4 |
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5 |
SUBROUTINE SET_DEFAULTS( |
SUBROUTINE SET_DEFAULTS( |
6 |
O viscArDefault, diffKrTDefault, diffKrSDefault, |
O viscArDefault, diffKrTDefault, diffKrSDefault, |
7 |
O hFacMinDrDefault, delRdefault, |
O hFacMinDrDefault, delRdefault, rkFacDefault, |
8 |
I myThid ) |
I myThid ) |
9 |
C /==========================================================\ |
C /==========================================================\ |
10 |
C | SUBROUTINE SET_DEFAULTS | |
C | SUBROUTINE SET_DEFAULTS | |
34 |
_RL diffKrSDefault |
_RL diffKrSDefault |
35 |
_RL hFacMinDrDefault |
_RL hFacMinDrDefault |
36 |
_RL delRDefault(Nr) |
_RL delRDefault(Nr) |
37 |
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_RS rkFacDefault |
38 |
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39 |
C === Local variables === |
C === Local variables === |
40 |
C K, I, J - Loop counters |
C K, I, J - Loop counters |
42 |
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43 |
C-- Grid parameters |
C-- Grid parameters |
44 |
C Vertical gridding |
C Vertical gridding |
45 |
rkFac = 1.D0 |
rkFacDefault = 1.D0 |
46 |
horiVertRatio = 1.D0 |
horiVertRatio = 1.D0 |
47 |
DO k=1,Nr |
DO k=1,Nr |
48 |
delRdefault(k) = 1.D2 |
delRdefault(k) = 0. |
49 |
ENDDO |
ENDDO |
50 |
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51 |
C Horizontal gridding |
C Horizontal gridding |
52 |
C In cartesian coords distances are in metres |
C In cartesian coords distances are in metres |
53 |
usingCartesianGrid = .TRUE. |
usingCartesianGrid = .TRUE. |
54 |
DO i=1,Nx |
DO i=1,Nx |
55 |
delX(i) = 20.D0 * 1000.D0 |
delX(i) = UNSET_RL |
56 |
ENDDO |
ENDDO |
57 |
DO j=1,Ny |
DO j=1,Ny |
58 |
delY(j) = 20.D0 * 1000.D0 |
delY(j) = UNSET_RL |
59 |
ENDDO |
ENDDO |
60 |
C In spherical polar distances are in degrees |
C In spherical polar distances are in degrees |
61 |
usingSphericalPolarGrid = .FALSE. |
usingSphericalPolarGrid = .FALSE. |
62 |
phiMin = -5.0 |
phiMin = 0.0 |
63 |
thetaMin = 0. |
thetaMin = 0. |
64 |
rSphere = 6370. * 1.D3 |
rSphere = 6370. * 1.D3 |
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IF ( usingSphericalPolarGrid ) THEN |
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DO i=1,Nx |
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delX(i) = 1.D0 |
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ENDDO |
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DO j=1,Ny |
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delY(j) = 1.D0 |
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ENDDO |
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ENDIF |
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C |
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65 |
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66 |
C-- Set default "physical" parameters |
C-- Set default "physical" parameters |
67 |
DO K =1,Nr |
DO K =1,Nr |
68 |
tRef(K) = 30.D0 - FLOAT( K ) |
tRef(K) = 30.D0 - FLOAT( K ) |
69 |
ENDDO |
ENDDO |
70 |
gravity = 9.81D0 |
gravity = 9.81D0 |
71 |
rhoNil = 999.8D0 |
rhoNil = 999.8D0 |
72 |
f0 = 1.D-4 |
f0 = 1.D-4 |
73 |
beta = 1.D-11 |
beta = 1.D-11 |
74 |
viscAh = 1.D3 |
viscAh = 0.D3 |
75 |
diffKhT = 1.D3 |
diffKhT = 0.D3 |
76 |
diffKhS = 1.D3 |
diffKhS = 0.D3 |
77 |
viscArDefault = 1.D-3 |
viscArDefault = 0.D-3 |
78 |
no_slip_sides = .TRUE. |
no_slip_sides = .TRUE. |
79 |
no_slip_bottom = .TRUE. |
no_slip_bottom = .TRUE. |
80 |
diffKrTDefault = 1.D-5 |
diffKrTDefault = 0.D-3 |
81 |
diffKrSDefault = 1.D-5 |
diffKrSDefault = 0.D-3 |
82 |
viscA4 = 0. |
viscA4 = 0.D11 |
83 |
diffK4T = 0. |
diffK4T = 0.D11 |
84 |
diffK4S = 0. |
diffK4S = 0.D11 |
85 |
GMmaxslope = 1.D-2 |
cosPower = 0. |
86 |
GMlength = 200.D3 |
GMmaxslope = 1.D-2 |
87 |
GMalpha = 0.D0 |
