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21 |
C !DEFINED PARAMETERS: |
C !DEFINED PARAMETERS: |
22 |
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23 |
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C ENUM_UPWIND_1RST :: 1rst Order Upwind |
24 |
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INTEGER ENUM_UPWIND_1RST |
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PARAMETER(ENUM_UPWIND_1RST=1) |
26 |
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27 |
C ENUM_CENTERED_2ND :: Centered 2nd order |
C ENUM_CENTERED_2ND :: Centered 2nd order |
28 |
INTEGER ENUM_CENTERED_2ND |
INTEGER ENUM_CENTERED_2ND |
29 |
PARAMETER(ENUM_CENTERED_2ND=2) |
PARAMETER(ENUM_CENTERED_2ND=2) |
30 |
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31 |
C ENUM_UPWIND_3RD :: 3rd order upwind |
C ENUM_UPWIND_3RD :: 3rd order upwind |
32 |
INTEGER ENUM_UPWIND_3RD |
INTEGER ENUM_UPWIND_3RD |
33 |
PARAMETER(ENUM_UPWIND_3RD=3) |
PARAMETER(ENUM_UPWIND_3RD=3) |
34 |
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36 |
INTEGER ENUM_CENTERED_4TH |
INTEGER ENUM_CENTERED_4TH |
37 |
PARAMETER(ENUM_CENTERED_4TH=4) |
PARAMETER(ENUM_CENTERED_4TH=4) |
38 |
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39 |
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C ENUM_DST2 :: 2nd Order Direct Space and Time (= Lax-Wendroff) |
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INTEGER ENUM_DST2 |
41 |
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PARAMETER(ENUM_DST2=20) |
42 |
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43 |
C ENUM_FLUX_LIMIT :: Non-linear flux limiter |
C ENUM_FLUX_LIMIT :: Non-linear flux limiter |
44 |
INTEGER ENUM_FLUX_LIMIT |
INTEGER ENUM_FLUX_LIMIT |
45 |
PARAMETER(ENUM_FLUX_LIMIT=77) |
PARAMETER(ENUM_FLUX_LIMIT=77) |
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47 |
C ENUM_DST3 :: 3-DST |
C ENUM_DST3 :: 3rd Order Direst Space and Time |
48 |
INTEGER ENUM_DST3 |
INTEGER ENUM_DST3 |
49 |
PARAMETER(ENUM_DST3=30) |
PARAMETER(ENUM_DST3=30) |
50 |
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52 |
INTEGER ENUM_DST3_FLUX_LIMIT |
INTEGER ENUM_DST3_FLUX_LIMIT |
53 |
PARAMETER(ENUM_DST3_FLUX_LIMIT=33) |
PARAMETER(ENUM_DST3_FLUX_LIMIT=33) |
54 |
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55 |
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C ENUM_SOM_PRATHER :: 2nd Order-Moment Advection Scheme, Prather, 1986 |
56 |
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INTEGER ENUM_SOM_PRATHER |
57 |
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PARAMETER(ENUM_SOM_PRATHER=80) |
58 |
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59 |
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C ENUM_SOM_LIMITER :: 2nd Order-Moment Advection Scheme, Prather Limiter |
60 |
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INTEGER ENUM_SOM_LIMITER |
61 |
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PARAMETER(ENUM_SOM_LIMITER=81) |
62 |
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63 |
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C nSOM :: number of 1rst & 2nd Order-Moments: 1+1 (1D), 2+3 (2D), 3+6 (3D) |
64 |
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INTEGER nSOM |
65 |
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PARAMETER( nSOM = 3+6 ) |
66 |
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67 |
C oneSixth :: Third/fourth order interpolation factor |
C oneSixth :: Third/fourth order interpolation factor |
68 |
_RL oneSixth |
_RL oneSixth |
69 |
PARAMETER(oneSixth=1.D0/6.D0) |
PARAMETER(oneSixth=1.D0/6.D0) |
70 |
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71 |
C Differentiate between tracers (only needed for KPP - arrgh!!!) |
C Differentiate between tracers (needed for KPP - arrgh!!!) |
72 |
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cph and GMRedi arrgh*arrgh!!!) |
73 |
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cph indices are used for TAF key computations, so need to |
