = 19 */
1857 (PID.TID 0000.0001) 2 @ 1.976062798008856E+11, /* J = 20: 21 */
1858 (PID.TID 0000.0001) 1.966435618690094E+11, /* J = 22 */
1859 (PID.TID 0000.0001) 1.947228162702493E+11, /* J = 23 */
1860 (PID.TID 0000.0001) 1.918534006840893E+11, /* J = 24 */
1861 (PID.TID 0000.0001) 1.880492946148330E+11, /* J = 25 */
1862 (PID.TID 0000.0001) 1.833290312848623E+11, /* J = 26 */
1863 (PID.TID 0000.0001) 1.777156073426415E+11, /* J = 27 */
1864 (PID.TID 0000.0001) 1.712363708253574E+11, /* J = 28 */
1865 (PID.TID 0000.0001) 1.639228879220326E+11, /* J = 29 */
1866 (PID.TID 0000.0001) 1.558107891862220E+11, /* J = 30 */
1867 (PID.TID 0000.0001) 1.469395959475426E+11, /* J = 31 */
1868 (PID.TID 0000.0001) 1.373525277677230E+11, /* J = 32 */
1869 (PID.TID 0000.0001) 1.270962918792468E+11, /* J = 33 */
1870 (PID.TID 0000.0001) 1.162208556324093E+11, /* J = 34 */
1871 (PID.TID 0000.0001) 1.047792030594103E+11, /* J = 35 */
1872 (PID.TID 0000.0001) 9.282707674147525E+10, /* J = 36 */
1873 (PID.TID 0000.0001) 8.042270623659996E+10, /* J = 37 */
1874 (PID.TID 0000.0001) 6.762652439100235E+10, /* J = 38 */
1875 (PID.TID 0000.0001) 5.450087291636666E+10, /* J = 39 */
1876 (PID.TID 0000.0001) 4.110969866729047E+10 /* J = 40 */
1877 (PID.TID 0000.0001) ;
1878 (PID.TID 0000.0001) rAs = /* rAs(:,1,:,1) ( units: m^2 ) */
1879 (PID.TID 0000.0001) 90 @ 3.433488626798251E+10 /* I = 1: 90 */
1880 (PID.TID 0000.0001) ;
1881 (PID.TID 0000.0001) rAs = /* rAs(1,:,1,:) ( units: m^2 ) */
1882 (PID.TID 0000.0001) 3.433488626798251E+10, /* J = 1 */
1883 (PID.TID 0000.0001) 4.783442523123625E+10, /* J = 2 */
1884 (PID.TID 0000.0001) 6.110091968306415E+10, /* J = 3 */
1885 (PID.TID 0000.0001) 7.406973659603818E+10, /* J = 4 */
1886 (PID.TID 0000.0001) 8.667769319778081E+10, /* J = 5 */
1887 (PID.TID 0000.0001) 9.886336479107465E+10, /* J = 6 */
1888 (PID.TID 0000.0001) 1.105673840088173E+11, /* J = 7 */
1889 (PID.TID 0000.0001) 1.217327300458638E+11, /* J = 8 */
1890 (PID.TID 0000.0001) 1.323050064586578E+11, /* J = 9 */
1891 (PID.TID 0000.0001) 1.422327061792377E+11, /* J = 10 */
1892 (PID.TID 0000.0001) 1.514674624524945E+11, /* J = 11 */
1893 (PID.TID 0000.0001) 1.599642844741385E+11, /* J = 12 */
1894 (PID.TID 0000.0001) 1.676817765813788E+11, /* J = 13 */
1895 (PID.TID 0000.0001) 1.745823399284268E+11, /* J = 14 */
1896 (PID.TID 0000.0001) 1.806323556642997E+11, /* J = 15 */
1897 (PID.TID 0000.0001) 1.858023487204767E+11, /* J = 16 */
1898 (PID.TID 0000.0001) 1.900671314104744E+11, /* J = 17 */
1899 (PID.TID 0000.0001) 1.934059261417216E+11, /* J = 18 */
1900 (PID.TID 0000.0001) 1.958024666419019E+11, /* J = 19 */
1901 (PID.TID 0000.0001) 1.972450772065981E+11, /* J = 20 */
1902 (PID.TID 0000.0001) 1.977267295821496E+11, /* J = 21 */
1903 (PID.TID 0000.0001) 1.972450772065981E+11, /* J = 22 */
1904 (PID.TID 0000.0001) 1.958024666419019E+11, /* J = 23 */
1905 (PID.TID 0000.0001) 1.934059261417216E+11, /* J = 24 */
1906 (PID.TID 0000.0001) 1.900671314104744E+11, /* J = 25 */
1907 (PID.TID 0000.0001) 1.858023487204767E+11, /* J = 26 */
1908 (PID.TID 0000.0001) 1.806323556642997E+11, /* J = 27 */
1909 (PID.TID 0000.0001) 1.745823399284268E+11, /* J = 28 */
1910 (PID.TID 0000.0001) 1.676817765813788E+11, /* J = 29 */
1911 (PID.TID 0000.0001) 1.599642844741385E+11, /* J = 30 */
1912 (PID.TID 0000.0001) 1.514674624524945E+11, /* J = 31 */
1913 (PID.TID 0000.0001) 1.422327061792377E+11, /* J = 32 */
1914 (PID.TID 0000.0001) 1.323050064586578E+11, /* J = 33 */
1915 (PID.TID 0000.0001) 1.217327300458638E+11, /* J = 34 */
1916 (PID.TID 0000.0001) 1.105673840088173E+11, /* J = 35 */
1917 (PID.TID 0000.0001) 9.886336479107465E+10, /* J = 36 */
1918 (PID.TID 0000.0001) 8.667769319778081E+10, /* J = 37 */
1919 (PID.TID 0000.0001) 7.406973659603818E+10, /* J = 38 */
1920 (PID.TID 0000.0001) 6.110091968306415E+10, /* J = 39 */
1921 (PID.TID 0000.0001) 4.783442523123625E+10 /* J = 40 */
1922 (PID.TID 0000.0001) ;
1923 (PID.TID 0000.0001) globalArea = /* Integrated horizontal Area (m^2) */
1924 (PID.TID 0000.0001) 3.335490855875281E+14
1925 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1926 (PID.TID 0000.0001) rAc_3dMean = /* 3-D Averaged grid-cell Area (m^2) */
1927 (PID.TID 0000.0001) 1.557727218313311E+11
1928 (PID.TID 0000.0001) ;
1929 (PID.TID 0000.0001) n2dWetPts = /* Number of wet surface points (-) */
1930 (PID.TID 0000.0001) 2.158000000000000E+03
1931 (PID.TID 0000.0001) ;
1932 (PID.TID 0000.0001) n3dWetPts = /* Number of wet grid points (-) */
1933 (PID.TID 0000.0001) 3.799400000000000E+04
1934 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1935 (PID.TID 0000.0001) // =======================================================
1936 (PID.TID 0000.0001) // End of Model config. summary
1937 (PID.TID 0000.0001) // =======================================================
1938 (PID.TID 0000.0001)
1939 (PID.TID 0000.0001) == Packages configuration : Check & print summary ==
1940 (PID.TID 0000.0001)
1941 (PID.TID 0000.0001) GMREDI_CHECK: #define GMREDI
1942 (PID.TID 0000.0001) GM_AdvForm = /* if FALSE => use SkewFlux Form */
1943 (PID.TID 0000.0001) T
1944 (PID.TID 0000.0001) ;
1945 (PID.TID 0000.0001) GM_InMomAsStress = /* if TRUE => apply as Eddy Stress */
1946 (PID.TID 0000.0001) F
1947 (PID.TID 0000.0001) ;
1948 (PID.TID 0000.0001) GM_AdvSeparate = /* Calc Bolus & Euler Adv. separately */
1949 (PID.TID 0000.0001) F
1950 (PID.TID 0000.0001) ;
1951 (PID.TID 0000.0001) GM_ExtraDiag = /* Tensor Extra Diag (line 1&2) non 0 */
1952 (PID.TID 0000.0001) T
1953 (PID.TID 0000.0001) ;
1954 (PID.TID 0000.0001) GM_isopycK = /* Background Isopyc. Diffusivity [m^2/s] */
1955 (PID.TID 0000.0001) 1.100000000000000E+03
1956 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1957 (PID.TID 0000.0001) GM_advec*K = /* Backg. GM-Advec(=Bolus) Diffusivity [m^2/s] */
1958 (PID.TID 0000.0001) 9.000000000000000E+02
1959 (PID.TID 0000.0001) ;
76cd8733fa Oliv*1960 (PID.TID 0000.0001) GM_skewflx*K = /* Background GM_SkewFlx Diffusivity [m^2/s] */
1961 (PID.TID 0000.0001) 0.000000000000000E+00
1962 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*1963 (PID.TID 0000.0001) GM_isoFac_calcK = /* Fraction of dynamic K added to Redi tensor */
1964 (PID.TID 0000.0001) 1.000000000000000E+00
76cd8733fa Oliv*1965 (PID.TID 0000.0001) ;
1966 (PID.TID 0000.0001) GM_Kmin_horiz = /* Minimum Horizontal Diffusivity [m^2/s] */
1967 (PID.TID 0000.0001) 5.000000000000000E+01
1968 (PID.TID 0000.0001) ;
1969 (PID.TID 0000.0001) GM_Visbeck_alpha = /* Visbeck alpha coeff. [-] */
1970 (PID.TID 0000.0001) 0.000000000000000E+00
1971 (PID.TID 0000.0001) ;
