1 |
jmc |
1.127 |
C $Header: /u/gcmpack/MITgcm/model/src/config_summary.F,v 1.126 2010/11/30 20:52:07 jmc Exp $ |
2 |
cnh |
1.26 |
C $Name: $ |
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cnh |
1.1 |
|
4 |
jmc |
1.67 |
#include "PACKAGES_CONFIG.h" |
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cnh |
1.18 |
#include "CPP_OPTIONS.h" |
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cnh |
1.1 |
|
7 |
edhill |
1.57 |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
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cnh |
1.30 |
CBOP |
9 |
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C !ROUTINE: CONFIG_SUMMARY |
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edhill |
1.57 |
|
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cnh |
1.30 |
C !INTERFACE: |
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cnh |
1.1 |
SUBROUTINE CONFIG_SUMMARY( myThid ) |
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edhill |
1.57 |
|
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C !DESCRIPTION: |
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C This routine summarizes the model parameter settings by writing a |
16 |
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C tabulated list of the kernel model configuration variables. It |
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C describes all the parameter settings in force and the meaning and |
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C units of those parameters. Individal packages report a similar |
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C table for each package using the same format as employed here. If |
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C parameters are missing or incorrectly described or dimensioned |
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C please contact <MITgcm-support@mitgcm.org> |
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cnh |
1.30 |
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C !USES: |
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adcroft |
1.19 |
IMPLICIT NONE |
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cnh |
1.1 |
#include "SIZE.h" |
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#include "EEPARAMS.h" |
27 |
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#include "PARAMS.h" |
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jmc |
1.67 |
#include "EOS.h" |
29 |
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#include "GRID.h" |
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edhill |
1.60 |
#ifdef ALLOW_MNC |
31 |
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#include "MNC_PARAMS.h" |
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#endif |
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cnh |
1.1 |
|
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cnh |
1.30 |
C !INPUT/OUTPUT PARAMETERS: |
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edhill |
1.57 |
C myThid :: Number of this instance of CONFIG_SUMMARY |
36 |
cnh |
1.1 |
INTEGER myThid |
37 |
edhill |
1.57 |
CEOP |
38 |
cnh |
1.1 |
|
39 |
jmc |
1.94 |
C !FUNCTIONS: |
40 |
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INTEGER ILNBLNK |
41 |
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EXTERNAL ILNBLNK |
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|
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cnh |
1.30 |
C !LOCAL VARIABLES: |
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C msgBuf :: Temp. for building output string. |
45 |
jmc |
1.102 |
C rUnits :: vertical coordinate units |
46 |
jmc |
1.106 |
C ioUnit :: Temp. for fortran I/O unit |
47 |
jmc |
1.122 |
C i, k :: Loop counters. |
48 |
cnh |
1.1 |
CHARACTER*(MAX_LEN_MBUF) msgBuf |
49 |
jmc |
1.102 |
CHARACTER*2 rUnits |
50 |
jmc |
1.125 |
CHARACTER*10 endList |
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jmc |
1.106 |
INTEGER ioUnit |
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jmc |
1.122 |
INTEGER i, k |
53 |
jmc |
1.116 |
_RL bufRL(Nr+1) |
54 |
jmc |
1.117 |
INTEGER buffI(1) |
55 |
cnh |
1.26 |
INTEGER coordLine |
56 |
|
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INTEGER tileLine |
57 |
cnh |
1.5 |
|
58 |
cnh |
1.1 |
|
59 |
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_BARRIER |
60 |
cnh |
1.5 |
_BEGIN_MASTER(myThid) |
61 |
cnh |
1.1 |
|
62 |
jmc |
1.106 |
ioUnit = standardMessageUnit |
63 |
jmc |
1.102 |
rUnits = ' m' |
64 |
jmc |
1.125 |
endList = ' ; ' |
65 |
jmc |
1.102 |
IF ( usingPCoords ) rUnits = 'Pa' |
66 |
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|
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cnh |
1.1 |
WRITE(msgBuf,'(A)') |
68 |
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&'// =======================================================' |
69 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
70 |
cnh |
1.1 |
WRITE(msgBuf,'(A)') '// Model configuration' |
71 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
72 |
cnh |
1.1 |
WRITE(msgBuf,'(A)') |
73 |
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&'// =======================================================' |
74 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
75 |
cnh |
1.5 |
|
76 |
cnh |
1.6 |
WRITE(msgBuf,'(A)') '// ' |
77 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
78 |
jmc |
1.92 |
WRITE(msgBuf,'(A)') |
79 |
cnh |
1.17 |
& '// "Physical" paramters ( PARM01 in namelist ) ' |
80 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
81 |
cnh |
1.6 |
WRITE(msgBuf,'(A)') '// ' |
82 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
83 |
jmc |
1.97 |
CALL WRITE_0D_C( buoyancyRelation, -1, INDEX_NONE, |
84 |
|
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& 'buoyancyRelation =', ' /* Type of relation to get Buoyancy */') |
85 |
jmc |
1.62 |
CALL WRITE_0D_L( fluidIsAir, INDEX_NONE, |
86 |
jmc |
1.124 |
& 'fluidIsAir =', ' /* fluid major constituent is Air */') |
87 |
jmc |
1.62 |
CALL WRITE_0D_L( fluidIsWater, INDEX_NONE, |
88 |
jmc |
1.124 |
& 'fluidIsWater =', ' /* fluid major constituent is Water */') |
89 |
jmc |
1.62 |
CALL WRITE_0D_L( usingPCoords, INDEX_NONE, |
90 |
|
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& 'usingPCoords =', ' /* use p (or p*) vertical coordinate */') |
91 |
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CALL WRITE_0D_L( usingZCoords, INDEX_NONE, |
