beaufort/input/CPL_README.txt

Initialization (myTime .EQ. startTime in MITgcm)

===> Ocean Sends/ Ice Receives (fields that are sent only once)
deltatimestep                1           Real*8  TimeIntervalTag
grid dimensions (Nx,Ny)      2           Integer OceanGridsizeTag
(grid locations - later?)
ice area                     Nx*Ny       Real*8  AreaTag
ice thickness                Nx*Ny       Real*8  HeffTag
ice salinity                 Nx*Ny       Real*8  HsaltTag
snow thickness               Nx*Ny       Real*8  HsnowTag

===> Ocean Sends/ Ice Receives
ocean model time             1           Real*8  OceanTimeTag
boundary ice area            2*(Nx+Ny)-4 Real*8  AreaBcTag
boundary ice thickness       2*(Nx+Ny)-4 Real*8  HeffBcTag
boundary ice salinity        2*(Nx+Ny)-4 Real*8  HsaltBcTag
boundary snow thickness      2*(Nx+Ny)-4 Real*8  HsnowBcTag
boundary u ice               2*(Nx+Ny)-6 Real*8  UiceBcTag
boundary v ice               2*(Nx+Ny)-6 Real*8  ViceBcTag
u-wind velocity              Nx*Ny       Real*8  UwindTag
v-wind velocity              Nx*Ny       Real*8  VwindTag
downward longwave radiation  Nx*Ny       Real*8  LwDownTag
downward shortwave radiation Nx*Ny       Real*8  SwDownTag
air temperature              Nx*Ny       Real*8  AtempTag
humidity                     Nx*Ny       Real*8  AqhTag
precipitation                Nx*Ny       Real*8  PrecipTag
ocean surface temperature    Nx*Ny       Real*8  SstTag
surface u current            Nx*Ny       Real*8  UvelTag
surface v current            Nx*Ny       Real*8  VvelTag

===> Ice Sends/Ocean Receives
ice model time               1           Real*8  IceTimeTag
ice area                     Nx*Ny       Real*8  AreaTag (initial ice area)
ice thickness                Nx*Ny       Real*8  HeffTag (initial ice thickness)
ice salinity                 Nx*Ny       Real*8  HsaltTag (initial ice salinity)
snow thickness               Nx*Ny       Real*8  HsnowTag (initial snow thickness)
u surface stress             Nx*Ny       Real*8  UstressTag (surface v current)
v surface stress             Nx*Ny       Real*8  VstressTag (array of 2)
residual shortwave           Nx*Ny       Real*8  SwResidTag (array of 1)
heat flux                    Nx*Ny       Real*8  HeatFluxTag (array of 1)
freshwater flux              Nx*Ny       Real*8  WaterFluxTag (array of 1)
salt flux                    Nx*Ny       Real*8  SaltFluxTag (array of 1)

=====================================

Each deltatimestep:

===> Ocean Sends/Ice Receives
ocean model time             1           Real*8  OceanTimeTag
boundary ice area            2*(Nx+Ny)-4 Real*8  AreaBcTag
boundary ice thickness       2*(Nx+Ny)-4 Real*8  HeffBcTag
boundary ice salinity        2*(Nx+Ny)-4 Real*8  HsaltBcTag
boundary snow thickness      2*(Nx+Ny)-4 Real*8  HsnowBcTag
boundary u ice               2*(Nx+Ny)-6 Real*8  UiceBcTag
boundary v ice               2*(Nx+Ny)-6 Real*8  ViceBcTag
u-wind velocity              Nx*Ny       Real*8  UwindTag
v-wind velocity              Nx*Ny       Real*8  VwindTag
downward longwave radiation  Nx*Ny       Real*8  LwDownTag
downward shortwave radiation Nx*Ny       Real*8  SwDownTag
air temperature              Nx*Ny       Real*8  AtempTag
humidity                     Nx*Ny       Real*8  AqhTag
precipitation                Nx*Ny       Real*8  PrecipTag
ocean surface temperature    Nx*Ny       Real*8  SstTag
surface u current            Nx*Ny       Real*8  UvelTag
surface v current            Nx*Ny       Real*8  VvelTag