1972 (PID.TID 0000.0001) GM_Small_Number = /* epsilon used in slope calc */
1973 (PID.TID 0000.0001) 9.999999999999999E-21
1974 (PID.TID 0000.0001) ;
1975 (PID.TID 0000.0001) GM_slopeSqCutoff = /* Slope^2 cut-off value */
1976 (PID.TID 0000.0001) 1.000000000000000E+08
1977 (PID.TID 0000.0001) ;
1978 (PID.TID 0000.0001) GM_taper_scheme = /* Type of Tapering/Clipping scheme */
1979 (PID.TID 0000.0001) 'dm95 '
1980 (PID.TID 0000.0001) ;
1981 (PID.TID 0000.0001) GM_maxSlope = /* Maximum Slope (Tapering/Clipping) */
1982 (PID.TID 0000.0001) 1.000000000000000E-02
1983 (PID.TID 0000.0001) ;
1984 (PID.TID 0000.0001) GM_facTrL2dz = /* Minimum Trans.Layer Thick. (factor of dz) */
1985 (PID.TID 0000.0001) 1.000000000000000E+00
1986 (PID.TID 0000.0001) ;
1987 (PID.TID 0000.0001) GM_facTrL2ML = /* Max.Trans.Layer Thick. (factor of MxL Depth)*/
1988 (PID.TID 0000.0001) 5.000000000000000E+00
1989 (PID.TID 0000.0001) ;
1990 (PID.TID 0000.0001) GM_maxTransLay = /* Maximum Transition Layer Thickness [m] */
1991 (PID.TID 0000.0001) 5.000000000000000E+02
1992 (PID.TID 0000.0001) ;
1993 (PID.TID 0000.0001) GM_UseBVP = /* if TRUE => use bvp a la Ferrari et al. (2010) */
1994 (PID.TID 0000.0001) F
1995 (PID.TID 0000.0001) ;
1996 (PID.TID 0000.0001) GM_BVP_ModeNumber = /* Vertical mode number for BVP wave speed */
1997 (PID.TID 0000.0001) 1
1998 (PID.TID 0000.0001) ;
1999 (PID.TID 0000.0001) GM_BVP_cMin = /* Minimum wave speed for BVP [m/s] */
2000 (PID.TID 0000.0001) 1.000000000000000E-01
2001 (PID.TID 0000.0001) ;
2002 (PID.TID 0000.0001) GM_useSubMeso = /* if TRUE => use Sub-Meso param. (B.Fox-Kemper) */
2003 (PID.TID 0000.0001) F
2004 (PID.TID 0000.0001) ;
2005 (PID.TID 0000.0001) subMeso_Ceff = /* efficiency coeff. of Mixed-Layer Eddies [-] */
2006 (PID.TID 0000.0001) 7.000000000000001E-02
2007 (PID.TID 0000.0001) ;
2008 (PID.TID 0000.0001) subMeso_invTau = /* inverse of Sub-Meso mixing time-scale [/s] */
2009 (PID.TID 0000.0001) 2.000000000000000E-06
2010 (PID.TID 0000.0001) ;
2011 (PID.TID 0000.0001) subMeso_LfMin = /* minimum length-scale "Lf" [m] */
2012 (PID.TID 0000.0001) 1.000000000000000E+03
2013 (PID.TID 0000.0001) ;
2014 (PID.TID 0000.0001) subMeso_Lmax = /* maximum grid-scale length [m] */
2015 (PID.TID 0000.0001) 1.100000000000000E+05
2016 (PID.TID 0000.0001) ;
b15f6f1e9f Jean*2017 (PID.TID 0000.0001) GM_useLeithQG = /* if TRUE => add QG Leith viscosity to GMRedi tensor */
2018 (PID.TID 0000.0001) F
2019 (PID.TID 0000.0001) ;
2020 (PID.TID 0000.0001) GM_useGEOM = /* using GEOMETRIC */
2021 (PID.TID 0000.0001) F
2022 (PID.TID 0000.0001) ;
76cd8733fa Oliv*2023 (PID.TID 0000.0001) PTRACERS_CHECK: #define ALLOW_PTRACERS
2024 (PID.TID 0000.0001) // ===================================
2025 (PID.TID 0000.0001) // PTRACERS parameters
2026 (PID.TID 0000.0001) // ===================================
2027 (PID.TID 0000.0001) PTRACERS_numInUse = /* number of tracers */
2028 (PID.TID 0000.0001) 1
2029 (PID.TID 0000.0001) ;
2030 (PID.TID 0000.0001) PTRACERS_Iter0 = /* timestep number when tracers are initialized */
2031 (PID.TID 0000.0001) 0
2032 (PID.TID 0000.0001) ;
2033 (PID.TID 0000.0001) PTRACERS_startAllTrc =/* all tracers start @ startTime */
2034 (PID.TID 0000.0001) T
2035 (PID.TID 0000.0001) ;
f93c9f973f Jean*2036 (PID.TID 0000.0001) PTRACERS_doAB_onGpTr =/* apply AB on Tendencies (rather than on Tracers) */
2037 (PID.TID 0000.0001) T
2038 (PID.TID 0000.0001) ;
76cd8733fa Oliv*2039 (PID.TID 0000.0001) PTRACERS_addSrelax2EmP =/* add Salt relaxation to EmP */
2040 (PID.TID 0000.0001) F
2041 (PID.TID 0000.0001) ;
2042 (PID.TID 0000.0001) PTRACERS_dTLev = /* Ptracer timestep ( s ) */
2043 (PID.TID 0000.0001) 20 @ 8.640000000000000E+04 /* K = 1: 20 */
2044 (PID.TID 0000.0001) ;
4cadabcaa8 Jean*2045 (PID.TID 0000.0001) PTRACERS_monitorFreq = /* Frequency^-1 for monitor output (s) */
2046 (PID.TID 0000.0001) 0.000000000000000E+00
2047 (PID.TID 0000.0001) ;
76cd8733fa Oliv*2048 (PID.TID 0000.0001) PTRACERS_dumpFreq = /* Frequency^-1 for snapshot output (s) */
2049 (PID.TID 0000.0001) 8.640000000000000E+04
2050 (PID.TID 0000.0001) ;
2051 (PID.TID 0000.0001) PTRACERS_useRecords = /* all tracers in 1 file */
2052 (PID.TID 0000.0001) F
2053 (PID.TID 0000.0001) ;
2054 (PID.TID 0000.0001) PTRACERS_snapshot_mnc = /* use MNC for snapshot output */
2055 (PID.TID 0000.0001) F
2056 (PID.TID 0000.0001) ;
2057 (PID.TID 0000.0001) PTRACERS_pickup_write_mnc = /* use MNC for writing pickups */
2058 (PID.TID 0000.0001) F
2059 (PID.TID 0000.0001) ;
2060 (PID.TID 0000.0001) PTRACERS_pickup_read_mnc = /* use MNC for reading pickups */
2061 (PID.TID 0000.0001) F
2062 (PID.TID 0000.0001) ;
2063 (PID.TID 0000.0001) -----------------------------------
2064 (PID.TID 0000.0001) tracer number : 1
2065 (PID.TID 0000.0001) PTRACERS_names = /* Tracer short name */
2066 (PID.TID 0000.0001) ''
2067 (PID.TID 0000.0001) ;
2068 (PID.TID 0000.0001) PTRACERS_long_names = /* Tracer long name */
2069 (PID.TID 0000.0001) ''
2070 (PID.TID 0000.0001) ;
2071 (PID.TID 0000.0001) PTRACERS_ioLabel = /* tracer IO Label */
2072 (PID.TID 0000.0001) '01'
2073 (PID.TID 0000.0001) ;
2074 (PID.TID 0000.0001) PTRACERS_advScheme = /* Advection Scheme */
2075 (PID.TID 0000.0001) 2
2076 (PID.TID 0000.0001) ;
2077 (PID.TID 0000.0001) PTRACERS_SOM_Advection = /* tracer uses SOM advection scheme */
2078 (PID.TID 0000.0001) F
2079 (PID.TID 0000.0001) ;
2080 (PID.TID 0000.0001) PTRACERS_ImplVertAdv = /* implicit vert. advection flag */
2081 (PID.TID 0000.0001) F
2082 (PID.TID 0000.0001) ;
f93c9f973f Jean*2083 (PID.TID 0000.0001) PTRACERS_MultiDimAdv = /* tracer uses Multi-Dim advection */
2084 (PID.TID 0000.0001) F
2085 (PID.TID 0000.0001) ;
2086 (PID.TID 0000.0001) PTRACERS_AdamsBashGtr = /* apply AB on tracer tendency */
2087 (PID.TID 0000.0001) T
2088 (PID.TID 0000.0001) ;
2089 (PID.TID 0000.0001) PTRACERS_AdamsBash_Tr = /* apply AB on passive tracer */
2090 (PID.TID 0000.0001) F
2091 (PID.TID 0000.0001) ;
76cd8733fa Oliv*2092 (PID.TID 0000.0001) PTRACERS_diffKh = /* Laplacian Diffusivity */
2093 (PID.TID 0000.0001) 1.000000000000000E+03
2094 (PID.TID 0000.0001) ;
2095 (PID.TID 0000.0001) PTRACERS_diffK4 = /* Biharmonic Diffusivity */
b15f6f1e9f Jean*2096 OAD: TIMING: stamp 0: 1766718338.896350
76cd8733fa Oliv*2097 (PID.TID 0000.0001) 0.000000000000000E+00
2098 (PID.TID 0000.0001) ;
2099 (PID.TID 0000.0001) PTRACERS_diffKrNr = /* Vertical Diffusivity */
2100 (PID.TID 0000.0001) 20 @ 3.000000000000000E-05 /* K = 1: 20 */
2101 (PID.TID 0000.0001) ;
2102 (PID.TID 0000.0001) PTRACERS_useGMRedi = /* apply GM-Redi */
2103 (PID.TID 0000.0001) T