92 |
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& 'usingZCoords =', ' /* use z (or z*) vertical coordinate */') |
93 |
jmc |
1.116 |
CALL WRITE_1D_RL( tRef, Nr, INDEX_K, 'tRef =', |
94 |
jmc |
1.124 |
& ' /* Reference temperature profile ( oC or K ) */') |
95 |
jmc |
1.116 |
CALL WRITE_1D_RL( sRef, Nr, INDEX_K, 'sRef =', |
96 |
jmc |
1.124 |
& ' /* Reference salinity profile ( psu ) */') |
97 |
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CALL WRITE_0D_RL( viscAh, INDEX_NONE, 'viscAh = ', |
98 |
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& ' /* Lateral eddy viscosity ( m^2/s ) */') |
99 |
jmc |
1.92 |
IF ( viscAhD.NE.viscAh ) |
100 |
jmc |
1.124 |
& CALL WRITE_0D_RL( viscAhD, INDEX_NONE, 'viscAhD = ', |
101 |
|
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& ' /* Lateral eddy viscosity (Divergence)( m^2/s ) */') |
102 |
jmc |
1.92 |
IF ( viscAhZ.NE.viscAh ) |
103 |
jmc |
1.124 |
& CALL WRITE_0D_RL( viscAhZ, INDEX_NONE, 'viscAhZ = ', |
104 |
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& ' /* Lateral eddy viscosity (Vorticity) ( m^2/s ) */') |
105 |
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CALL WRITE_0D_RL( viscAhMax, INDEX_NONE, 'viscAhMax =', |
106 |
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& ' /* Maximum lateral eddy viscosity ( m^2/s ) */') |
107 |
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CALL WRITE_0D_RL( viscAhGrid, INDEX_NONE, 'viscAhGrid =', |
108 |
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& ' /* Grid dependent lateral eddy viscosity ( non-dim. ) */') |
109 |
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CALL WRITE_0D_L( useFullLeith, INDEX_NONE, 'useFullLeith =', |
110 |
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& ' /* Use Full Form of Leith Viscosity on/off flag*/') |
111 |
baylor |
1.78 |
CALL WRITE_0D_L( useStrainTensionVisc, INDEX_NONE, |
112 |
jmc |
1.124 |
& 'useStrainTensionVisc=', |
113 |
|
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& ' /* Use StrainTension Form of Viscous Operator flag*/') |
114 |
baylor |
1.79 |
CALL WRITE_0D_L( useAreaViscLength, INDEX_NONE, |
115 |
jmc |
1.124 |
& 'useAreaViscLength =', |
116 |
|
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& ' /* Use area for visc length instead of geom. mean*/') |
117 |
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CALL WRITE_0D_RL( viscC2leith, INDEX_NONE, 'viscC2leith =', |
118 |
|
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& ' /* Leith harmonic visc. factor (on grad(vort),non-dim.) */') |
119 |
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CALL WRITE_0D_RL( viscC2leithD, INDEX_NONE, 'viscC2leithD =', |
120 |
|
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& ' /* Leith harmonic viscosity factor (on grad(div),non-dim.)*/') |
121 |
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CALL WRITE_0D_RL( viscC2smag, INDEX_NONE, 'viscC2smag =', |
122 |
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& ' /* Smagorinsky harmonic viscosity factor (non-dim.) */') |
123 |
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CALL WRITE_0D_RL( viscA4, INDEX_NONE, 'viscA4 = ', |
124 |
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& ' /* Lateral biharmonic viscosity ( m^4/s ) */') |
125 |
jmc |
1.92 |
IF ( viscA4D.NE.viscA4 ) |
126 |
jmc |
1.124 |
& CALL WRITE_0D_RL( viscA4D, INDEX_NONE, 'viscA4D = ', |
127 |
|
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& ' /* Lateral biharmonic viscosity (Divergence)( m^4/s ) */') |
128 |
jmc |
1.92 |
IF ( viscA4Z.NE.viscA4 ) |
129 |
jmc |
1.124 |
& CALL WRITE_0D_RL( viscA4Z, INDEX_NONE, 'viscA4Z = ', |
130 |
|
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& ' /* Lateral biharmonic viscosity (Vorticity) ( m^4/s ) */') |
131 |
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CALL WRITE_0D_RL( viscA4Max, INDEX_NONE, 'viscA4Max =', |
132 |
|
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& ' /* Maximum biharmonic viscosity ( m^2/s ) */') |
133 |
|
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CALL WRITE_0D_RL( viscA4Grid, INDEX_NONE, 'viscA4Grid =', |
134 |
|
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& ' /* Grid dependent biharmonic viscosity ( non-dim. ) */') |
135 |
jmc |
1.115 |
CALL WRITE_0D_RL( viscC4leith, INDEX_NONE,'viscC4leith =', |
136 |
jmc |
1.124 |
& ' /* Leith biharm viscosity factor (on grad(vort), non-dim.)*/') |
137 |
jmc |
1.115 |
CALL WRITE_0D_RL( viscC4leithD, INDEX_NONE,'viscC4leithD =', |
138 |
jmc |
1.124 |
& ' /* Leith biharm viscosity factor (on grad(div), non-dim.) */') |
139 |
jmc |
1.115 |
CALL WRITE_0D_RL( viscC4Smag, INDEX_NONE,'viscC4Smag =', |
140 |
jmc |
1.124 |
& ' /* Smagorinsky biharm viscosity factor (non-dim) */') |
141 |
heimbach |
1.22 |
CALL WRITE_0D_L( no_slip_sides, INDEX_NONE, |
142 |
adcroft |
1.20 |
& 'no_slip_sides =', ' /* Viscous BCs: No-slip sides */') |
143 |
jmc |
1.115 |
CALL WRITE_0D_RL( sideDragFactor, INDEX_NONE, 'sideDragFactor =', |
144 |
jmc |
1.81 |
& ' /* side-drag scaling factor (non-dim) */') |
145 |
jmc |
1.118 |
CALL WRITE_1D_RL( viscArNr, Nr, INDEX_K, 'viscArNr =', |
146 |
|
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& ' /* vertical profile of vertical viscosity (' |
147 |
|
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& //rUnits//'^2/s )*/') |
148 |
jmc |
1.55 |
CALL WRITE_0D_L( no_slip_bottom, INDEX_NONE, |
149 |
|
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& 'no_slip_bottom =', ' /* Viscous BCs: No-slip bottom */') |
150 |
jmc |
1.115 |
CALL WRITE_0D_RL( bottomDragLinear, INDEX_NONE, |
151 |
jmc |
1.81 |
& 'bottomDragLinear =', |
152 |
jmc |
1.111 |
& ' /* linear bottom-drag coefficient ( m/s ) */') |
153 |
jmc |
1.115 |
CALL WRITE_0D_RL( bottomDragQuadratic, INDEX_NONE, |
154 |
jmc |
1.81 |
& 'bottomDragQuadratic =', |
155 |
jmc |
1.111 |
& ' /* quadratic bottom-drag coefficient (-) */') |
156 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffKhT, INDEX_NONE,'diffKhT =', |
157 |
cnh |
1.5 |
&' /* Laplacian diffusion of heat laterally ( m^2/s ) */') |
158 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffK4T, INDEX_NONE,'diffK4T =', |
159 |
jmc |
1.102 |
&' /* Biharmonic diffusion of heat laterally ( m^4/s ) */') |
160 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffKhS, INDEX_NONE,'diffKhS =', |