===> Ice Sends/Ocean Receives
ice model time               1           Real*8  IceTimeTag
ice area                     Nx*Ny       Real*8  AreaTag
ice thickness                Nx*Ny       Real*8  HeffTag
ice salinity                 Nx*Ny       Real*8  HsaltTag
snow thickness               Nx*Ny       Real*8  HsnowTag
u surface stress             Nx*Ny       Real*8  UstressTag
v surface stress             Nx*Ny       Real*8  VstressTag
residual shortwave           Nx*Ny       Real*8  SwResidTag
heat flux                    Nx*Ny       Real*8  HeatFluxTag
freshwater flux              Nx*Ny       Real*8  WaterFluxTag
salt flux                    Nx*Ny       Real*8  SaltFluxTag

=====================================

DETAILS:


1. start and initialize ocean + ice codes

===========================================================

2. ocean sends 

deltatimestep

ocean model time "myTime" (s)

Then on tracer grid:

grid information + landmask  TBD

initial ice area (fractional: 0-1) at the tracer points
C     AREA  - fractional ice-covered area in m^2/m^2
C             at center of grid, i.e., tracer point
C             0 is no cover, 1 is 100% cover

initial ice thickness (mean thickness in the grid box in m)
  actual thickness for single-class ice would be thickness/area
 at the tracer points
C     HEFF  - effective ice thickness in m
C             at center of grid, i.e., tracer point
C             note: for non-zero AREA, actual ice
C                thickness is HEFF / AREA

initial snow thickness (mean thickness, m) at the tracer points
C     HSNOW - effective snow thickness in m
C             at center of grid, i.e., tracer point
C             note: for non-zero AREA, actual snow
C                thickness is HSNOW / AREA

initial ice salinity at the tracer points
C     HSALT - effective sea ice salinity in g/m^2
C             at center of grid, i.e., tracer point

open boundary u-ice velocity
specified at the inside edge of the outer grid cells
southwest C-grid locations for normal component and at the
southwest C-grid locations for tangential
C     UICE  - zonal ice velocity in m/s at South-West B-grid
C             (or C-grid #ifdef SEAICE_CGRID) U point
C             >0 from West to East

open boundary v-ice velocity
specified at the inside edge of the outer grid cells
southwest C-grid locations for normal component and at the
southwest C-grid locations for tangential
C     VICE  - meridional ice velocity in m/s at South-West B-grid
C             (or C-grid #ifdef SEAICE_CGRID) V point
C             >0 from South to North
C             note: the South-West B-grid U and V points are on
C                the lower, left-hand corner of each grid cell

10-m u-wind at the tracer points
c     uwind     :: Surface (10-m) zonal wind velocity in m/s
c                  > 0 for increase in uVel, which is west to
c                      east for cartesian and spherical polar grids
c                  Typical range: -10 < uwind < 10
c                  Input or input/output field

10-m v-wind at the tracer points
c     vwind     :: Surface (10-m) meridional wind velocity in m/s
c                  > 0 for increase in vVel, which is south to
c                      north for cartesian and spherical polar grids
c                  Typical range: -10 < vwind < 10
c                  Input or input/output field

downward longwave at the tracer points
c     lwdown    :: Downward longwave radiation in W/m^2
c                  > 0 for increase in theta (ocean warming)
c                  Typical range: 50 < lwdown < 450
c                  Input/output field

downward shortwave at the tracer points
c     swdown    :: Downward shortwave radiation in W/m^2
c                  > 0 for increase in theta (ocean warming)
c                  Typical range: 0 < swdown < 450
c                  Input/output field

2-m air temperature at the tracer points
c     atemp     :: Surface (2-m) air temperature in deg K
c                  Typical range: 200 < atemp < 300
c                  Input or input/output field

2-m humidity at the tracer points
c     aqh       :: Surface (2m) specific humidity in kg/kg
c                  Typical range: 0 < aqh < 0.02
c                  Input or input/output field

precipitation at the tracer points
c     precip    :: Precipitation in m/s
c                  > 0 for decrease in salt (ocean salinity)
c                  Typical range: 0 < precip < 5e-7
c                  Input or input/output field

sea surface temperature at the tracer points
C     theta - potential temperature (oC, held at pressure/tracer point)

sea surface u-vel
C     uVel  - zonal velocity (m/s, i=1 held at western face)
at southwest c-grid locations

sea surface v-vel
C     vVel  - meridional velocity (m/s, j=1 held at southern face)
at southwest c-grid locations