2104 (PID.TID 0000.0001) ;
2105 (PID.TID 0000.0001) PTRACERS_useDWNSLP = /* apply DOWN-SLOPE Flow */
2106 (PID.TID 0000.0001) F
2107 (PID.TID 0000.0001) ;
2108 (PID.TID 0000.0001) PTRACERS_useKPP = /* apply KPP scheme */
2109 (PID.TID 0000.0001) F
2110 (PID.TID 0000.0001) ;
2111 (PID.TID 0000.0001) PTRACERS_ref = /* Reference vertical profile */
2112 (PID.TID 0000.0001) 1.000000000000000E+00, /* K = 1 */
2113 (PID.TID 0000.0001) 19 @ 0.000000000000000E+00 /* K = 2: 20 */
2114 (PID.TID 0000.0001) ;
2115 (PID.TID 0000.0001) PTRACERS_EvPrRn =/* tracer conc. in Evap. & Rain */
2116 (PID.TID 0000.0001) 1.234567000000000E+05
2117 (PID.TID 0000.0001) ;
2118 (PID.TID 0000.0001) -----------------------------------
b15f6f1e9f Jean*2119 (PID.TID 0000.0001) CTRL_CHECK: --> Starts to check CTRL set-up
2120 (PID.TID 0000.0001) CTRL_CHECK: <-- Ends Normally
2121 (PID.TID 0000.0001)
2122 (PID.TID 0000.0001) COST_CHECK: #define ALLOW_COST
76cd8733fa Oliv*2123 (PID.TID 0000.0001) GRDCHK_CHECK: grdchk package
b15f6f1e9f Jean*2124 (PID.TID 0000.0001)
2125 (PID.TID 0000.0001) // =======================================================
2126 (PID.TID 0000.0001) // Gradient check configuration >>> START <<<
2127 (PID.TID 0000.0001) // =======================================================
2128 (PID.TID 0000.0001)
2129 (PID.TID 0000.0001) grdchkvarindex : 8
2130 (PID.TID 0000.0001) matching CTRL xx_file: "xx_ptr1"
2131 (PID.TID 0000.0001) eps = 1.000E-04
2132 (PID.TID 0000.0001) First location: 0
2133 (PID.TID 0000.0001) Last location: 4
2134 (PID.TID 0000.0001) Increment: 1
2135 (PID.TID 0000.0001) grdchkWhichProc: 0
2136 (PID.TID 0000.0001) iLocTile = 1 , jLocTile = 1
2137 (PID.TID 0000.0001)
2138 (PID.TID 0000.0001) // =======================================================
2139 (PID.TID 0000.0001) // Gradient check configuration >>> END <<<
2140 (PID.TID 0000.0001) // =======================================================
2141 (PID.TID 0000.0001)
76cd8733fa Oliv*2142 (PID.TID 0000.0001) GAD_CHECK: #define ALLOW_GENERIC_ADVDIFF
2143 (PID.TID 0000.0001) // =======================================================
2144 (PID.TID 0000.0001) // Check Model config. (CONFIG_CHECK):
2145 (PID.TID 0000.0001) // CONFIG_CHECK : Normal End
2146 (PID.TID 0000.0001) // =======================================================
2147 (PID.TID 0000.0001)
f69308fe16 Oliv*2148 OAD: IT+ 1048576
76cd8733fa Oliv*2149 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2150 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2151 (PID.TID 0000.0001)
f69308fe16 Oliv*2152 OAD: DT+ 1048576
2153 OAD: IT+ 17825792
76cd8733fa Oliv*2154 (PID.TID 0000.0001) // =======================================================
2155 (PID.TID 0000.0001) // Model current state
2156 (PID.TID 0000.0001) // =======================================================
2157 (PID.TID 0000.0001)
2158 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2159 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2160 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2161 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
f69308fe16 Oliv*2162 OAD: IT+ 34603008
2163 OAD: IT+ 51380224
2164 OAD: DT+ 17825792
2165 OAD: IT+ 68157440
2166 OAD: IT+ 84934656
2167 OAD: IT+ 101711872
2168 OAD: DT+ 34603008
2169 OAD: IT+ 118489088
2170 OAD: IT+ 135266304
2171 OAD: IT+ 152043520
b15f6f1e9f Jean*2172 cg2d: Sum(rhs),rhsMax = 1.72084568816899E-14 8.11863158462937E+00
f69308fe16 Oliv*2173 OAD: DT+ 51380224
b15f6f1e9f Jean*2174 OAD: IT+ 168820736
76cd8733fa Oliv*2175 (PID.TID 0000.0001) %CHECKPOINT 4 ckptA
b15f6f1e9f Jean*2176 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2177 --> objf_tracer(bi,bj) = 0.513236485119662D+14
2178 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2179 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2180 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2181 OAD: TIMING: stamp 1: 1766718358.330015
2182 OAD: TIMING: delta stamps 1-0: 19.433665
2183 OAD: TIMING: stamp 2: 1766718378.265810
2184 OAD: TIMING: delta stamps 2-1: 19.935795
2185 OAD: TIMING: delta stamps 2-0: 39.369460
2186 OAD: TIMING: ratio stamps (2-1)/(1-0): 1.993580e+07/1.943366e+07=1.025838e+00
2187 (PID.TID 0000.0001) local fc = 0.184102726786889D+15
2188 (PID.TID 0000.0001) global fc = 0.184102726786889D+15
76cd8733fa Oliv*2189 cg2d: Sum(rhs),rhsMax = 0.00000000000000E+00 0.00000000000000E+00
b15f6f1e9f Jean*2190 cg2d: Sum(rhs),rhsMax = 4.27435864480685E-15 8.71598959798637E+00
2191 cg2d: Sum(rhs),rhsMax = -4.32986979603811E-15 1.47896533401268E+03
2192 cg2d: Sum(rhs),rhsMax = 9.88098491916389E-15 9.18153399773256E+00
2193 cg2d: Sum(rhs),rhsMax = -2.08166817117217E-15 8.02511690830322E+03
76cd8733fa Oliv*2194 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2195 cg2d: Sum(rhs),rhsMax = -3.94129173741931E-15 8.55254939901145E+00
2196 cg2d: Sum(rhs),rhsMax = -3.33066907387547E-16 2.22448456315112E+04
76cd8733fa Oliv*2197 (PID.TID 0000.0001) // =======================================================
2198 (PID.TID 0000.0001) // Gradient-check starts (grdchk_main)
2199 (PID.TID 0000.0001) // =======================================================
4cadabcaa8 Jean*2200 (PID.TID 0000.0001) grdchk reference fc: fcref = 1.84102726786889E+14
76cd8733fa Oliv*2201 grad-res -------------------------------
2202 grad-res proc # i j k bi bj iobc fc ref fc + eps fc - eps
2203 grad-res proc # i j k bi bj iobc adj grad fd grad 1 - fd/adj
2204 grad-res exact position met:
2205 grad-res 0 1881 15 5 4 1 1
2206 (PID.TID 0000.0001) ====== Starts gradient-check number 1 (=ichknum) =======
f69308fe16 Oliv*2207 ph-test icomp, ncvarcomp, ichknum 1881 37994 1
2208 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 0 1
2209 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 616 1
2210 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 1232 1
2211 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 1848 1
2212 ph-grd -->hit<-- 15 5 4 1
76cd8733fa Oliv*2213 (PID.TID 0000.0001) grdchk pos: i,j,k= 15 5 4 ; bi,bj= 1 1 ; iobc= 1 ; rec= 1
2214 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2215 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2216 (PID.TID 0000.0001)
2217 (PID.TID 0000.0001) // =======================================================
2218 (PID.TID 0000.0001) // Model current state
2219 (PID.TID 0000.0001) // =======================================================
2220 (PID.TID 0000.0001)