161 |
cnh |
1.5 |
&' /* Laplacian diffusion of salt laterally ( m^2/s ) */') |
162 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffK4S, INDEX_NONE,'diffK4S =', |
163 |
jmc |
1.102 |
&' /* Biharmonic diffusion of salt laterally ( m^4/s ) */') |
164 |
jmc |
1.116 |
CALL WRITE_1D_RL( diffKrNrT, Nr, INDEX_K, 'diffKrNrT =', |
165 |
jmc |
1.102 |
& ' /* vertical profile of vertical diffusion of Temp (' |
166 |
|
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& //rUnits//'^2/s )*/') |
167 |
jmc |
1.116 |
CALL WRITE_1D_RL( diffKrNrS, Nr, INDEX_K, 'diffKrNrS =', |
168 |
jmc |
1.102 |
& ' /* vertical profile of vertical diffusion of Salt (' |
169 |
|
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& //rUnits//'^2/s )*/') |
170 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffKrBL79surf, INDEX_NONE,'diffKrBL79surf =', |
171 |
jmc |
1.102 |
& ' /* Surface diffusion for Bryan and Lewis 79 ( m^2/s ) */') |
172 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffKrBL79deep, INDEX_NONE,'diffKrBL79deep =', |
173 |
jmc |
1.102 |
& ' /* Deep diffusion for Bryan and Lewis 1979 ( m^2/s ) */') |
174 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffKrBL79scl, INDEX_NONE,'diffKrBL79scl =', |
175 |
jmc |
1.102 |
& ' /* Depth scale for Bryan and Lewis 1979 ( m ) */') |
176 |
jmc |
1.115 |
CALL WRITE_0D_RL( diffKrBL79Ho, INDEX_NONE,'diffKrBL79Ho =', |
177 |
jmc |
1.102 |
& ' /* Turning depth for Bryan and Lewis 1979 ( m ) */') |
178 |
jmc |
1.115 |
CALL WRITE_0D_RL( ivdc_kappa, INDEX_NONE,'ivdc_kappa =', |
179 |
jmc |
1.102 |
& ' /* Implicit Vertical Diffusivity for Convection (' |
180 |
jmc |
1.124 |
& //rUnits//'^2/s) */') |
181 |
jmc |
1.115 |
CALL WRITE_0D_RL( hMixCriteria, INDEX_NONE,'hMixCriteria=', |
182 |
jmc |
1.98 |
& ' /* Criteria for mixed-layer diagnostic */') |
183 |
jmc |
1.124 |
CALL WRITE_0D_RL( dRhoSmall, INDEX_NONE,'dRhoSmall =', |
184 |
dfer |
1.112 |
& ' /* Parameter for mixed-layer diagnostic */') |
185 |
jmc |
1.115 |
CALL WRITE_0D_RL( hMixSmooth, INDEX_NONE,'hMixSmooth=', |
186 |
dfer |
1.113 |
& ' /* Smoothing parameter for mixed-layer diagnostic */') |
187 |
jmc |
1.97 |
CALL WRITE_0D_C( eosType, 0, INDEX_NONE, 'eosType =', |
188 |
|
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& ' /* Type of Equation of State */') |
189 |
jmc |
1.115 |
CALL WRITE_0D_RL( tAlpha, INDEX_NONE,'tAlpha =', |
190 |
jmc |
1.86 |
&' /* Linear EOS thermal expansion coefficient ( 1/oC ) */') |
191 |
jmc |
1.115 |
CALL WRITE_0D_RL( sBeta, INDEX_NONE,'sBeta =', |
192 |
jmc |
1.86 |
&' /* Linear EOS haline contraction coefficient ( 1/psu ) */') |
193 |
cnh |
1.16 |
IF ( eosType .EQ. 'POLY3' ) THEN |
194 |
jmc |
1.92 |
WRITE(msgBuf,'(A)') |
195 |
cnh |
1.17 |
& '// Polynomial EQS parameters ( from POLY3.COEFFS ) ' |
196 |
jmc |
1.122 |
DO k = 1, Nr |
197 |
cnh |
1.16 |
WRITE(msgBuf,'(I3,13F8.3)') |
198 |
jmc |
1.122 |
& k,eosRefT(k),eosRefS(k),eosSig0(k), (eosC(i,k),i=1,9) |
199 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
200 |
cnh |
1.16 |
ENDDO |
201 |
|
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ENDIF |
202 |
jmc |
1.62 |
IF ( fluidIsAir ) THEN |
203 |
jmc |
1.115 |
CALL WRITE_0D_RL( atm_Rd, INDEX_NONE, 'atm_Rd =', |
204 |
jmc |
1.37 |
& ' /* gas constant for dry air ( J/kg/K ) */') |
205 |
jmc |
1.115 |
CALL WRITE_0D_RL( atm_Cp, INDEX_NONE, 'atm_Cp =', |
206 |
jmc |
1.37 |
& ' /* specific heat (Cp) of dry air ( J/kg/K ) */') |
207 |
jmc |
1.115 |
CALL WRITE_0D_RL( atm_kappa, INDEX_NONE, 'atm_kappa =', |
208 |
jmc |
1.37 |
& ' /* kappa (=Rd/Cp ) of dry air */') |
209 |
jmc |
1.115 |
CALL WRITE_0D_RL( atm_Rq, INDEX_NONE, 'atm_Rq =', |
210 |
jmc |
1.42 |
& ' /* water vap. specific vol. anomaly relative to dry air */') |
211 |
jmc |
1.115 |
CALL WRITE_0D_RL( atm_Po, INDEX_NONE, 'atm_Po =', |
212 |
jmc |
1.37 |
& ' /* standard reference pressure ( Pa ) */') |
213 |
|
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CALL WRITE_0D_I( integr_GeoPot, INDEX_NONE, 'integr_GeoPot =', |
214 |
|
|
& ' /* select how the geopotential is integrated */') |
215 |
jmc |
1.92 |
CALL WRITE_0D_I( selectFindRoSurf, INDEX_NONE, |
216 |
jmc |
1.37 |
& 'selectFindRoSurf=', |
217 |
|
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& ' /* select how Surf.Ref. pressure is defined */') |
218 |
|
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ENDIF |
219 |
jmc |
1.115 |
CALL WRITE_0D_RL( rhonil, INDEX_NONE,'rhonil =', |
220 |
cnh |
1.6 |
&' /* Reference density ( kg/m^3 ) */') |
221 |
jmc |
1.115 |
CALL WRITE_0D_RL( rhoConst, INDEX_NONE,'rhoConst =', |
222 |
mlosch |
1.35 |
&' /* Reference density ( kg/m^3 ) */') |
223 |
jmc |
1.116 |
CALL WRITE_1D_RL( rhoFacC, Nr, INDEX_K, 'rhoFacC = ', |
224 |
jmc |
1.93 |
& ' /* normalized Reference density @ cell-Center (-) */') |
225 |
jmc |
1.116 |
CALL WRITE_1D_RL( rhoFacF, Nr+1, INDEX_K, 'rhoFacF = ', |
226 |
jmc |
1.93 |
& ' /* normalized Reference density @ W-Interface (-) */') |
227 |
jmc |
1.115 |
CALL WRITE_0D_RL( rhoConstFresh, INDEX_NONE,'rhoConstFresh =', |
228 |
adcroft |
1.20 |
&' /* Reference density ( kg/m^3 ) */') |
229 |
jmc |
1.115 |
CALL WRITE_0D_RL( gravity, INDEX_NONE,'gravity =', |
230 |
cnh |
1.6 |
&' /* Gravitational acceleration ( m/s^2 ) */') |
231 |
jmc |
1.115 |
CALL WRITE_0D_RL( gBaro, INDEX_NONE,'gBaro =', |
232 |
jmc |
1.29 |
&' /* Barotropic gravity ( m/s^2 ) */') |
233 |
jmc |
1.115 |
CALL WRITE_0D_RL(rotationPeriod,INDEX_NONE,'rotationPeriod =', |
234 |
jmc |
1.40 |
&' /* Rotation Period ( s ) */') |
235 |
jmc |
1.115 |
CALL WRITE_0D_RL( omega, INDEX_NONE,'omega =', |
236 |
jmc |
1.40 |
&' /* Angular velocity ( rad/s ) */') |
237 |
jmc |
1.115 |
CALL WRITE_0D_RL( f0, INDEX_NONE,'f0 =', |
238 |
cnh |
1.6 |
&' /* Reference coriolis parameter ( 1/s ) */') |
239 |
jmc |
1.115 |
CALL WRITE_0D_RL( beta, INDEX_NONE,'beta =', |
240 |
cnh |
1.6 |
&' /* Beta ( 1/(m.s) ) */') |
241 |
jmc |
1.125 |
CALL WRITE_0D_RL( fPrime, INDEX_NONE,'fPrime =', |
242 |
|
|
&' /* Second coriolis parameter ( 1/s ) */') |
243 |
jmc |
1.124 |
CALL WRITE_0D_L( rigidLid, INDEX_NONE, 'rigidLid =', |
244 |
|
|
&' /* Rigid lid on/off flag */') |
245 |
heimbach |
1.22 |
CALL WRITE_0D_L( implicitFreeSurface, INDEX_NONE, |
246 |
cnh |
1.8 |
& 'implicitFreeSurface =', |
247 |
|
|
&' /* Implicit free surface on/off flag */') |
248 |
jmc |
1.124 |
CALL WRITE_0D_RL( freeSurfFac, INDEX_NONE,'freeSurfFac =', |