===========================================================

3. ice receives 2., computes initial ice conditions and sends on tracer grid

ice model time (s)
ice area at tracer point
ice thickness at tracer point
ice salinity at tracer point
snow thickness at tracer point
u-stress under ice at southwest b-grid locations
v-stress under ice at southwest b-grid locations
residual shortwave under ice at tracer point
heat flux (less shortwave) at tracer point
freshwater flux at tracer point
salt flux at tracer point

===========================================================

4a. ice model steps forward  by deltatimestep
initially hardwired to 20 minutes

4b. ocean model receives 3. and steps forward by deltatimestep
initially hardwired to 20 minutes

===========================================================

5a. ocean sends on tracer grid
timestep
open boundary ice area at tracer point
open boundary ice thickness at tracer point
open boundary snow thickness at tracer point
open boundary ice salinity at tracer point
open boundary u-ice velocity (see 2.)
open boundary v-ice velocity (see 2.)
10-m u-wind (see 2.)
10-m v-wind (see 2.)
downward longwave (see 2.)
downward shortwave (see 2.)
2-m air temperature (see 2.)
2-m humidity (see 2.)
precipitation (see 2.)
sea surface temperature (see 2.)
sea surface u-vel (see 2.)
sea surface v-vel (see 2.)

===========================================================

5b. ice sends on tracer grid

ice model time (s)
ice area at tracer point
ice thickness at tracer point
ice salinity at tracer point
snow thickness at tracer point
u-stress under ice at southwest b-grid locations
v-stress under ice at southwest b-grid locations
residual shortwave under ice at tracer point
heat flux (less shortwave) at tracer point
freshwater flux at tracer point
salt flux at tracer point

===========================================================

6a. ocean model receives 5b. and steps forward by deltatimestep
initially hardwired to 20 minutes

6b. ice model receives 5a. steps forward by deltatimestep
initially hardwired to 20 minutes