2221 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2222 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2223 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2224 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2225 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2226 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2227 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2228 --> objf_tracer(bi,bj) = 0.513236485087344D+14
2229 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2230 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2231 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2232 (PID.TID 0000.0001) local fc = 0.184102726783657D+15
2233 (PID.TID 0000.0001) global fc = 0.184102726783657D+15
4cadabcaa8 Jean*2234 (PID.TID 0000.0001) grdchk perturb(+)fc: fcpertplus = 1.84102726783657E+14
76cd8733fa Oliv*2235 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2236 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2237 (PID.TID 0000.0001)
2238 (PID.TID 0000.0001) // =======================================================
2239 (PID.TID 0000.0001) // Model current state
2240 (PID.TID 0000.0001) // =======================================================
2241 (PID.TID 0000.0001)
2242 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2243 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2244 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2245 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2246 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2247 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2248 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2249 --> objf_tracer(bi,bj) = 0.513236485151980D+14
2250 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2251 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2252 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2253 (PID.TID 0000.0001) local fc = 0.184102726790121D+15
2254 (PID.TID 0000.0001) global fc = 0.184102726790121D+15
4cadabcaa8 Jean*2255 (PID.TID 0000.0001) grdchk perturb(-)fc: fcpertminus = 1.84102726790121E+14
76cd8733fa Oliv*2256 grad-res -------------------------------
4cadabcaa8 Jean*2257 grad-res 0 1 15 5 4 1 1 1 1.84102726787E+14 1.84102726784E+14 1.84102726790E+14
b15f6f1e9f Jean*2258 grad-res 0 1 1 1881 0 1 1 1 -3.23177881094E+07 -3.23178125000E+07 -7.54709805317E-07
4cadabcaa8 Jean*2259 (PID.TID 0000.0001) ADM ref_cost_function = 1.84102726786889E+14
b15f6f1e9f Jean*2260 (PID.TID 0000.0001) ADM adjoint_gradient = -3.23177881094484E+07
4cadabcaa8 Jean*2261 (PID.TID 0000.0001) ADM finite-diff_grad = -3.23178125000000E+07
76cd8733fa Oliv*2262 (PID.TID 0000.0001) ====== End of gradient-check number 1 (ierr= 0) =======
2263 (PID.TID 0000.0001) ====== Starts gradient-check number 2 (=ichknum) =======
f69308fe16 Oliv*2264 ph-test icomp, ncvarcomp, ichknum 1882 37994 2
2265 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 1881 2
2266 ph-grd -->hit<-- 16 5 4 1
76cd8733fa Oliv*2267 (PID.TID 0000.0001) grdchk pos: i,j,k= 16 5 4 ; bi,bj= 1 1 ; iobc= 1 ; rec= 1
2268 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2269 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2270 (PID.TID 0000.0001)
2271 (PID.TID 0000.0001) // =======================================================
2272 (PID.TID 0000.0001) // Model current state
2273 (PID.TID 0000.0001) // =======================================================
2274 (PID.TID 0000.0001)
2275 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2276 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2277 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2278 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2279 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2280 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2281 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2282 --> objf_tracer(bi,bj) = 0.513236485098186D+14
2283 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2284 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2285 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2286 (PID.TID 0000.0001) local fc = 0.184102726784741D+15
2287 (PID.TID 0000.0001) global fc = 0.184102726784741D+15
4cadabcaa8 Jean*2288 (PID.TID 0000.0001) grdchk perturb(+)fc: fcpertplus = 1.84102726784741E+14
76cd8733fa Oliv*2289 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2290 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2291 (PID.TID 0000.0001)
2292 (PID.TID 0000.0001) // =======================================================
2293 (PID.TID 0000.0001) // Model current state
2294 (PID.TID 0000.0001) // =======================================================
2295 (PID.TID 0000.0001)
2296 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2297 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2298 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2299 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2300 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2301 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2302 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2303 --> objf_tracer(bi,bj) = 0.513236485141138D+14
2304 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2305 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2306 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2307 (PID.TID 0000.0001) local fc = 0.184102726789037D+15
2308 (PID.TID 0000.0001) global fc = 0.184102726789037D+15
4cadabcaa8 Jean*2309 (PID.TID 0000.0001) grdchk perturb(-)fc: fcpertminus = 1.84102726789037E+14
76cd8733fa Oliv*2310 grad-res -------------------------------
4cadabcaa8 Jean*2311 grad-res 0 2 16 5 4 1 1 1 1.84102726787E+14 1.84102726785E+14 1.84102726789E+14
b15f6f1e9f Jean*2312 grad-res 0 2 2 1882 0 1 1 1 -2.14754889771E+07 -2.14756250000E+07 -6.33386540083E-06
4cadabcaa8 Jean*2313 (PID.TID 0000.0001) ADM ref_cost_function = 1.84102726786889E+14
f93c9f973f Jean*2314 (PID.TID 0000.0001) ADM adjoint_gradient = -2.14754889771434E+07
4cadabcaa8 Jean*2315 (PID.TID 0000.0001) ADM finite-diff_grad = -2.14756250000000E+07
76cd8733fa Oliv*2316 (PID.TID 0000.0001) ====== End of gradient-check number 2 (ierr= 0) =======
2317 (PID.TID 0000.0001) ====== Starts gradient-check number 3 (=ichknum) =======
f69308fe16 Oliv*2318 ph-test icomp, ncvarcomp, ichknum 1883 37994 3
2319 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 1882 3
2320 ph-grd -->hit<-- 17 5 4 1
76cd8733fa Oliv*2321 (PID.TID 0000.0001) grdchk pos: i,j,k= 17 5 4 ; bi,bj= 1 1 ; iobc= 1 ; rec= 1
2322 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2323 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2324 (PID.TID 0000.0001)
2325 (PID.TID 0000.0001) // =======================================================
2326 (PID.TID 0000.0001) // Model current state