249 |
|
|
&' /* Implicit free surface factor */') |
250 |
jmc |
1.115 |
CALL WRITE_0D_RL( implicSurfPress, INDEX_NONE, |
251 |
jmc |
1.124 |
& 'implicSurfPress =', |
252 |
|
|
& ' /* Surface Pressure implicit factor (0-1)*/') |
253 |
jmc |
1.115 |
CALL WRITE_0D_RL( implicDiv2Dflow, INDEX_NONE, |
254 |
jmc |
1.124 |
& 'implicDiv2Dflow =', |
255 |
|
|
& ' /* Barot. Flow Div. implicit factor (0-1)*/') |
256 |
jmc |
1.31 |
CALL WRITE_0D_L( exactConserv, INDEX_NONE, |
257 |
jmc |
1.124 |
& 'exactConserv =', |
258 |
|
|
& ' /* Exact Volume Conservation on/off flag*/') |
259 |
dfer |
1.95 |
CALL WRITE_0D_L( linFSConserveTr, INDEX_NONE, |
260 |
jmc |
1.124 |
& 'linFSConserveTr =', |
261 |
|
|
& ' /* Tracer correction for Lin Free Surface on/off flag*/') |
262 |
jmc |
1.31 |
CALL WRITE_0D_L( uniformLin_PhiSurf, INDEX_NONE, |
263 |
jmc |
1.124 |
& 'uniformLin_PhiSurf =', |
264 |
|
|
& ' /* use uniform Bo_surf on/off flag*/') |
265 |
|
|
CALL WRITE_0D_RL( hFacMin, INDEX_NONE, 'hFacMin = ', |
266 |
|
|
& ' /* minimum partial cell factor (hFac) */') |
267 |
|
|
CALL WRITE_0D_RL( hFacMin, INDEX_NONE, 'hFacMinDr =', |
268 |
|
|
& ' /* minimum partial cell thickness ('//rUnits//') */') |
269 |
jmc |
1.125 |
WRITE(msgBuf,'(2A)') 'nonlinFreeSurf =', |
270 |
|
|
& ' /* Non-linear Free Surf. options (-1,0,1,2,3)*/' |
271 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
272 |
|
|
buffI(1) = nonlinFreeSurf |
273 |
|
|
CALL PRINT_LIST_I( buffI, 1, 1, INDEX_NONE, |
274 |
|
|
& .FALSE., .TRUE., ioUnit ) |
275 |
jmc |
1.31 |
WRITE(msgBuf,'(2A)') ' -1,0= Off ; 1,2,3= On,', |
276 |
|
|
& ' 2=+rescale gU,gV, 3=+update cg2d solv.' |
277 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
278 |
jmc |
1.125 |
CALL PRINT_MESSAGE(endList, ioUnit, SQUEEZE_RIGHT, myThid ) |
279 |
jmc |
1.124 |
CALL WRITE_0D_RL( hFacInf, INDEX_NONE, 'hFacInf = ', |
280 |
|
|
& ' /* lower threshold for hFac (nonlinFreeSurf only)*/') |
281 |
|
|
CALL WRITE_0D_RL( hFacSup, INDEX_NONE, 'hFacSup = ', |
282 |
|
|
& ' /* upper threshold for hFac (nonlinFreeSurf only)*/') |
283 |
jmc |
1.38 |
CALL WRITE_0D_I( select_rStar, INDEX_NONE, |
284 |
jmc |
1.124 |
& 'select_rStar =', |
285 |
|
|
& ' /* r* Vertical coord. options (=0 r coord.; >0 uses r*)*/') |
286 |
jmc |
1.110 |
CALL WRITE_0D_I( selectAddFluid, INDEX_NONE, |
287 |
jmc |
1.124 |
& 'selectAddFluid =', |
288 |
|
|
& ' /* option for mass source/sink of fluid (=0: off) */') |
289 |
jmc |
1.31 |
CALL WRITE_0D_L( useRealFreshWaterFlux, INDEX_NONE, |
290 |
jmc |
1.124 |
& 'useRealFreshWaterFlux =', |
291 |
|
|
& ' /* Real Fresh Water Flux on/off flag*/') |
292 |
jmc |
1.115 |
CALL WRITE_0D_RL( temp_EvPrRn, INDEX_NONE, |
293 |
jmc |
1.124 |
& 'temp_EvPrRn =', |
294 |
|
|
& ' /* Temp. of Evap/Prec/R (UNSET=use local T)(oC)*/') |
295 |
jmc |
1.115 |
CALL WRITE_0D_RL( salt_EvPrRn, INDEX_NONE, |
296 |
jmc |
1.124 |
& 'salt_EvPrRn =', |
297 |
|
|
& ' /* Salin. of Evap/Prec/R (UNSET=use local S)(psu)*/') |
298 |
dimitri |
1.123 |
CALL WRITE_0D_RL( temp_addMass, INDEX_NONE, |
299 |
jmc |
1.124 |
& 'temp_addMass =', |
300 |
|
|
& ' /* Temp. of addMass array (UNSET=use local T)(oC)*/') |
301 |
dimitri |
1.123 |
CALL WRITE_0D_RL( salt_addMass, INDEX_NONE, |
302 |
jmc |
1.124 |
& 'salt_addMass =', |
303 |
|
|
& ' /* Salin. of addMass array (UNSET=use local S)(psu)*/') |
304 |
jmc |
1.110 |
IF ( .NOT.useRealFreshWaterFlux .OR. selectAddFluid.EQ.-1 |
305 |
|
|
& .OR. nonlinFreeSurf.LE.0 ) THEN |
306 |
jmc |
1.115 |
CALL WRITE_0D_RL( convertFW2Salt, INDEX_NONE, |
307 |
jmc |
1.124 |
& 'convertFW2Salt =', |
308 |
|
|
& ' /* convert F.W. Flux to Salt Flux (-1=use local S)(psu)*/') |
309 |
jmc |
1.31 |
ENDIF |
310 |
|
|
|
311 |
jmc |
1.86 |
CALL WRITE_0D_L( use3Dsolver, INDEX_NONE, |
312 |
|
|
& 'use3Dsolver =', ' /* use 3-D pressure solver on/off flag */') |
313 |
jmc |
1.46 |
CALL WRITE_0D_L( nonHydrostatic, INDEX_NONE, |
314 |
|
|
& 'nonHydrostatic =', ' /* Non-Hydrostatic on/off flag */') |
315 |
jmc |
1.115 |
CALL WRITE_0D_RL( nh_Am2, INDEX_NONE, 'nh_Am2 =', |
316 |
jmc |
1.81 |
& ' /* Non-Hydrostatic terms scaling factor */') |
317 |
jmc |
1.121 |
CALL WRITE_0D_RL( implicitNHPress, INDEX_NONE, |
318 |
|
|
& 'implicitNHPress =', |
319 |
|
|
& ' /* Non-Hyd Pressure implicit factor (0-1)*/') |
320 |
|
|
CALL WRITE_0D_I( selectNHfreeSurf, INDEX_NONE, |
321 |
|
|
& 'selectNHfreeSurf =', |
322 |
|
|
& ' /* Non-Hyd (free-)Surface option */') |
323 |
jmc |
1.88 |
CALL WRITE_0D_L( quasiHydrostatic, INDEX_NONE, |
324 |
|
|
& 'quasiHydrostatic =', ' /* Quasi-Hydrostatic on/off flag */') |
325 |
heimbach |
1.22 |
CALL WRITE_0D_L( momStepping, INDEX_NONE, |
326 |
cnh |
1.10 |
& 'momStepping =', ' /* Momentum equation on/off flag */') |
327 |
jmc |
1.89 |
CALL WRITE_0D_L( vectorInvariantMomentum, INDEX_NONE, |
328 |
|
|
& 'vectorInvariantMomentum=', |
329 |
|
|
& ' /* Vector-Invariant Momentum on/off */') |
330 |
heimbach |
1.22 |
CALL WRITE_0D_L( momAdvection, INDEX_NONE, |
331 |
cnh |
1.10 |
& 'momAdvection =', ' /* Momentum advection on/off flag */') |
332 |
heimbach |
1.22 |
CALL WRITE_0D_L( momViscosity, INDEX_NONE, |
333 |
cnh |
1.9 |
& 'momViscosity =', ' /* Momentum viscosity on/off flag */') |
334 |
jmc |
1.124 |
CALL WRITE_0D_L( momImplVertAdv, INDEX_NONE, 'momImplVertAdv=', |
335 |
|
|
& ' /* Momentum implicit vert. advection on/off*/') |
336 |
jmc |
1.46 |
CALL WRITE_0D_L( implicitViscosity, INDEX_NONE, |
337 |
|
|
& 'implicitViscosity =', ' /* Implicit viscosity on/off flag */') |
338 |
jmc |
1.88 |
CALL WRITE_0D_L( metricTerms, INDEX_NONE, 'metricTerms =', |
339 |
|
|
& ' /* metric-Terms on/off flag */') |
340 |
|
|
CALL WRITE_0D_L( useNHMTerms, INDEX_NONE, 'useNHMTerms =', |
341 |
|
|
& ' /* Non-Hydrostatic Metric-Terms on/off */') |
342 |
jmc |
1.125 |
c------------ |
343 |
|
|
WRITE(msgBuf,'(2A)') |
344 |
|
|
& 'selectCoriMap =', ' /* Coriolis Map options (0,1,2,3)*/' |
345 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
346 |
|
|
buffI(1) = selectCoriMap |
347 |
|
|
CALL PRINT_LIST_I( buffI, 1, 1, INDEX_NONE, |
348 |
|
|
& .FALSE., .TRUE., ioUnit ) |
349 |
|
|
WRITE(msgBuf,'(2A)') ' 0= f-Plane ; 1= Beta-Plane ;', |
350 |
|
|
& ' 2= Spherical ; 3= read from file' |
351 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
352 |
|
|
CALL PRINT_MESSAGE(endList, ioUnit, SQUEEZE_RIGHT, myThid ) |
353 |
|
|