74 |
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cph running from 1, 2, ... |
75 |
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c |
76 |
C GAD_TEMPERATURE :: temperature |
C GAD_TEMPERATURE :: temperature |
77 |
INTEGER GAD_TEMPERATURE |
INTEGER GAD_TEMPERATURE |
78 |
PARAMETER(GAD_TEMPERATURE=101) |
PARAMETER(GAD_TEMPERATURE=1) |
79 |
C GAD_SALINITY :: salinity |
C GAD_SALINITY :: salinity |
80 |
INTEGER GAD_SALINITY |
INTEGER GAD_SALINITY |
81 |
PARAMETER(GAD_SALINITY=102) |
PARAMETER(GAD_SALINITY=2) |
82 |
C GAD_TR1 :: pssive tracer 1 |
C GAD_TR1 :: passive tracer 1 |
83 |
INTEGER GAD_TR1 |
INTEGER GAD_TR1 |
84 |
PARAMETER(GAD_TR1=103) |
PARAMETER(GAD_TR1=3) |
85 |
CEOP |
CEOP |
86 |
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|
87 |
C-- COMMON /GAD_PARM_L/ Logical parameters for GAD pkg routines |
C-- COMMON /GAD_PARM_L/ Logical parameters for GAD pkg routines |
88 |
C tempMultiDimAdvec :: set to T if using multi-dimension advection for Temp |
C tempSOM_Advection :: set to T if using 2nd-Order Moment advection for Temp |
89 |
C saltMultiDimAdvec :: set to T if using multi-dimension advection for Salt |
C saltSOM_Advection :: set to T if using 2nd-Order Moment advection for Salt |
90 |
C tempAdamsBashforth :: set to T if using Adams-Bashforth stepping for Temp |
C tempMultiDimAdvec :: set to T if using multi-dim advection for Temp |
91 |
C saltAdamsBashforth :: set to T if using Adams-Bashforth stepping for Salt |
C saltMultiDimAdvec :: set to T if using multi-dim advection for Salt |
92 |
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C AdamsBashforthGt :: apply Adams-Bashforth extrapolation on T tendency (=Gt) |
93 |
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C AdamsBashforthGs :: apply Adams-Bashforth extrapolation on S tendency (=Gs) |
94 |
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C AdamsBashforth_T :: apply Adams-Bashforth extrapolation on Pot.Temp. |
95 |
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C AdamsBashforth_S :: apply Adams-Bashforth extrapolation on Salinity |
96 |
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C tempStartAB :: start this run (or restart) without previous gT/Temp |
97 |
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C saltStartAB :: start this run (or restart) without previous gS/Salt |
98 |
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LOGICAL tempSOM_Advection |
99 |
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LOGICAL saltSOM_Advection |
100 |
LOGICAL tempMultiDimAdvec |
LOGICAL tempMultiDimAdvec |
101 |
LOGICAL saltMultiDimAdvec |
LOGICAL saltMultiDimAdvec |
102 |
LOGICAL tr1_MultiDimAdvec |
LOGICAL AdamsBashforthGt |
103 |
LOGICAL tempAdamsBashforth |
LOGICAL AdamsBashforthGs |
104 |
LOGICAL saltAdamsBashforth |
LOGICAL AdamsBashforth_T |
105 |
LOGICAL tr1_AdamsBashforth |
LOGICAL AdamsBashforth_S |
106 |
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LOGICAL tempStartAB |
107 |
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LOGICAL saltStartAB |
108 |
COMMON /GAD_PARM_L/ |
COMMON /GAD_PARM_L/ |
109 |
& tempMultiDimAdvec , saltMultiDimAdvec , tr1_MultiDimAdvec, |
& tempSOM_Advection, saltSOM_Advection, |
110 |
& tempAdamsBashforth, saltAdamsBashforth, tr1_AdamsBashforth |
& tempMultiDimAdvec, saltMultiDimAdvec, |
111 |
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& AdamsBashforthGt, AdamsBashforthGs, |
112 |
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& AdamsBashforth_T, AdamsBashforth_S, |
113 |
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& tempStartAB, saltStartAB |
114 |
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115 |
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CEH3 ;;; Local Variables: *** |
116 |
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CEH3 ;;; mode:fortran *** |
117 |
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CEH3 ;;; End: *** |