2327 (PID.TID 0000.0001) // =======================================================
2328 (PID.TID 0000.0001)
2329 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2330 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2331 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2332 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2333 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2334 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2335 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2336 --> objf_tracer(bi,bj) = 0.513236485075313D+14
2337 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2338 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2339 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2340 (PID.TID 0000.0001) local fc = 0.184102726782454D+15
2341 (PID.TID 0000.0001) global fc = 0.184102726782454D+15
4cadabcaa8 Jean*2342 (PID.TID 0000.0001) grdchk perturb(+)fc: fcpertplus = 1.84102726782454E+14
76cd8733fa Oliv*2343 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2344 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2345 (PID.TID 0000.0001)
2346 (PID.TID 0000.0001) // =======================================================
2347 (PID.TID 0000.0001) // Model current state
2348 (PID.TID 0000.0001) // =======================================================
2349 (PID.TID 0000.0001)
2350 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2351 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2352 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2353 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2354 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2355 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2356 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2357 --> objf_tracer(bi,bj) = 0.513236485164011D+14
2358 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2359 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2360 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2361 (PID.TID 0000.0001) local fc = 0.184102726791324D+15
2362 (PID.TID 0000.0001) global fc = 0.184102726791324D+15
4cadabcaa8 Jean*2363 (PID.TID 0000.0001) grdchk perturb(-)fc: fcpertminus = 1.84102726791324E+14
76cd8733fa Oliv*2364 grad-res -------------------------------
4cadabcaa8 Jean*2365 grad-res 0 3 17 5 4 1 1 1 1.84102726787E+14 1.84102726782E+14 1.84102726791E+14
b15f6f1e9f Jean*2366 grad-res 0 3 3 1883 0 1 1 1 -4.43487002860E+07 -4.43487500000E+07 -1.12097972726E-06
4cadabcaa8 Jean*2367 (PID.TID 0000.0001) ADM ref_cost_function = 1.84102726786889E+14
b15f6f1e9f Jean*2368 (PID.TID 0000.0001) ADM adjoint_gradient = -4.43487002860060E+07
4cadabcaa8 Jean*2369 (PID.TID 0000.0001) ADM finite-diff_grad = -4.43487500000000E+07
76cd8733fa Oliv*2370 (PID.TID 0000.0001) ====== End of gradient-check number 3 (ierr= 0) =======
2371 (PID.TID 0000.0001) ====== Starts gradient-check number 4 (=ichknum) =======
f69308fe16 Oliv*2372 ph-test icomp, ncvarcomp, ichknum 1884 37994 4
2373 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 1883 4
2374 ph-grd -->hit<-- 18 5 4 1
76cd8733fa Oliv*2375 (PID.TID 0000.0001) grdchk pos: i,j,k= 18 5 4 ; bi,bj= 1 1 ; iobc= 1 ; rec= 1
2376 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2377 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2378 (PID.TID 0000.0001)
2379 (PID.TID 0000.0001) // =======================================================
2380 (PID.TID 0000.0001) // Model current state
2381 (PID.TID 0000.0001) // =======================================================
2382 (PID.TID 0000.0001)
2383 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2384 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2385 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2386 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2387 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2388 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2389 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2390 --> objf_tracer(bi,bj) = 0.513236485088714D+14
2391 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2392 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2393 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2394 (PID.TID 0000.0001) local fc = 0.184102726783794D+15
2395 (PID.TID 0000.0001) global fc = 0.184102726783794D+15
4cadabcaa8 Jean*2396 (PID.TID 0000.0001) grdchk perturb(+)fc: fcpertplus = 1.84102726783794E+14
76cd8733fa Oliv*2397 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2398 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2399 (PID.TID 0000.0001)
2400 (PID.TID 0000.0001) // =======================================================
2401 (PID.TID 0000.0001) // Model current state
2402 (PID.TID 0000.0001) // =======================================================
2403 (PID.TID 0000.0001)
2404 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2405 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2406 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2407 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2408 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2409 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2410 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2411 --> objf_tracer(bi,bj) = 0.513236485150610D+14
2412 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2413 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2414 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2415 (PID.TID 0000.0001) local fc = 0.184102726789984D+15
2416 (PID.TID 0000.0001) global fc = 0.184102726789984D+15
4cadabcaa8 Jean*2417 (PID.TID 0000.0001) grdchk perturb(-)fc: fcpertminus = 1.84102726789984E+14
76cd8733fa Oliv*2418 grad-res -------------------------------
4cadabcaa8 Jean*2419 grad-res 0 4 18 5 4 1 1 1 1.84102726787E+14 1.84102726784E+14 1.84102726790E+14
b15f6f1e9f Jean*2420 grad-res 0 4 4 1884 0 1 1 1 -3.09483516589E+07 -3.09484375000E+07 -2.77368857460E-06
4cadabcaa8 Jean*2421 (PID.TID 0000.0001) ADM ref_cost_function = 1.84102726786889E+14
b15f6f1e9f Jean*2422 (PID.TID 0000.0001) ADM adjoint_gradient = -3.09483516589106E+07
2423 (PID.TID 0000.0001) ADM finite-diff_grad = -3.09484375000000E+07
76cd8733fa Oliv*2424 (PID.TID 0000.0001) ====== End of gradient-check number 4 (ierr= 0) =======
2425 (PID.TID 0000.0001) ====== Starts gradient-check number 5 (=ichknum) =======
f69308fe16 Oliv*2426 ph-test icomp, ncvarcomp, ichknum 1885 37994 5
2427 ph-grd _loc: bi, bj, icomptest, ichknum 1 1 1884 5
2428 ph-grd -->hit<-- 19 5 4 1
76cd8733fa Oliv*2429 (PID.TID 0000.0001) grdchk pos: i,j,k= 19 5 4 ; bi,bj= 1 1 ; iobc= 1 ; rec= 1