c------------ |
354 |
jmc |
1.91 |
CALL WRITE_0D_L( use3dCoriolis, INDEX_NONE, |
355 |
|
|
& 'use3dCoriolis =', ' /* 3-D Coriolis on/off flag */') |
356 |
heimbach |
1.22 |
CALL WRITE_0D_L( useCoriolis, INDEX_NONE, |
357 |
cnh |
1.9 |
& 'useCoriolis =', ' /* Coriolis on/off flag */') |
358 |
jmc |
1.46 |
CALL WRITE_0D_L( useCDscheme, INDEX_NONE, |
359 |
|
|
& 'useCDscheme =', ' /* CD scheme on/off flag */') |
360 |
|
|
CALL WRITE_0D_L( useJamartWetPoints, INDEX_NONE, |
361 |
|
|
& 'useJamartWetPoints=',' /* Coriolis WetPoints method flag */') |
362 |
adcroft |
1.51 |
CALL WRITE_0D_L( useJamartMomAdv, INDEX_NONE, |
363 |
|
|
& 'useJamartMomAdv=',' /* V.I. Non-linear terms Jamart flag */') |
364 |
jmc |
1.106 |
CALL WRITE_0D_L( useAbsVorticity, INDEX_NONE, |
365 |
|
|
& 'useAbsVorticity=',' /* Work with f+zeta in Coriolis */') |
366 |
|
|
WRITE(msgBuf,'(2A)') |
367 |
|
|
& 'selectVortScheme=',' /* Scheme selector for Vorticity-Term */' |
368 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
369 |
jmc |
1.117 |
buffI(1) = selectVortScheme |
370 |
|
|
CALL PRINT_LIST_I( buffI, 1, 1, INDEX_NONE, |
371 |
jmc |
1.106 |
& .FALSE., .TRUE., ioUnit ) |
372 |
|
|
WRITE(msgBuf,'(2A)') ' = 0 : enstrophy (Shallow-Water Eq.)', |
373 |
|
|
& ' conserving scheme by Sadourny, JAS 75' |
374 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
375 |
|
|
WRITE(msgBuf,'(2A)') ' = 1 : same as 0 with modified hFac' |
376 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
377 |
|
|
WRITE(msgBuf,'(2A)') ' = 2 : energy conserving scheme', |
378 |
|
|
& ' (used by Sadourny in JAS 75 paper)' |
379 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
380 |
jmc |
1.109 |
WRITE(msgBuf,'(2A)') ' = 3 : energy (general)', |
381 |
|
|
& ' and enstrophy (2D, nonDiv.) conserving scheme' |
382 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
383 |
|
|
WRITE(msgBuf,'(2A)') ' from Sadourny', |
384 |
|
|
& ' (Burridge & Haseler, ECMWF Rep.4, 1977)' |
385 |
|
|
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
386 |
jmc |
1.106 |
c WRITE(msgBuf,'(2A)') ' = 4 : energy (general)', |
387 |
|
|
c & ' and enstrophy (2D, nonDiv.) conserving scheme' |
388 |
|
|
c CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
389 |
|
|
c WRITE(msgBuf,'(2A)') ' from Arakawa & Lamb, 77' |
390 |
|
|
c CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
391 |
jmc |
1.125 |
CALL PRINT_MESSAGE(endList, ioUnit, SQUEEZE_RIGHT, myThid ) |
392 |
adcroft |
1.49 |
CALL WRITE_0D_L( upwindVorticity, INDEX_NONE, |
393 |
|
|
& 'upwindVorticity=',' /* Upwind bias vorticity flag */') |
394 |
|
|
CALL WRITE_0D_L( highOrderVorticity, INDEX_NONE, |
395 |
|
|
& 'highOrderVorticity=',' /* High order interp. of vort. flag */') |
396 |
jmc |
1.74 |
CALL WRITE_0D_L( upwindShear, INDEX_NONE, |
397 |
|
|
& 'upwindShear=', ' /* Upwind vertical Shear advection flag */') |
398 |
jmc |
1.80 |
CALL WRITE_0D_I( selectKEscheme, INDEX_NONE, |
399 |
|
|
& 'selectKEscheme=', ' /* Kinetic Energy scheme selector */') |
400 |
heimbach |
1.22 |
CALL WRITE_0D_L( momForcing, INDEX_NONE, |
401 |
cnh |
1.9 |
& 'momForcing =', ' /* Momentum forcing on/off flag */') |
402 |
heimbach |
1.22 |
CALL WRITE_0D_L( momPressureForcing, INDEX_NONE, |
403 |
jmc |
1.92 |
& 'momPressureForcing =', |
404 |
cnh |
1.17 |
& ' /* Momentum pressure term on/off flag */') |
405 |
jmc |
1.85 |
CALL WRITE_0D_L( implicitIntGravWave, INDEX_NONE, |
406 |
|
|
& 'implicitIntGravWave=', |
407 |
|
|
& ' /* Implicit Internal Gravity Wave flag */') |
408 |
jmc |
1.46 |
CALL WRITE_0D_L( staggerTimeStep, INDEX_NONE, |
409 |
|
|
& 'staggerTimeStep =', |
410 |
|
|
&' /* Stagger time stepping on/off flag */') |
411 |
jmc |
1.92 |
CALL WRITE_0D_L( multiDimAdvection, INDEX_NONE, |
412 |
jmc |
1.46 |
& 'multiDimAdvection =', |
413 |
|
|
&' /* enable/disable Multi-Dim Advection */') |
414 |
jmc |
1.92 |
CALL WRITE_0D_L( useMultiDimAdvec, INDEX_NONE, |
415 |
jmc |
1.53 |
& 'useMultiDimAdvec =', |
416 |
|
|
&' /* Multi-Dim Advection is/is-not used */') |
417 |
jmc |
1.46 |
CALL WRITE_0D_L( implicitDiffusion, INDEX_NONE, |
418 |
jmc |
1.124 |
& 'implicitDiffusion =',' /* Implicit Diffusion on/off flag */') |
419 |
heimbach |
1.22 |
CALL WRITE_0D_L( tempStepping, INDEX_NONE, |
420 |
cnh |
1.10 |
& 'tempStepping =', ' /* Temperature equation on/off flag */') |
421 |
jmc |
1.33 |
CALL WRITE_0D_L( tempAdvection, INDEX_NONE, |
422 |
|
|
& 'tempAdvection=', ' /* Temperature advection on/off flag */') |
423 |
jmc |
1.46 |
CALL WRITE_0D_L( tempImplVertAdv,INDEX_NONE,'tempImplVertAdv =', |
424 |
jmc |
1.124 |
& ' /* Temp. implicit vert. advection on/off */') |
425 |
jmc |
1.33 |
CALL WRITE_0D_L( tempForcing, INDEX_NONE, |
426 |
|
|
& 'tempForcing =', ' /* Temperature forcing on/off flag */') |
427 |
jmc |
1.107 |
CALL WRITE_0D_L( tempIsActiveTr, INDEX_NONE, 'tempIsActiveTr =', |
428 |
|
|
& ' /* Temp. is a dynamically Active Tracer */') |
429 |
jmc |
1.33 |
CALL WRITE_0D_L( saltStepping, INDEX_NONE, |
430 |
|
|
& 'saltStepping =', ' /* Salinity equation on/off flag */') |
431 |
|
|
CALL WRITE_0D_L( saltAdvection, INDEX_NONE, |
432 |
|
|
& 'saltAdvection=', ' /* Salinity advection on/off flag */') |
433 |
jmc |
1.46 |
CALL WRITE_0D_L( saltImplVertAdv,INDEX_NONE,'saltImplVertAdv =', |
434 |
jmc |
1.124 |
& ' /* Sali. implicit vert. advection on/off */') |
435 |
jmc |
1.33 |
CALL WRITE_0D_L( saltForcing, INDEX_NONE, |
436 |
|
|
& 'saltForcing =', ' /* Salinity forcing on/off flag */') |
437 |
jmc |
1.107 |
CALL WRITE_0D_L( saltIsActiveTr, INDEX_NONE, 'saltIsActiveTr =', |
438 |
|
|
& ' /* Salt is a dynamically Active Tracer */') |
439 |
jmc |
1.84 |
CALL WRITE_0D_I( readBinaryPrec, INDEX_NONE, ' readBinaryPrec =', |
440 |
|
|
& ' /* Precision used for reading binary files */') |
441 |
|
|
CALL WRITE_0D_I(writeBinaryPrec, INDEX_NONE, 'writeBinaryPrec =', |
442 |
|
|
& ' /* Precision used for writing binary files */') |
443 |
|
|
CALL WRITE_0D_L( globalFiles, INDEX_NONE, |
444 |
|
|
& ' globalFiles =',' /* write "global" (=not per tile) files */') |
445 |
|
|
CALL WRITE_0D_L( useSingleCpuIO, INDEX_NONE, |
446 |
|
|
& ' useSingleCpuIO =', ' /* only master MPI process does I/O */') |
447 |
jmc |
1.76 |
CALL WRITE_0D_L( debugMode, INDEX_NONE, |
448 |
|
|
& ' debugMode =', ' /* Debug Mode on/off flag */') |
449 |
|
|
CALL WRITE_0D_I( debLevA, INDEX_NONE, |
450 |
|
|
