source: trunk/LMDZ.MARS/deftank/run.def.64x48x73.MCD6 @ 2908

Last change on this file since 2908 was 2807, checked in by emillour, 2 years ago

Mars GCM:
Add reference def files used to generate MCDv6.1 in deftank
(as a side note MCDv6.1 was generated using r2740 of the GCM)
EM

File size: 2.9 KB
Line 
1#
2#-----------------------------------------------------------------------
3#GCM run control parameters:                                         
4#---------------------------                                         
5
6# planet type
7   planet_type=mars
8
9# Number of days to run model for                                     
10     nday=9999
11
12# Number of dynamical steps per day (must be a multiple of iperiod)
13 day_step = 960
14
15# Apply a Matsuno step every iperiod dynamical step
16  iperiod=5
17
18# Control output information in the dynamics every iconser dynamical steps
19  iconser=120
20
21# Apply dissipation every idissip dynamical steps
22  idissip=1
23
24# dissipation operator to use (star or non-star)
25 lstardis=.true.
26
27# use hybrid vertical coordinate (else will use sigma levels)
28 hybrid=.true.
29
30# use hybrid vertical coordinate (else will use sigma levels)
31nitergdiv=1
32
33# iterate lateral dissipation operator nxgradrot nitergrot times         
34nitergrot=2
35
36# iterate lateral dissipation operator divgrad niterh times         
37   niterh=2
38
39# time scale (s) for shortest wavelengths for u,v (gradiv)
40 tetagdiv= 2500.
41
42# time scale (s) for shortest wavelengths for u,v (nxgradrot)
43 tetagrot=5000.
44
45# time scale (s) for shortest wavelengths for h (divgrad)
46 tetatemp=5000.
47
48# multiplicative constants for dissipation with altitude:
49# coefficient for middle atmosphere (~20-70km)
50 dissip_fac_mid = 3
51# coefficient for upper atmosphere (~100km+)
52 dissip_fac_up = 30
53
54# coefficient for gamdissip                                           
55  coefdis=0.
56
57# time marching scheme (Matsuno if purmats is true, else Matsuno-Leapfrog)
58  purmats=.false.
59
60# run with (true) or without (false) physics
61   physic=.true.
62
63# call physics every iphysiq dynamical steps
64  iphysiq=5
65
66# Use a regular grid
67  grireg=.true.
68
69# Output in diagfi file every ecritphy dynamical steps
70 ecritphy=120
71
72# longitude (degrees) of zoom center
73   clon=63.
74
75# latitude (degrees) of zoom center
76   clat=0.
77
78# enhancement factor of zoom, along longitudes
79  grossismx=1.
80
81# enhancement factor of zoom, along latitudes                     
82 grossismy=1.
83
84#  Use an hyperbolic function f(y) if .true., else use a sine     
85  fxyhypb=.false.
86
87# extention along longitudes of zoom region (fraction of global domain)
88   dzoomx= 0.
89
90# extention along latitudes of zoom region (fraction of global domain)
91   dzoomy=0.
92
93# zoom stiffness along longitudes
94    taux=2.
95
96# zoom stiffness along latitudes
97    tauy=2.
98
99#  Fonction  f(y) as y = Sin(latitude) if = .true. ,  else  y = latitude
100  ysinus= .false.
101
102# Use a sponge layer
103  callsponge  = .true.
104 
105# Sponge layer extends over topmost nsponge layers (default =3)
106  nsponge = 3
107
108# Sponge:  mode0(h=hmoy,u=v=0), mode1(h=hmoy,u=umoy,v=0), mode2(h=hmoy,u=umoy,v=vmoy)
109  mode_sponge= 2
110
111# Sponge layer time scale (s):  tetasponge
112  tetasponge = 30000
113
114# some definitions for the physics, in file 'callphys.def'
115INCLUDEDEF=callphys.def
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