2430 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2431 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2432 (PID.TID 0000.0001)
2433 (PID.TID 0000.0001) // =======================================================
2434 (PID.TID 0000.0001) // Model current state
2435 (PID.TID 0000.0001) // =======================================================
2436 (PID.TID 0000.0001)
2437 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2438 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2439 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2440 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2441 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2442 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2443 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2444 --> objf_tracer(bi,bj) = 0.513236485087055D+14
2445 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2446 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2447 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2448 (PID.TID 0000.0001) local fc = 0.184102726783628D+15
2449 (PID.TID 0000.0001) global fc = 0.184102726783628D+15
4cadabcaa8 Jean*2450 (PID.TID 0000.0001) grdchk perturb(+)fc: fcpertplus = 1.84102726783628E+14
76cd8733fa Oliv*2451 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2452 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2453 (PID.TID 0000.0001)
2454 (PID.TID 0000.0001) // =======================================================
2455 (PID.TID 0000.0001) // Model current state
2456 (PID.TID 0000.0001) // =======================================================
2457 (PID.TID 0000.0001)
2458 (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
b15f6f1e9f Jean*2459 cg2d: Sum(rhs),rhsMax = 2.77555756156289E-15 8.55254939901145E+00
2460 cg2d: Sum(rhs),rhsMax = -5.95357096955240E-15 9.18153399773256E+00
2461 cg2d: Sum(rhs),rhsMax = -1.11022302462516E-15 8.71598959798637E+00
2462 cg2d: Sum(rhs),rhsMax = -4.44089209850063E-16 8.11863158462937E+00
76cd8733fa Oliv*2463 (PID.TID 0000.0001) Did not write pickup because writePickupAtEnd = FALSE
b15f6f1e9f Jean*2464 (PID.TID 0000.0001) early fc = 0.000000000000000D+00
2465 --> objf_tracer(bi,bj) = 0.513236485152269D+14
2466 --> objf_tracer(bi,bj) = 0.579123474552343D+14
2467 --> objf_tracer(bi,bj) = 0.267040306732153D+14
2468 --> objf_tracer(bi,bj) = 0.481627001464732D+14
2469 (PID.TID 0000.0001) local fc = 0.184102726790150D+15
2470 (PID.TID 0000.0001) global fc = 0.184102726790150D+15
4cadabcaa8 Jean*2471 (PID.TID 0000.0001) grdchk perturb(-)fc: fcpertminus = 1.84102726790150E+14
76cd8733fa Oliv*2472 grad-res -------------------------------
4cadabcaa8 Jean*2473 grad-res 0 5 19 5 4 1 1 1 1.84102726787E+14 1.84102726784E+14 1.84102726790E+14
b15f6f1e9f Jean*2474 grad-res 0 5 5 1885 0 1 1 1 -3.26073245311E+07 -3.26075000000E+07 -5.38127266436E-06
4cadabcaa8 Jean*2475 (PID.TID 0000.0001) ADM ref_cost_function = 1.84102726786889E+14
b15f6f1e9f Jean*2476 (PID.TID 0000.0001) ADM adjoint_gradient = -3.26073245310958E+07
4cadabcaa8 Jean*2477 (PID.TID 0000.0001) ADM finite-diff_grad = -3.26075000000000E+07
76cd8733fa Oliv*2478 (PID.TID 0000.0001) ====== End of gradient-check number 5 (ierr= 0) =======
2479 (PID.TID 0000.0001)
2480 (PID.TID 0000.0001) // =======================================================
2481 (PID.TID 0000.0001) // Gradient check results >>> START <<<
2482 (PID.TID 0000.0001) // =======================================================
2483 (PID.TID 0000.0001)
b15f6f1e9f Jean*2484 (PID.TID 0000.0001) EPS = 1.000000E-04 ; grdchk CTRL var/file name: "xx_ptr1"
76cd8733fa Oliv*2485 (PID.TID 0000.0001)
2486 (PID.TID 0000.0001) grdchk output h.p: Id Itile Jtile LAYER bi bj X(Id) X(Id)+/-EPS
2487 (PID.TID 0000.0001) grdchk output h.c: Id FC FC1 FC2
2488 (PID.TID 0000.0001) grdchk output h.g: Id FC1-FC2/(2*EPS) ADJ GRAD(FC) 1-FDGRD/ADGRD
2489 (PID.TID 0000.0001)
2490 (PID.TID 0000.0001) grdchk output (p): 1 15 5 4 1 1 0.000000000E+00 -1.000000000E-04
4cadabcaa8 Jean*2491 (PID.TID 0000.0001) grdchk output (c): 1 1.8410272678689E+14 1.8410272678366E+14 1.8410272679012E+14
b15f6f1e9f Jean*2492 (PID.TID 0000.0001) grdchk output (g): 1 -3.2317812500000E+07 -3.2317788109448E+07 -7.5470980531733E-07
76cd8733fa Oliv*2493 (PID.TID 0000.0001)
2494 (PID.TID 0000.0001) grdchk output (p): 2 16 5 4 1 1 0.000000000E+00 -1.000000000E-04
4cadabcaa8 Jean*2495 (PID.TID 0000.0001) grdchk output (c): 2 1.8410272678689E+14 1.8410272678474E+14 1.8410272678904E+14
b15f6f1e9f Jean*2496 (PID.TID 0000.0001) grdchk output (g): 2 -2.1475625000000E+07 -2.1475488977143E+07 -6.3338654008316E-06
76cd8733fa Oliv*2497 (PID.TID 0000.0001)
2498 (PID.TID 0000.0001) grdchk output (p): 3 17 5 4 1 1 0.000000000E+00 -1.000000000E-04
4cadabcaa8 Jean*2499 (PID.TID 0000.0001) grdchk output (c): 3 1.8410272678689E+14 1.8410272678245E+14 1.8410272679132E+14
b15f6f1e9f Jean*2500 (PID.TID 0000.0001) grdchk output (g): 3 -4.4348750000000E+07 -4.4348700286006E+07 -1.1209797272649E-06
76cd8733fa Oliv*2501 (PID.TID 0000.0001)
2502 (PID.TID 0000.0001) grdchk output (p): 4 18 5 4 1 1 0.000000000E+00 -1.000000000E-04
4cadabcaa8 Jean*2503 (PID.TID 0000.0001) grdchk output (c): 4 1.8410272678689E+14 1.8410272678379E+14 1.8410272678998E+14
b15f6f1e9f Jean*2504 (PID.TID 0000.0001) grdchk output (g): 4 -3.0948437500000E+07 -3.0948351658911E+07 -2.7736885745977E-06
76cd8733fa Oliv*2505 (PID.TID 0000.0001)
2506 (PID.TID 0000.0001) grdchk output (p): 5 19 5 4 1 1 0.000000000E+00 -1.000000000E-04
4cadabcaa8 Jean*2507 (PID.TID 0000.0001) grdchk output (c): 5 1.8410272678689E+14 1.8410272678363E+14 1.8410272679015E+14
b15f6f1e9f Jean*2508 (PID.TID 0000.0001) grdchk output (g): 5 -3.2607500000000E+07 -3.2607324531096E+07 -5.3812726643621E-06
76cd8733fa Oliv*2509 (PID.TID 0000.0001)
b15f6f1e9f Jean*2510 (PID.TID 0000.0001) grdchk summary : RMS of 5 ratios = 3.9647314449303E-06
76cd8733fa Oliv*2511 (PID.TID 0000.0001)
2512 (PID.TID 0000.0001) // =======================================================
2513 (PID.TID 0000.0001) // Gradient check results >>> END <<<
2514 (PID.TID 0000.0001) // =======================================================
2515 (PID.TID 0000.0001)
2516 (PID.TID 0000.0001) Seconds in section "ALL [THE_MODEL_MAIN]":
b15f6f1e9f Jean*2517 (PID.TID 0000.0001) User time: 99.841338303172961
2518 (PID.TID 0000.0001) System time: 7.4443650990724564
2519 (PID.TID 0000.0001) Wall clock time: 108.14604902267456
f69308fe16 Oliv*2520 (PID.TID 0000.0001) No. starts: 1
2521 (PID.TID 0000.0001) No. stops: 1
76cd8733fa Oliv*2522 (PID.TID 0000.0001) Seconds in section "INITIALISE_FIXED [THE_MODEL_MAIN]":