& ' debLevA =', ' /* 1rst level of debugging */') |
451 |
|
|
CALL WRITE_0D_I( debLevB, INDEX_NONE, |
452 |
|
|
& ' debLevB =', ' /* 2nd level of debugging */') |
453 |
|
|
CALL WRITE_0D_I( debugLevel, INDEX_NONE, |
454 |
|
|
& ' debugLevel =', ' /* select debugging level */') |
455 |
jmc |
1.124 |
|
456 |
cnh |
1.6 |
WRITE(msgBuf,'(A)') '// ' |
457 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
458 |
jmc |
1.92 |
WRITE(msgBuf,'(A)') |
459 |
cnh |
1.17 |
& '// Elliptic solver(s) paramters ( PARM02 in namelist ) ' |
460 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
461 |
cnh |
1.6 |
WRITE(msgBuf,'(A)') '// ' |
462 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
463 |
heimbach |
1.22 |
CALL WRITE_0D_I( cg2dMaxIters, INDEX_NONE,'cg2dMaxIters =', |
464 |
cnh |
1.6 |
&' /* Upper limit on 2d con. grad iterations */') |
465 |
heimbach |
1.22 |
CALL WRITE_0D_I( cg2dChkResFreq, INDEX_NONE,'cg2dChkResFreq =', |
466 |
cnh |
1.6 |
&' /* 2d con. grad convergence test frequency */') |
467 |
jmc |
1.115 |
CALL WRITE_0D_RL( cg2dTargetResidual, INDEX_NONE, |
468 |
cnh |
1.17 |
& 'cg2dTargetResidual =', |
469 |
cnh |
1.6 |
&' /* 2d con. grad target residual */') |
470 |
jmc |
1.115 |
CALL WRITE_0D_RL( cg2dTargetResWunit, INDEX_NONE, |
471 |
jmc |
1.54 |
& 'cg2dTargetResWunit =', |
472 |
|
|
&' /* CG2d target residual [W units] */') |
473 |
|
|
CALL WRITE_0D_I( cg2dPreCondFreq, INDEX_NONE,'cg2dPreCondFreq =', |
474 |
|
|
&' /* Freq. for updating cg2d preconditioner */') |
475 |
mlosch |
1.120 |
CALL WRITE_0D_L( useSRCGSolver, INDEX_NONE, |
476 |
|
|
& 'useSRCGSolver =', ' /* use single reduction CG solver(s) */') |
477 |
cnh |
1.6 |
|
478 |
|
|
WRITE(msgBuf,'(A)') '// ' |
479 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
480 |
jmc |
1.92 |
WRITE(msgBuf,'(A)') |
481 |
cnh |
1.17 |
& '// Time stepping paramters ( PARM03 in namelist ) ' |
482 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
483 |
cnh |
1.6 |
WRITE(msgBuf,'(A)') '// ' |
484 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
485 |
jmc |
1.115 |
CALL WRITE_0D_RL( deltaTmom, INDEX_NONE,'deltaTmom =', |
486 |
cnh |
1.6 |
&' /* Momentum equation timestep ( s ) */') |
487 |
jmc |
1.115 |
CALL WRITE_0D_RL( deltaTfreesurf,INDEX_NONE,'deltaTfreesurf =', |
488 |
jmc |
1.116 |
& ' /* FreeSurface equation timestep ( s ) */') |
489 |
|
|
CALL WRITE_1D_RL( dTtracerLev, Nr, INDEX_K, 'dTtracerLev =', |
490 |
|
|
& ' /* Tracer equation timestep ( s ) */') |
491 |
jmc |
1.115 |
CALL WRITE_0D_RL( deltaTClock, INDEX_NONE,'deltaTClock =', |
492 |
cnh |
1.12 |
&' /* Model clock timestep ( s ) */') |
493 |
jmc |
1.115 |
CALL WRITE_0D_RL( cAdjFreq, INDEX_NONE,'cAdjFreq =', |
494 |
cnh |
1.9 |
&' /* Convective adjustment interval ( s ) */') |
495 |
jmc |
1.87 |
CALL WRITE_0D_I( momForcingOutAB, INDEX_NONE, 'momForcingOutAB =', |
496 |
|
|
& ' /* =1: take Momentum Forcing out of Adams-Bash. stepping */') |
497 |
|
|
CALL WRITE_0D_I( tracForcingOutAB, INDEX_NONE, |
498 |
|
|
& 'tracForcingOutAB =', |
499 |
|
|
& ' /* =1: take T,S,pTr Forcing out of Adams-Bash. stepping */') |
500 |
jmc |
1.88 |
CALL WRITE_0D_L( momDissip_In_AB,INDEX_NONE,'momDissip_In_AB =', |
501 |
|
|
& ' /* put Dissipation Tendency in Adams-Bash. stepping */') |
502 |
jmc |
1.82 |
CALL WRITE_0D_L( doAB_onGtGs, INDEX_NONE, 'doAB_onGtGs =', |
503 |
|
|
& ' /* apply AB on Tendencies (rather than on T,S)*/') |
504 |
jmc |
1.115 |
CALL WRITE_0D_RL( abEps, INDEX_NONE,'abEps =', |
505 |
jmc |
1.73 |
&' /* Adams-Bashforth-2 stabilizing weight */') |
506 |
|
|
#ifdef ALLOW_ADAMSBASHFORTH_3 |
507 |
jmc |
1.115 |
CALL WRITE_0D_RL( alph_AB, INDEX_NONE,'alph_AB =', |
508 |
jmc |
1.73 |
&' /* Adams-Bashforth-3 primary factor */') |
509 |
jmc |
1.115 |
CALL WRITE_0D_RL( beta_AB, INDEX_NONE,'beta_AB =', |
510 |
jmc |
1.73 |
&' /* Adams-Bashforth-3 secondary factor */') |
511 |
|
|
CALL WRITE_0D_L( startFromPickupAB2, INDEX_NONE, |
512 |
|
|
& 'startFromPickupAB2=',' /* start from AB-2 pickup */') |
513 |
|
|
#endif |
514 |
jmc |
1.41 |
IF (useCDscheme) THEN |
515 |
jmc |
1.115 |
CALL WRITE_0D_RL( tauCD, INDEX_NONE,'tauCD =', |
516 |
cnh |
1.6 |
&' /* CD coupling time-scale ( s ) */') |
517 |
jmc |
1.115 |
CALL WRITE_0D_RL( rCD, INDEX_NONE,'rCD =', |
518 |
cnh |
1.6 |
&' /* Normalised CD coupling parameter */') |
519 |
jmc |
1.119 |
CALL WRITE_0D_RL( epsAB_CD, INDEX_NONE,'epsAB_CD =', |
520 |
|
|
& ' /* AB-2 stabilizing weight for CD-scheme*/') |
521 |
jmc |
1.41 |
ENDIF |
522 |
jmc |
1.122 |
i = ILNBLNK(pickupSuff) |
523 |
|
|
IF ( i.GT.0 ) THEN |
524 |
jmc |
1.100 |
CALL WRITE_0D_C( pickupSuff, 0, INDEX_NONE, |
525 |
|
|
& 'pickupSuff =', ' /* Suffix of pickup-file to restart from */') |
526 |
|
|
ENDIF |
527 |
|
|
CALL WRITE_0D_L( pickupStrictlyMatch, INDEX_NONE, |
528 |
|
|
& 'pickupStrictlyMatch=', |
529 |
|
|
& ' /* stop if pickup do not strictly match */') |
530 |
jmc |
1.126 |
CALL WRITE_0D_I( nIter0, INDEX_NONE, 'nIter0 =', |
531 |
|
|
&' /* Run starting timestep number */') |
532 |
jmc |
1.100 |
CALL WRITE_0D_I( nTimeSteps, INDEX_NONE,'nTimeSteps =', |
533 |
jmc |
1.126 |
& ' /* Number of timesteps */') |
534 |
|
|
CALL WRITE_0D_I( nEndIter, INDEX_NONE, 'nEndIter =', |
535 |
|
|
&' /* Run ending timestep number */') |
536 |
jmc |
1.115 |
CALL WRITE_0D_RL( baseTime, INDEX_NONE,'baseTime =', |
537 |
jmc |
1.126 |
&' /* Model base time ( s ) */') |
538 |
jmc |
1.115 |
CALL WRITE_0D_RL( startTime, INDEX_NONE,'startTime =', |
539 |
jmc |
1.126 |
& ' /* Run start time ( s ) */') |
540 |
|
|
CALL WRITE_0D_RL( endTime, INDEX_NONE,'endTime =', |
541 |
|
|
&' /* Integration ending time ( s ) */') |
542 |
jmc |
1.115 |
CALL WRITE_0D_RL( pChkPtFreq, INDEX_NONE,'pChkPtFreq =', |
543 |
jmc |
1.126 |
& ' /* Permanent restart/pickup file interval ( s ) */') |
544 |
|
|
CALL WRITE_0D_RL( chkPtFreq, INDEX_NONE,'chkPtFreq =', |
545 |
|
|
& ' /* Rolling restart/pickup file interval ( s ) */') |
546 |
edhill |
1.57 |
CALL WRITE_0D_L(pickup_write_mdsio,INDEX_NONE, |
547 |
|
|
& 'pickup_write_mdsio =', ' /* Model IO flag. */') |
548 |
|
|
CALL WRITE_0D_L(pickup_read_mdsio,INDEX_NONE, |
549 |
|
|
& 'pickup_read_mdsio =', ' /* Model IO flag. */') |
550 |
|
|
#ifdef ALLOW_MNC |
551 |
|
|
CALL WRITE_0D_L(pickup_write_mnc,INDEX_NONE, |
552 |
|
|
& 'pickup_write_mnc =', ' /* Model IO flag. */') |
553 |
|
|
CALL WRITE_0D_L(pickup_read_mnc,INDEX_NONE, |