GMlength = 200.D3 |
88 |
GMdepth = 1000.D0 |
GMalpha = 0.D0 |
89 |
GMkbackground= 0.D0 |
GMdepth = 1000.D0 |
90 |
GMmaxval = 2500.D0 |
GMkbackground = 0.D0 |
91 |
HeatCapacity_Cp = 3994.D0 |
GMmaxval = 2500.D0 |
92 |
tAlpha = 2.D-4 |
HeatCapacity_Cp = 3994.D0 |
93 |
sBeta = 7.4D-4 |
tAlpha = 2.D-4 |
94 |
eosType = 'LINEAR' |
sBeta = 7.4D-4 |
95 |
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eosType = 'LINEAR' |
96 |
buoyancyRelation = 'OCEANIC' |
buoyancyRelation = 'OCEANIC' |
97 |
implicitFreeSurface = .TRUE. |
implicitFreeSurface = .TRUE. |
98 |
rigidLid = .FALSE. |
rigidLid = .FALSE. |
108 |
saltStepping = .TRUE. |
saltStepping = .TRUE. |
109 |
metricTerms = .FALSE. |
metricTerms = .FALSE. |
110 |
implicitDiffusion = .FALSE. |
implicitDiffusion = .FALSE. |
111 |
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implicitViscosity = .FALSE. |
112 |
openBoundaries = .FALSE. |
openBoundaries = .FALSE. |
113 |
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nonHydrostatic = .FALSE. |
114 |
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globalFiles = .FALSE. |
115 |
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allowFreezing = .FALSE. |
116 |
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ivdc_kappa = 0.D0 |
117 |
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118 |
C-- Elliptic solver parameters |
C-- Elliptic solver parameters |
119 |
cg2dMaxIters = 150 |
cg2dMaxIters = 150 |
120 |
cg2dTargetResidual = 1.D-7 |
cg2dTargetResidual = 1.D-7 |
121 |
cg2dChkResFreq = 1 |
cg2dChkResFreq = 1 |
122 |
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cg2dpcOffDFac = 0.51D0 |
123 |
cg3dMaxIters = 150 |
cg3dMaxIters = 150 |
124 |
cg3dTargetResidual = 1.D-7 |
cg3dTargetResidual = 1.D-7 |
125 |
cg3dChkResFreq = 1 |
cg3dChkResFreq = 1 |
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cg2dpcOffDFac = 0.51D0 |
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126 |
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|
127 |
C-- Time stepping parameters |
C-- Time stepping parameters |
128 |
deltaT = 0. |
deltaT = 0. |
129 |
nIter0 = 0 |
nIter0 = 0 |
130 |
startTime = deltaT*float(nIter0) |
startTime = deltaT*float(nIter0) |
131 |
nTimeSteps = 100 |
nTimeSteps = 0 |
132 |
endTime = deltaT*float(nTimeSteps) |
nEndIter = nIter0+nTimeSteps |
133 |
|
endTime = deltaT*float(nEndIter) |
134 |
abEps = 0.01 |
abEps = 0.01 |
135 |
pchkPtFreq = deltaT*0 |
pchkPtFreq = deltaT*0 |
136 |
chkPtFreq = deltaT*0 |
chkPtFreq = deltaT*0 |
137 |
dumpFreq = deltaT*50 |
dumpFreq = deltaT*0 |
138 |
taveFreq = deltaT*0 |
taveFreq = deltaT*0 |
139 |
writeStatePrec = precFloat64 |
writeStatePrec = precFloat64 |
140 |
writeBinaryPrec = precFloat32 |
writeBinaryPrec = precFloat32 |
142 |
nCheckLev = 1 |
nCheckLev = 1 |
143 |
checkPtSuff(1) = 'ckptA' |
checkPtSuff(1) = 'ckptA' |
144 |
checkPtSuff(2) = 'ckptB' |
checkPtSuff(2) = 'ckptB' |
145 |
cAdjFreq = -1.D0 |
cAdjFreq = 0.D0 |
146 |
tauCD = 0.D0 |
tauCD = 0.D0 |
147 |
tauThetaClimRelax = 0.D0 |
tauThetaClimRelax = 0.D0 |
148 |
tauSaltClimRelax = 0.D0 |
tauSaltClimRelax = 0.D0 |
158 |
meridWindFile = ' ' |
meridWindFile = ' ' |
159 |
thetaClimFile = ' ' |
thetaClimFile = ' ' |
160 |
saltClimFile = ' ' |
saltClimFile = ' ' |
161 |
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EmPmRfile = ' ' |
162 |
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surfQfile = ' ' |
163 |
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uVelInitFile = ' ' |
164 |
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vVelInitFile = ' ' |
165 |
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pSurfInitFile = ' ' |
166 |
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|
167 |
C-- OBCS |
C-- OBCS |
168 |
DO I=1,Nx |
DO I=1,Nx |