b15f6f1e9f Jean*2523 (PID.TID 0000.0001) User time: 0.25248400354757905
2524 (PID.TID 0000.0001) System time: 7.6937001198530197E-002
2525 (PID.TID 0000.0001) Wall clock time: 0.58667707443237305
f69308fe16 Oliv*2526 (PID.TID 0000.0001) No. starts: 1
2527 (PID.TID 0000.0001) No. stops: 1
76cd8733fa Oliv*2528 (PID.TID 0000.0001) Seconds in section "THE_MAIN_LOOP (F) [THE_MODEL_MAIN]":
b15f6f1e9f Jean*2529 (PID.TID 0000.0001) User time: 12.327243626117706
2530 (PID.TID 0000.0001) System time: 6.7315218299627304
2531 (PID.TID 0000.0001) Wall clock time: 19.433655977249146
f69308fe16 Oliv*2532 (PID.TID 0000.0001) No. starts: 1
2533 (PID.TID 0000.0001) No. stops: 1
76cd8733fa Oliv*2534 (PID.TID 0000.0001) Seconds in section "INITIALISE_VARIA [THE_MAIN_LOOP]":
b15f6f1e9f Jean*2535 (PID.TID 0000.0001) User time: 2.9142457842826843
2536 (PID.TID 0000.0001) System time: 0.22890128195285797
2537 (PID.TID 0000.0001) Wall clock time: 3.3843343257904053
f69308fe16 Oliv*2538 (PID.TID 0000.0001) No. starts: 11
2539 (PID.TID 0000.0001) No. stops: 11
76cd8733fa Oliv*2540 (PID.TID 0000.0001) Seconds in section "MAIN LOOP [THE_MAIN_LOOP]":
b15f6f1e9f Jean*2541 (PID.TID 0000.0001) User time: 76.938687801361084
2542 (PID.TID 0000.0001) System time: 6.6891796886920929
2543 (PID.TID 0000.0001) Wall clock time: 83.842634439468384
f69308fe16 Oliv*2544 (PID.TID 0000.0001) No. starts: 11
2545 (PID.TID 0000.0001) No. stops: 11
76cd8733fa Oliv*2546 (PID.TID 0000.0001) Seconds in section "MAIN_DO_LOOP [THE_MAIN_LOOP]":
b15f6f1e9f Jean*2547 (PID.TID 0000.0001) User time: 76.937418103218079
2548 (PID.TID 0000.0001) System time: 6.6891160607337952
2549 (PID.TID 0000.0001) Wall clock time: 83.841303825378418
f69308fe16 Oliv*2550 (PID.TID 0000.0001) No. starts: 11
2551 (PID.TID 0000.0001) No. stops: 11
76cd8733fa Oliv*2552 (PID.TID 0000.0001) Seconds in section "UPDATE_R_STAR [FORWARD_STEP]":
b15f6f1e9f Jean*2553 (PID.TID 0000.0001) User time: 1.7667992115020752
2554 (PID.TID 0000.0001) System time: 4.7171235084533691E-002
2555 (PID.TID 0000.0001) Wall clock time: 1.8193786144256592
f69308fe16 Oliv*2556 (PID.TID 0000.0001) No. starts: 94
2557 (PID.TID 0000.0001) No. stops: 94
76cd8733fa Oliv*2558 (PID.TID 0000.0001) Seconds in section "LOAD_FIELDS_DRIVER [FORWARD_STEP]":
b15f6f1e9f Jean*2559 (PID.TID 0000.0001) User time: 2.6332616806030273E-002
2560 (PID.TID 0000.0001) System time: 6.3131749629974365E-003
2561 (PID.TID 0000.0001) Wall clock time: 3.3097267150878906E-002
f69308fe16 Oliv*2562 (PID.TID 0000.0001) No. starts: 47
2563 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2564 (PID.TID 0000.0001) Seconds in section "EXTERNAL_FLDS_LOAD [LOAD_FLDS_DRIVER]":
b15f6f1e9f Jean*2565 (PID.TID 0000.0001) User time: 6.7245960235595703E-004
2566 (PID.TID 0000.0001) System time: 2.7775764465332031E-005
2567 (PID.TID 0000.0001) Wall clock time: 5.7744979858398438E-004
2568 (PID.TID 0000.0001) No. starts: 47
2569 (PID.TID 0000.0001) No. stops: 47
2570 (PID.TID 0000.0001) Seconds in section "CTRL_MAP_FORCING [FORWARD_STEP]":
2571 (PID.TID 0000.0001) User time: 4.8917531967163086E-004
2572 (PID.TID 0000.0001) System time: 1.5497207641601562E-005
2573 (PID.TID 0000.0001) Wall clock time: 5.0187110900878906E-004
f69308fe16 Oliv*2574 (PID.TID 0000.0001) No. starts: 47
2575 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2576 (PID.TID 0000.0001) Seconds in section "DO_ATMOSPHERIC_PHYS [FORWARD_STEP]":
b15f6f1e9f Jean*2577 (PID.TID 0000.0001) User time: 6.6213905811309814E-002
2578 (PID.TID 0000.0001) System time: 3.1146407127380371E-003
2579 (PID.TID 0000.0001) Wall clock time: 6.9485902786254883E-002
f69308fe16 Oliv*2580 (PID.TID 0000.0001) No. starts: 47
2581 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2582 (PID.TID 0000.0001) Seconds in section "DO_OCEANIC_PHYS [FORWARD_STEP]":
b15f6f1e9f Jean*2583 (PID.TID 0000.0001) User time: 10.695704221725464
2584 (PID.TID 0000.0001) System time: 0.31940081715583801
2585 (PID.TID 0000.0001) Wall clock time: 11.040421247482300
f69308fe16 Oliv*2586 (PID.TID 0000.0001) No. starts: 47
2587 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2588 (PID.TID 0000.0001) Seconds in section "THERMODYNAMICS [FORWARD_STEP]":
b15f6f1e9f Jean*2589 (PID.TID 0000.0001) User time: 32.720159888267517
2590 (PID.TID 0000.0001) System time: 2.4587664008140564
2591 (PID.TID 0000.0001) Wall clock time: 35.190099477767944
f69308fe16 Oliv*2592 (PID.TID 0000.0001) No. starts: 47
2593 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2594 (PID.TID 0000.0001) Seconds in section "DYNAMICS [FORWARD_STEP]":
b15f6f1e9f Jean*2595 (PID.TID 0000.0001) User time: 21.168422698974609
2596 (PID.TID 0000.0001) System time: 2.3453862369060516
2597 (PID.TID 0000.0001) Wall clock time: 23.521414756774902
f69308fe16 Oliv*2598 (PID.TID 0000.0001) No. starts: 47
2599 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2600 (PID.TID 0000.0001) Seconds in section "UPDATE_CG2D [FORWARD_STEP]":
b15f6f1e9f Jean*2601 (PID.TID 0000.0001) User time: 0.38019704818725586
2602 (PID.TID 0000.0001) System time: 1.2530088424682617E-003
2603 (PID.TID 0000.0001) Wall clock time: 0.38181972503662109
f69308fe16 Oliv*2604 (PID.TID 0000.0001) No. starts: 47
2605 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2606 (PID.TID 0000.0001) Seconds in section "SOLVE_FOR_PRESSURE [FORWARD_STEP]":
b15f6f1e9f Jean*2607 (PID.TID 0000.0001) User time: 12.112300872802734
2608 (PID.TID 0000.0001) System time: 2.0437449216842651E-002
2609 (PID.TID 0000.0001) Wall clock time: 12.135873317718506
f69308fe16 Oliv*2610 (PID.TID 0000.0001) No. starts: 47
2611 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2612 (PID.TID 0000.0001) Seconds in section "MOM_CORRECTION_STEP [FORWARD_STEP]":
b15f6f1e9f Jean*2613 (PID.TID 0000.0001) User time: 0.64129543304443359
2614 (PID.TID 0000.0001) System time: 1.7057687044143677E-002
2615 (PID.TID 0000.0001) Wall clock time: 0.65867590904235840
f69308fe16 Oliv*2616 (PID.TID 0000.0001) No. starts: 47
2617 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2618 (PID.TID 0000.0001) Seconds in section "INTEGR_CONTINUITY [FORWARD_STEP]":
b15f6f1e9f Jean*2619 (PID.TID 0000.0001) User time: 1.3094439506530762
2620 (PID.TID 0000.0001) System time: 1.4701843261718750E-002
2621 (PID.TID 0000.0001) Wall clock time: 1.3243680000305176
f69308fe16 Oliv*2622 (PID.TID 0000.0001) No. starts: 47
2623 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2624 (PID.TID 0000.0001) Seconds in section "CALC_R_STAR [FORWARD_STEP]":
b15f6f1e9f Jean*2625 (PID.TID 0000.0001) User time: 0.12921595573425293