554 |
|
|
& 'pickup_read_mnc =', ' /* Model IO flag. */') |
555 |
|
|
#endif |
556 |
|
|
CALL WRITE_0D_L(pickup_write_immed,INDEX_NONE, |
557 |
|
|
& 'pickup_write_immed =',' /* Model IO flag. */') |
558 |
mlosch |
1.104 |
CALL WRITE_0D_L(writePickupAtEnd,INDEX_NONE, |
559 |
|
|
& 'writePickupAtEnd =',' /* Model IO flag. */') |
560 |
jmc |
1.115 |
CALL WRITE_0D_RL( dumpFreq, INDEX_NONE,'dumpFreq =', |
561 |
cnh |
1.6 |
&' /* Model state write out interval ( s ). */') |
562 |
jmc |
1.77 |
CALL WRITE_0D_L(dumpInitAndLast,INDEX_NONE,'dumpInitAndLast=', |
563 |
|
|
& ' /* write out Initial & Last iter. model state */') |
564 |
edhill |
1.57 |
CALL WRITE_0D_L(snapshot_mdsio,INDEX_NONE, |
565 |
|
|
& 'snapshot_mdsio =', ' /* Model IO flag. */') |
566 |
|
|
#ifdef ALLOW_MNC |
567 |
|
|
CALL WRITE_0D_L(snapshot_mnc,INDEX_NONE, |
568 |
|
|
& 'snapshot_mnc =', ' /* Model IO flag. */') |
569 |
|
|
#endif |
570 |
jmc |
1.115 |
CALL WRITE_0D_RL( monitorFreq, INDEX_NONE,'monitorFreq =', |
571 |
edhill |
1.56 |
&' /* Monitor output interval ( s ). */') |
572 |
jmc |
1.101 |
CALL WRITE_0D_I( monitorSelect, INDEX_NONE, 'monitorSelect =', |
573 |
|
|
& ' /* select group of variables to monitor */') |
574 |
edhill |
1.58 |
CALL WRITE_0D_L(monitor_stdio,INDEX_NONE, |
575 |
|
|
& 'monitor_stdio =', ' /* Model IO flag. */') |
576 |
edhill |
1.57 |
#ifdef ALLOW_MNC |
577 |
|
|
CALL WRITE_0D_L(monitor_mnc,INDEX_NONE, |
578 |
|
|
& 'monitor_mnc =', ' /* Model IO flag. */') |
579 |
|
|
#endif |
580 |
jmc |
1.115 |
CALL WRITE_0D_RL( externForcingPeriod, INDEX_NONE, |
581 |
jmc |
1.43 |
& 'externForcingPeriod =', ' /* forcing period (s) */') |
582 |
jmc |
1.115 |
CALL WRITE_0D_RL( externForcingCycle, INDEX_NONE, |
583 |
jmc |
1.43 |
& 'externForcingCycle =', ' /* period of the cyle (s). */') |
584 |
jmc |
1.115 |
CALL WRITE_0D_RL( tauThetaClimRelax, INDEX_NONE, |
585 |
jmc |
1.43 |
& 'tauThetaClimRelax =', ' /* relaxation time scale (s) */') |
586 |
jmc |
1.115 |
CALL WRITE_0D_RL( tauSaltClimRelax, INDEX_NONE, |
587 |
jmc |
1.43 |
& 'tauSaltClimRelax =', ' /* relaxation time scale (s) */') |
588 |
jmc |
1.115 |
CALL WRITE_0D_RL( latBandClimRelax, INDEX_NONE, |
589 |
jmc |
1.43 |
& 'latBandClimRelax =', ' /* max. Lat. where relaxation */') |
590 |
jmc |
1.124 |
|
591 |
cnh |
1.6 |
WRITE(msgBuf,'(A)') '// ' |
592 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
593 |
jmc |
1.92 |
WRITE(msgBuf,'(A)') |
594 |
cnh |
1.17 |
& '// Gridding paramters ( PARM04 in namelist ) ' |
595 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
596 |
cnh |
1.6 |
WRITE(msgBuf,'(A)') '// ' |
597 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
598 |
heimbach |
1.22 |
CALL WRITE_0D_L( usingCartesianGrid, INDEX_NONE, |
599 |
cnh |
1.17 |
& 'usingCartesianGrid =', |
600 |
jmc |
1.93 |
& ' /* Cartesian coordinates flag ( True/False ) */') |
601 |
|
|
CALL WRITE_0D_L( usingCylindricalGrid, INDEX_NONE, |
602 |
|
|
& 'usingCylindricalGrid =', |
603 |
|
|
& ' /* Cylindrical coordinates flag ( True/False ) */') |
604 |
heimbach |
1.22 |
CALL WRITE_0D_L( usingSphericalPolarGrid, INDEX_NONE, |
605 |
cnh |
1.17 |
& 'usingSphericalPolarGrid =', |
606 |
jmc |
1.93 |
& ' /* Spherical coordinates flag ( True/False ) */') |
607 |
|
|
CALL WRITE_0D_L( usingCurvilinearGrid, INDEX_NONE, |
608 |
|
|
& 'usingCurvilinearGrid =', |
609 |
|
|
& ' /* Curvilinear coordinates flag ( True/False ) */') |
610 |
jmc |
1.124 |
CALL WRITE_0D_I( selectSigmaCoord, INDEX_NONE, |
611 |
|
|
& 'selectSigmaCoord =', |
612 |
|
|
& ' /* Hybrid-Sigma Vert. Coordinate option */') |
613 |
jmc |
1.115 |
CALL WRITE_0D_RL( Ro_SeaLevel, INDEX_NONE,'Ro_SeaLevel =', |
614 |
jmc |
1.102 |
& ' /* r(1) ( units of r == '//rUnits//' ) */') |
615 |
jmc |
1.124 |
CALL WRITE_0D_RL( rSigmaBnd, INDEX_NONE, 'rSigmaBnd =', |
616 |
|
|
& ' /* r/sigma transition ( units of r == '//rUnits//' ) */') |
617 |
jmc |
1.115 |
CALL WRITE_0D_RL( rkSign, INDEX_NONE,'rkSign =', |
618 |
jmc |
1.75 |
&' /* index orientation relative to vertical coordinate */') |
619 |
jmc |
1.115 |
CALL WRITE_0D_RL( gravitySign, INDEX_NONE,'gravitySign =', |
620 |
jmc |
1.93 |
& ' /* gravity orientation relative to vertical coordinate */') |
621 |
jmc |
1.99 |
IF ( usingZCoords ) THEN |
622 |
jmc |
1.115 |
CALL WRITE_0D_RL( mass2rUnit, INDEX_NONE,'mass2rUnit =', |
623 |
jmc |
1.99 |
& ' /* convert mass per unit area [kg/m2] to r-units [m] */') |
624 |
jmc |
1.115 |
CALL WRITE_0D_RL( rUnit2mass, INDEX_NONE,'rUnit2mass =', |
625 |
jmc |
1.99 |
& ' /* convert r-units [m] to mass per unit area [kg/m2] */') |
626 |
|
|
ENDIF |
627 |
|
|
IF ( usingPCoords ) THEN |
628 |
jmc |
1.115 |
CALL WRITE_0D_RL( mass2rUnit, INDEX_NONE,'mass2rUnit =', |
629 |
jmc |
1.99 |
& ' /* convert mass per unit area [kg/m2] to r-units [Pa] */') |
630 |
jmc |
1.115 |
CALL WRITE_0D_RL( rUnit2mass, INDEX_NONE,'rUnit2mass =', |
631 |
jmc |
1.99 |
& ' /* convert r-units [Pa] to mass per unit area [kg/m2] */') |
632 |
|
|
ENDIF |
633 |
jmc |
1.116 |
CALL WRITE_COPY1D_RS( bufRL, drC, Nr, INDEX_K, 'drC = ', |
634 |
jmc |
1.32 |
&' /* C spacing ( units of r ) */') |
635 |
jmc |
1.116 |
CALL WRITE_COPY1D_RS( bufRL, drF, Nr, INDEX_K, 'drF = ', |
636 |
cnh |
1.15 |
&' /* W spacing ( units of r ) */') |
637 |
jmc |
1.124 |
IF ( selectSigmaCoord.NE.0 ) THEN |
638 |
|
|
CALL WRITE_COPY1D_RS( bufRL,dAHybSigF,Nr,INDEX_K,'dAHybSigF =', |
639 |
|
|
& ' /* vertical increment of Hybrid-sigma Coeff. (-) */') |
640 |
|
|
CALL WRITE_COPY1D_RS( bufRL,dBHybSigF,Nr,INDEX_K,'dBHybSigF =', |
641 |
|
|
& ' /* vertical increment of Hybrid-sigma Coeff. (-) */') |
642 |
|
|
ENDIF |
643 |
jmc |
1.116 |
IF ( .NOT.usingCurvilinearGrid ) THEN |
644 |
|
|
CALL WRITE_1D_RL( delX, Nx, INDEX_I, 'delX = ', |
645 |
|
|
& ' /* U spacing ( m - cartesian, degrees - spherical ) */') |
646 |
|
|
CALL WRITE_1D_RL( delY, Ny, INDEX_J, 'delY = ', |
647 |
|
|
& ' /* V spacing ( m - cartesian, degrees - spherical ) */') |
648 |
|
|
ENDIF |
649 |
jmc |
1.115 |
CALL WRITE_0D_RL( xgOrigin, INDEX_NONE,'xgOrigin = ', |
650 |
jmc |
1.114 |
&'/* X-axis origin of West edge (cartesian: m, lat-lon: deg.) */') |
651 |
jmc |
1.115 |
CALL WRITE_0D_RL( ygOrigin, INDEX_NONE,'ygOrigin = ', |
652 |
jmc |
1.114 |
&'/* Y-axis origin of South edge (cartesian: m, lat-lon: deg.) */') |
653 |
jmc |
1.115 |
CALL WRITE_0D_RL( rSphere, INDEX_NONE,'rSphere = ', |
654 |
jmc |