===========================================================

LOOP to 5a. and 5b.
1	Initialization (myTime .EQ. startTime in MITgcm)
2
3	===> Ocean Sends/ Ice Receives (fields that are sent only once)
4	deltatimestep 1 Real*8 TimeIntervalTag
5	grid dimensions (Nx,Ny) 2 Integer OceanGridsizeTag
6	(grid locations - later?)
7	ice area NxNy Real8 AreaTag
8	ice thickness NxNy Real8 HeffTag
9	ice salinity NxNy Real8 HsaltTag
10	snow thickness NxNy Real8 HsnowTag
11
12	===> Ocean Sends/ Ice Receives
13	ocean model time 1 Real*8 OceanTimeTag
14	boundary ice area 2(Nx+Ny)-4 Real8 AreaBcTag
15	boundary ice thickness 2(Nx+Ny)-4 Real8 HeffBcTag
16	boundary ice salinity 2(Nx+Ny)-4 Real8 HsaltBcTag
17	boundary snow thickness 2(Nx+Ny)-4 Real8 HsnowBcTag
18	boundary u ice 2(Nx+Ny)-6 Real8 UiceBcTag
19	boundary v ice 2(Nx+Ny)-6 Real8 ViceBcTag
20	u-wind velocity NxNy Real8 UwindTag
21	v-wind velocity NxNy Real8 VwindTag
22	downward longwave radiation NxNy Real8 LwDownTag
23	downward shortwave radiation NxNy Real8 SwDownTag
24	air temperature NxNy Real8 AtempTag
25	humidity NxNy Real8 AqhTag
26	precipitation NxNy Real8 PrecipTag
27	ocean surface temperature NxNy Real8 SstTag
28	surface u current NxNy Real8 UvelTag
29	surface v current NxNy Real8 VvelTag
30
31	===> Ice Sends/Ocean Receives
32	ice model time 1 Real*8 IceTimeTag
33	ice area NxNy Real8 AreaTag (initial ice area)
34	ice thickness NxNy Real8 HeffTag (initial ice thickness)
35	ice salinity NxNy Real8 HsaltTag (initial ice salinity)
36	snow thickness NxNy Real8 HsnowTag (initial snow thickness)
37	u surface stress NxNy Real8 UstressTag (surface v current)
38	v surface stress NxNy Real8 VstressTag (array of 2)
39	residual shortwave NxNy Real8 SwResidTag (array of 1)
40	heat flux NxNy Real8 HeatFluxTag (array of 1)
41	freshwater flux NxNy Real8 WaterFluxTag (array of 1)
42	salt flux NxNy Real8 SaltFluxTag (array of 1)
43
44	=====================================
45
46	Each deltatimestep:
47
48	===> Ocean Sends/Ice Receives
49	ocean model time 1 Real*8 OceanTimeTag
50	boundary ice area 2(Nx+Ny)-4 Real8 AreaBcTag
51	boundary ice thickness 2(Nx+Ny)-4 Real8 HeffBcTag
52	boundary ice salinity 2(Nx+Ny)-4 Real8 HsaltBcTag
53	boundary snow thickness 2(Nx+Ny)-4 Real8 HsnowBcTag
54	boundary u ice 2(Nx+Ny)-6 Real8 UiceBcTag
55	boundary v ice 2(Nx+Ny)-6 Real8 ViceBcTag
56	u-wind velocity NxNy Real8 UwindTag
57	v-wind velocity NxNy Real8 VwindTag
58	downward longwave radiation NxNy Real8 LwDownTag
59	downward shortwave radiation NxNy Real8 SwDownTag
60	air temperature NxNy Real8 AtempTag
61	humidity NxNy Real8 AqhTag
62	precipitation NxNy Real8 PrecipTag
63	ocean surface temperature NxNy Real8 SstTag
64	surface u current NxNy Real8 UvelTag
65	surface v current NxNy Real8 VvelTag
66
67	===> Ice Sends/Ocean Receives
68	ice model time 1 Real*8 IceTimeTag
69	ice area NxNy Real8 AreaTag
70	ice thickness NxNy Real8 HeffTag
71	ice salinity NxNy Real8 HsaltTag
72	snow thickness NxNy Real8 HsnowTag
73	u surface stress NxNy Real8 UstressTag
74	v surface stress NxNy Real8 VstressTag
75	residual shortwave NxNy Real8 SwResidTag
76	heat flux NxNy Real8 HeatFluxTag
77	freshwater flux NxNy Real8 WaterFluxTag
78	salt flux NxNy Real8 SaltFluxTag
79
80	=====================================
81
82	DETAILS:
83
84
85
86	1. start and initialize ocean + ice codes
87
88	===========================================================
89
90	2. ocean sends
91
92	deltatimestep
93
94	ocean model time "myTime" (s)
95
96	Then on tracer grid:
97
98	grid information + landmask TBD
99
100	initial ice area (fractional: 0-1) at the tracer points
101	C AREA - fractional ice-covered area in m^2/m^2
102	C at center of grid, i.e., tracer point
103	C 0 is no cover, 1 is 100% cover
104
105	initial ice thickness (mean thickness in the grid box in m)
106	actual thickness for single-class ice would be thickness/area
107	at the tracer points
108	C HEFF - effective ice thickness in m
109	C at center of grid, i.e., tracer point
110	C note: for non-zero AREA, actual ice
111	C thickness is HEFF / AREA
112
113	initial snow thickness (mean thickness, m) at the tracer points
114	C HSNOW - effective snow thickness in m
115	C at center of grid, i.e., tracer point
116	C note: for non-zero AREA, actual snow
117	C thickness is HSNOW / AREA
118
119	initial ice salinity at the tracer points
120	C HSALT - effective sea ice salinity in g/m^2
121	C at center of grid, i.e., tracer point
122
123	open boundary u-ice velocity
124	specified at the inside edge of the outer grid cells
125	southwest C-grid locations for normal component and at the
126	southwest C-grid locations for tangential
127	C UICE - zonal ice velocity in m/s at South-West B-grid
128	C (or C-grid #ifdef SEAICE_CGRID) U point
129	C >0 from West to East
130