2626 (PID.TID 0000.0001) System time: 1.1525154113769531E-003
2627 (PID.TID 0000.0001) Wall clock time: 0.13049387931823730
f69308fe16 Oliv*2628 (PID.TID 0000.0001) No. starts: 47
2629 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2630 (PID.TID 0000.0001) Seconds in section "TRC_CORRECTION_STEP [FORWARD_STEP]":
b15f6f1e9f Jean*2631 (PID.TID 0000.0001) User time: 2.6192524433135986
2632 (PID.TID 0000.0001) System time: 1.3315181434154510
2633 (PID.TID 0000.0001) Wall clock time: 3.9531195163726807
f69308fe16 Oliv*2634 (PID.TID 0000.0001) No. starts: 47
2635 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2636 (PID.TID 0000.0001) Seconds in section "BLOCKING_EXCHANGES [FORWARD_STEP]":
b15f6f1e9f Jean*2637 (PID.TID 0000.0001) User time: 0.80104851722717285
2638 (PID.TID 0000.0001) System time: 1.0115742683410645E-002
2639 (PID.TID 0000.0001) Wall clock time: 0.81292080879211426
f69308fe16 Oliv*2640 (PID.TID 0000.0001) No. starts: 47
2641 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2642 (PID.TID 0000.0001) Seconds in section "COST_TILE [FORWARD_STEP]":
b15f6f1e9f Jean*2643 (PID.TID 0000.0001) User time: 7.4362754821777344E-003
2644 (PID.TID 0000.0001) System time: 5.3727626800537109E-004
2645 (PID.TID 0000.0001) Wall clock time: 8.0630779266357422E-003
f69308fe16 Oliv*2646 (PID.TID 0000.0001) No. starts: 47
2647 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2648 (PID.TID 0000.0001) Seconds in section "DO_THE_MODEL_IO [FORWARD_STEP]":
b15f6f1e9f Jean*2649 (PID.TID 0000.0001) User time: 0.16868233680725098
2650 (PID.TID 0000.0001) System time: 4.5947939157485962E-002
2651 (PID.TID 0000.0001) Wall clock time: 0.32799863815307617
f69308fe16 Oliv*2652 (PID.TID 0000.0001) No. starts: 47
2653 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2654 (PID.TID 0000.0001) Seconds in section "PTRACERS_RESET [FORWARD_STEP]":
b15f6f1e9f Jean*2655 (PID.TID 0000.0001) User time: 2.0646333694458008E-002
2656 (PID.TID 0000.0001) System time: 6.0474872589111328E-003
2657 (PID.TID 0000.0001) Wall clock time: 2.7143478393554688E-002
f69308fe16 Oliv*2658 (PID.TID 0000.0001) No. starts: 47
2659 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2660 (PID.TID 0000.0001) Seconds in section "DO_WRITE_PICKUP [FORWARD_STEP]":
b15f6f1e9f Jean*2661 (PID.TID 0000.0001) User time: 6.9477558135986328E-002
2662 (PID.TID 0000.0001) System time: 1.9795656204223633E-002
2663 (PID.TID 0000.0001) Wall clock time: 0.13186717033386230
f69308fe16 Oliv*2664 (PID.TID 0000.0001) No. starts: 47
2665 (PID.TID 0000.0001) No. stops: 47
76cd8733fa Oliv*2666 (PID.TID 0000.0001) Seconds in section "COST_FINAL [ADJOINT SPIN-DOWN]":
b15f6f1e9f Jean*2667 (PID.TID 0000.0001) User time: 9.2220306396484375E-004
2668 (PID.TID 0000.0001) System time: 4.0054321289062500E-005
2669 (PID.TID 0000.0001) Wall clock time: 9.7346305847167969E-004
f69308fe16 Oliv*2670 (PID.TID 0000.0001) No. starts: 11
2671 (PID.TID 0000.0001) No. stops: 11
76cd8733fa Oliv*2672 (PID.TID 0000.0001) Seconds in section "THE_MAIN_LOOP (A) [THE_MODEL_MAIN]":
b15f6f1e9f Jean*2673 (PID.TID 0000.0001) User time: 19.522739410400391
2674 (PID.TID 0000.0001) System time: 0.38097572326660156
2675 (PID.TID 0000.0001) Wall clock time: 19.935866117477417
f69308fe16 Oliv*2676 (PID.TID 0000.0001) No. starts: 1
2677 (PID.TID 0000.0001) No. stops: 1
76cd8733fa Oliv*2678 (PID.TID 0000.0001) Seconds in section "GRDCHK_MAIN [THE_MODEL_MAIN]":
b15f6f1e9f Jean*2679 (PID.TID 0000.0001) User time: 67.738819122314453
2680 (PID.TID 0000.0001) System time: 0.25488901138305664
2681 (PID.TID 0000.0001) Wall clock time: 68.189781904220581
f69308fe16 Oliv*2682 (PID.TID 0000.0001) No. starts: 1
2683 (PID.TID 0000.0001) No. stops: 1
76cd8733fa Oliv*2684 (PID.TID 0000.0001) // ======================================================
2685 (PID.TID 0000.0001) // Tile <-> Tile communication statistics
2686 (PID.TID 0000.0001) // ======================================================
2687 (PID.TID 0000.0001) // o Tile number: 000001
2688 (PID.TID 0000.0001) // No. X exchanges = 0
2689 (PID.TID 0000.0001) // Max. X spins = 0
2690 (PID.TID 0000.0001) // Min. X spins = 1000000000
2691 (PID.TID 0000.0001) // Total. X spins = 0
2692 (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
2693 (PID.TID 0000.0001) // No. Y exchanges = 0
2694 (PID.TID 0000.0001) // Max. Y spins = 0
2695 (PID.TID 0000.0001) // Min. Y spins = 1000000000
2696 (PID.TID 0000.0001) // Total. Y spins = 0
2697 (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
2698 (PID.TID 0000.0001) // o Tile number: 000002
2699 (PID.TID 0000.0001) // No. X exchanges = 0
2700 (PID.TID 0000.0001) // Max. X spins = 0
2701 (PID.TID 0000.0001) // Min. X spins = 1000000000
2702 (PID.TID 0000.0001) // Total. X spins = 0
2703 (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
2704 (PID.TID 0000.0001) // No. Y exchanges = 0
2705 (PID.TID 0000.0001) // Max. Y spins = 0
2706 (PID.TID 0000.0001) // Min. Y spins = 1000000000
2707 (PID.TID 0000.0001) // Total. Y spins = 0
2708 (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
2709 (PID.TID 0000.0001) // o Tile number: 000003
2710 (PID.TID 0000.0001) // No. X exchanges = 0
2711 (PID.TID 0000.0001) // Max. X spins = 0
2712 (PID.TID 0000.0001) // Min. X spins = 1000000000
2713 (PID.TID 0000.0001) // Total. X spins = 0
2714 (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
2715 (PID.TID 0000.0001) // No. Y exchanges = 0
2716 (PID.TID 0000.0001) // Max. Y spins = 0
2717 (PID.TID 0000.0001) // Min. Y spins = 1000000000
2718 (PID.TID 0000.0001) // Total. Y spins = 0
2719 (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
2720 (PID.TID 0000.0001) // o Tile number: 000004
2721 (PID.TID 0000.0001) // No. X exchanges = 0
2722 (PID.TID 0000.0001) // Max. X spins = 0
2723 (PID.TID 0000.0001) // Min. X spins = 1000000000
2724 (PID.TID 0000.0001) // Total. X spins = 0
2725 (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
2726 (PID.TID 0000.0001) // No. Y exchanges = 0
2727 (PID.TID 0000.0001) // Max. Y spins = 0
2728 (PID.TID 0000.0001) // Min. Y spins = 1000000000
2729 (PID.TID 0000.0001) // Total. Y spins = 0
2730 (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
2731 (PID.TID 0000.0001) // o Thread number: 000001
b15f6f1e9f Jean*2732 (PID.TID 0000.0001) // No. barriers = 55750
76cd8733fa Oliv*2733 (PID.TID 0000.0001) // Max. barrier spins = 1
2734 (PID.TID 0000.0001) // Min. barrier spins = 1
b15f6f1e9f Jean*2735 (PID.TID 0000.0001) // Total barrier spins = 55750
76cd8733fa Oliv*2736 (PID.TID 0000.0001) // Avg. barrier spins = 1.00E+00
2737 PROGRAM MAIN: Execution ended Normally