1.93 |
& ' /* Radius ( ignored - cartesian, m - spherical ) */') |
655 |
jmc |
1.127 |
IF ( usingCurvilinearGrid ) THEN |
656 |
|
|
CALL WRITE_0D_RL( radius_fromHorizGrid, INDEX_NONE, |
657 |
|
|
& 'radius_fromHorizGrid = ', |
658 |
|
|
& '/* sphere Radius of input horiz. grid */') |
659 |
|
|
ENDIF |
660 |
jmc |
1.93 |
CALL WRITE_0D_L(deepAtmosphere,INDEX_NONE, 'deepAtmosphere =', |
661 |
|
|
& ' /* Deep/Shallow Atmosphere flag (True/False) */') |
662 |
jmc |
1.115 |
coordLine = 1 |
663 |
|
|
tileLine = 1 |
664 |
|
|
CALL WRITE_XY_XLINE_RS( xC, coordLine, tileLine, 'xC', |
665 |
|
|
I ': P-point X coord ( deg. or m if cartesian)') |
666 |
|
|
CALL WRITE_XY_YLINE_RS( yC, coordLine, tileLine, 'yC', |
667 |
|
|
I ': P-point Y coord ( deg. or m if cartesian)') |
668 |
jmc |
1.116 |
CALL WRITE_COPY1D_RS( bufRL, rC, Nr, INDEX_K, 'rcoord =', |
669 |
|
|
& ' /* P-point R coordinate ( units of r ) */') |
670 |
|
|
CALL WRITE_COPY1D_RS( bufRL, rF,Nr+1,INDEX_K, 'rF = ', |
671 |
jmc |
1.32 |
&' /* W-Interf. R coordinate ( units of r ) */') |
672 |
jmc |
1.124 |
IF ( selectSigmaCoord.NE.0 ) THEN |
673 |
|
|
CALL WRITE_COPY1D_RS(bufRL,aHybSigmF,Nr+1,INDEX_K,'aHybSigmF =', |
674 |
|
|
& ' /* Hybrid-sigma vert. Coord coeff. @ W-Interface (-) */') |
675 |
|
|
CALL WRITE_COPY1D_RS(bufRL,bHybSigmF,Nr+1,INDEX_K,'bHybSigmF =', |
676 |
|
|
& ' /* Hybrid-sigma vert. Coord coeff. @ W-Interface (-) */') |
677 |
|
|
ENDIF |
678 |
jmc |
1.116 |
CALL WRITE_1D_RL( deepFacC, Nr, INDEX_K, 'deepFacC = ', |
679 |
jmc |
1.93 |
& ' /* deep-model grid factor @ cell-Center (-) */') |
680 |
jmc |
1.116 |
CALL WRITE_1D_RL( deepFacF, Nr+1, INDEX_K, 'deepFacF = ', |
681 |
jmc |
1.93 |
& ' /* deep-model grid factor @ W-Interface (-) */') |
682 |
jmc |
1.116 |
CALL WRITE_1D_RL(rVel2wUnit,Nr+1, INDEX_K,'rVel2wUnit =', |
683 |
jmc |
1.96 |
& ' /* convert units: rVel -> wSpeed (=1 if z-coord)*/') |
684 |
jmc |
1.116 |
CALL WRITE_1D_RL(wUnit2rVel,Nr+1, INDEX_K,'wUnit2rVel =', |
685 |
jmc |
1.96 |
& ' /* convert units: wSpeed -> rVel (=1 if z-coord)*/') |
686 |
jmc |
1.116 |
CALL WRITE_1D_RL( dBdrRef, Nr, INDEX_K, 'dBdrRef =', |
687 |
jmc |
1.86 |
& ' /* Vertical gradient of reference boyancy [(m/s/r)^2)] */') |
688 |
mlosch |
1.103 |
CALL WRITE_0D_L( rotateGrid, INDEX_NONE, |
689 |
|
|
& 'rotateGrid =',' /* use rotated grid ( True/False ) */') |
690 |
jmc |
1.115 |
CALL WRITE_0D_RL( phiEuler, INDEX_NONE,'phiEuler =', |
691 |
mlosch |
1.103 |
&' /* Euler angle, rotation about original z-coordinate [rad] */') |
692 |
jmc |
1.115 |
CALL WRITE_0D_RL( thetaEuler, INDEX_NONE,'thetaEuler =', |
693 |
mlosch |
1.103 |
& ' /* Euler angle, rotation about new x-coordinate [rad] */') |
694 |
jmc |
1.115 |
CALL WRITE_0D_RL( psiEuler, INDEX_NONE,'psiEuler =', |
695 |
mlosch |
1.103 |
& ' /* Euler angle, rotation about new z-coordinate [rad] */') |
696 |
cnh |
1.6 |
|
697 |
cnh |
1.26 |
C Grid along selected grid lines |
698 |
|
|
coordLine = 1 |
699 |
|
|
tileLine = 1 |
700 |
jmc |
1.92 |
CALL WRITE_XY_XLINE_RS( dxF, coordLine, tileLine, 'dxF', |
701 |
|
|
I '( units: m )' ) |
702 |
|
|
CALL WRITE_XY_YLINE_RS( dxF, coordLine, tileLine, 'dxF', |
703 |
|
|
I '( units: m )' ) |
704 |
|
|
CALL WRITE_XY_XLINE_RS( dyF, coordLine, tileLine, 'dyF', |
705 |
|
|
I '( units: m )' ) |
706 |
|
|
CALL WRITE_XY_YLINE_RS( dyF, coordLine, tileLine, 'dyF', |
707 |
|
|
I '( units: m )' ) |
708 |
|
|
CALL WRITE_XY_XLINE_RS( dxG, coordLine, tileLine, 'dxG', |
709 |
|
|
I '( units: m )' ) |
710 |
|
|
CALL WRITE_XY_YLINE_RS( dxG, coordLine, tileLine, 'dxG', |
711 |
|
|
I '( units: m )' ) |
712 |
|
|
CALL WRITE_XY_XLINE_RS( dyG, coordLine, tileLine, 'dyG', |
713 |
|
|
I '( units: m )' ) |
714 |
|
|
CALL WRITE_XY_YLINE_RS( dyG, coordLine, tileLine, 'dyG', |
715 |
|
|
I '( units: m )' ) |
716 |
|
|
CALL WRITE_XY_XLINE_RS( dxC, coordLine, tileLine, 'dxC', |
717 |
|
|
I '( units: m )' ) |
718 |
|
|
CALL WRITE_XY_YLINE_RS( dxC, coordLine, tileLine, 'dxC', |
719 |
|
|
I '( units: m )' ) |
720 |
|
|
CALL WRITE_XY_XLINE_RS( dyC, coordLine, tileLine, 'dyC', |
721 |
|
|
I '( units: m )' ) |
722 |
|
|
CALL WRITE_XY_YLINE_RS( dyC, coordLine, tileLine, 'dyC', |
723 |
|
|
I '( units: m )' ) |
724 |
|
|
CALL WRITE_XY_XLINE_RS( dxV, coordLine, tileLine, 'dxV', |
725 |
|
|
I '( units: m )' ) |
726 |
|
|
CALL WRITE_XY_YLINE_RS( dxV, coordLine, tileLine, 'dxV', |
727 |
|
|
I '( units: m )' ) |
728 |
|
|
CALL WRITE_XY_XLINE_RS( dyU, coordLine, tileLine, 'dyU', |
729 |
|
|
I '( units: m )' ) |
730 |
|
|
CALL WRITE_XY_YLINE_RS( dyU, coordLine, tileLine, 'dyU', |
731 |
|
|
I '( units: m )' ) |
732 |
|
|
CALL WRITE_XY_XLINE_RS( rA , coordLine, tileLine, 'rA ', |
733 |
|
|
I '( units: m^2 )' ) |
734 |
|
|
CALL WRITE_XY_YLINE_RS( rA , coordLine, tileLine, 'rA ', |
735 |
|
|
I '( units: m^2 )' ) |
736 |
|
|
CALL WRITE_XY_XLINE_RS( rAw, coordLine, tileLine, 'rAw', |
737 |
|
|
I '( units: m^2 )' ) |
738 |
|
|
CALL WRITE_XY_YLINE_RS( rAw, coordLine, tileLine, 'rAw', |
739 |
|
|
I '( units: m^2 )' ) |
740 |
|
|
CALL WRITE_XY_XLINE_RS( rAs, coordLine, tileLine, 'rAs', |
741 |
|
|
I '( units: m^2 )' ) |
742 |
|
|
CALL WRITE_XY_YLINE_RS( rAs, coordLine, tileLine, 'rAs', |
743 |
|
|
I '( units: m^2 )' ) |
744 |
|
|
|
745 |
jmc |
1.115 |
CALL WRITE_0D_RL( globalArea, INDEX_NONE, 'globalArea =', |
746 |
jmc |
1.92 |
& ' /* Integrated horizontal Area (m^2) */') |
747 |
cnh |
1.5 |
|
748 |
jmc |
1.122 |
i = ILNBLNK(the_run_name) |
749 |
|
|
IF ( i.GT.0 ) THEN |
750 |
|
|
CALL WRITE_0D_C( the_run_name, i, INDEX_NONE, |
751 |
jmc |
1.97 |
& 'the_run_name = ', '/* Name of this simulation */' ) |
752 |
jmc |
1.94 |
ENDIF |
753 |
|
|
|
754 |
jmc |
1.83 |
WRITE(msgBuf,'(A)') |
755 |
|
|
&'// =======================================================' |
756 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
757 |
jmc |
1.83 |
WRITE(msgBuf,'(A)') '// End of Model config. summary' |
758 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
759 |
jmc |
1.83 |
WRITE(msgBuf,'(A)') |
760 |
|
|
&'// =======================================================' |
761 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
762 |
cnh |
1.1 |
WRITE(msgBuf,'(A)') ' ' |
763 |
jmc |
1.106 |
CALL PRINT_MESSAGE( msgBuf, ioUnit, SQUEEZE_RIGHT, myThid ) |
764 |
cnh |
1.5 |
|
765 |
cnh |
1.1 |
_END_MASTER(myThid) |
766 |
|
|
_BARRIER |
767 |
|
|
|
768 |
|
|
RETURN |
769 |
|
|
END |