131	open boundary v-ice velocity
132	specified at the inside edge of the outer grid cells
133	southwest C-grid locations for normal component and at the
134	southwest C-grid locations for tangential
135	C VICE - meridional ice velocity in m/s at South-West B-grid
136	C (or C-grid #ifdef SEAICE_CGRID) V point
137	C >0 from South to North
138	C note: the South-West B-grid U and V points are on
139	C the lower, left-hand corner of each grid cell
140
141	10-m u-wind at the tracer points
142	c uwind :: Surface (10-m) zonal wind velocity in m/s
143	c > 0 for increase in uVel, which is west to
144	c east for cartesian and spherical polar grids
145	c Typical range: -10 < uwind < 10
146	c Input or input/output field
147
148	10-m v-wind at the tracer points
149	c vwind :: Surface (10-m) meridional wind velocity in m/s
150	c > 0 for increase in vVel, which is south to
151	c north for cartesian and spherical polar grids
152	c Typical range: -10 < vwind < 10
153	c Input or input/output field
154
155	downward longwave at the tracer points
156	c lwdown :: Downward longwave radiation in W/m^2
157	c > 0 for increase in theta (ocean warming)
158	c Typical range: 50 < lwdown < 450
159	c Input/output field
160
161	downward shortwave at the tracer points
162	c swdown :: Downward shortwave radiation in W/m^2
163	c > 0 for increase in theta (ocean warming)
164	c Typical range: 0 < swdown < 450
165	c Input/output field
166
167	2-m air temperature at the tracer points
168	c atemp :: Surface (2-m) air temperature in deg K
169	c Typical range: 200 < atemp < 300
170	c Input or input/output field
171
172	2-m humidity at the tracer points
173	c aqh :: Surface (2m) specific humidity in kg/kg
174	c Typical range: 0 < aqh < 0.02
175	c Input or input/output field
176
177	precipitation at the tracer points
178	c precip :: Precipitation in m/s
179	c > 0 for decrease in salt (ocean salinity)
180	c Typical range: 0 < precip < 5e-7
181	c Input or input/output field
182
183	sea surface temperature at the tracer points
184	C theta - potential temperature (oC, held at pressure/tracer point)
185
186	sea surface u-vel
187	C uVel - zonal velocity (m/s, i=1 held at western face)
188	at southwest c-grid locations
189
190	sea surface v-vel
191	C vVel - meridional velocity (m/s, j=1 held at southern face)
192	at southwest c-grid locations
193
194	===========================================================
195
196	3. ice receives 2., computes initial ice conditions and sends on tracer grid
197
198	ice model time (s)
199	ice area at tracer point
200	ice thickness at tracer point
201	ice salinity at tracer point
202	snow thickness at tracer point
203	u-stress under ice at southwest b-grid locations
204	v-stress under ice at southwest b-grid locations
205	residual shortwave under ice at tracer point
206	heat flux (less shortwave) at tracer point
207	freshwater flux at tracer point
208	salt flux at tracer point
209
210	===========================================================
211
212	4a. ice model steps forward by deltatimestep
213	initially hardwired to 20 minutes
214
215	4b. ocean model receives 3. and steps forward by deltatimestep
216	initially hardwired to 20 minutes
217
218	===========================================================
219
220	5a. ocean sends on tracer grid
221	timestep
222	open boundary ice area at tracer point
223	open boundary ice thickness at tracer point
224	open boundary snow thickness at tracer point
225	open boundary ice salinity at tracer point
226	open boundary u-ice velocity (see 2.)
227	open boundary v-ice velocity (see 2.)
228	10-m u-wind (see 2.)
229	10-m v-wind (see 2.)
230	downward longwave (see 2.)
231	downward shortwave (see 2.)
232	2-m air temperature (see 2.)
233	2-m humidity (see 2.)
234	precipitation (see 2.)
235	sea surface temperature (see 2.)
236	sea surface u-vel (see 2.)
237	sea surface v-vel (see 2.)
238
239	===========================================================
240
241	5b. ice sends on tracer grid
242
243	ice model time (s)
244	ice area at tracer point
245	ice thickness at tracer point
246	ice salinity at tracer point
247	snow thickness at tracer point
248	u-stress under ice at southwest b-grid locations
249	v-stress under ice at southwest b-grid locations
250	residual shortwave under ice at tracer point
251	heat flux (less shortwave) at tracer point
252	freshwater flux at tracer point
253	salt flux at tracer point
254
255	===========================================================
256
257	6a. ocean model receives 5b. and steps forward by deltatimestep
258	initially hardwired to 20 minutes
259
260	6b. ice model receives 5a. steps forward by deltatimestep
261	initially hardwired to 20 minutes
262
263	===========================================================
264
265	LOOP to 5a. and 5b.