| Coordinator(s) | Updated |
|---|---|
| Paul Valdes / BRIDGE | 03/14/2005 |
Note: the list of required variables is not stable yet. You will find in the tables below the variables that are likely to be found in the database, and the variables that were suggested as useful but did not make it to the final list.
| Name(s) | Units | Description | Axes | Frequency | DB | |||
|---|---|---|---|---|---|---|---|---|
| DA | MO | SE | AN | |||||
These variables require a lot of storage space and will not be stored in the MOTIF database, at least not at the beginning of the project. Each group should tell if they will be able to provide this data for about YY years of experience, and keep them in their lab until the data is needed.
The variables required at sub-daily timesteps are needed by an
offline dust model to validate MPI-BGC LGM experiments.
The required atmosphere variables are: orog, ts, pr, prc,
cl, clt, snc, uvas (this name, for surface wind speed, may change),
ua, va, ps, evs, tas, ta, hus and FPAR.
The required vegetation variable is: mrso.
For the sub-daily values, indicated frequencies are the
acceptable frequencies, the ideal frequencies being
twice the accepted ones (e.g. when 6-hourly is acceptable and will
work, 3-hourly would be ideal).
The fields should be saved for at least 10 model years, for OA and OAV
simulations it might be better to have 20 years. To avoid getting data
for some decadal-type anomaly, we could randomly sample the model
years during the analytical period.
The following table lists the variables that either are not
required at all at DAily frequency in the MOTIF
database, or are not required at a high enough frequency (sub-DAily)
for the dust model.
Note that the dust model also requires one variable from the vegetation variables: mrso.
Please get in touch with Sandy Harrison if
you want more details about this!
| Name(s) | Units | Description | Axes | Frequency | DB | |||
|---|---|---|---|---|---|---|---|---|
| DA | MO | SE | AN | |||||
The following table lists the variables that are required at
sub-DAily frequency (at least two times daily : noon and midnight) by
the NCAR RegCM regional climate model. The orography is also required,
but it can be found in the regular variables of the MOTIF database.
Note that the RegCM model also requires a variables from the ocean variables: tos.
Please get in touch with Noah Diffenbaugh if
you want more details about this!
| Name(s) | Units | Description | Axes | Frequency | DB | |||
|---|---|---|---|---|---|---|---|---|
| DA | MO | SE | AN | |||||
| Name(s) | Units | Description | Axes | Frequency | DB | |||
|---|---|---|---|---|---|---|---|---|
| DA | MO | SE | AN | |||||
| Variables moved to the Ocean Variables' list | ||||||||
| Variables moved to the Land-surface and vegetation Variables' list | ||||||||
At the Hadley Centre, we are not in a position to provide Potential Evapotranspiration for the time being. It is necessary to know whether this is an absolutely necessary variable for Sandy's model.
To be discussed:
XYZT fields in sub-daily mode will take a lot of place. I propose
to provide them for the last year, only. A climatological year
wouldn't be helpful because this would smooth out the extreme
events.
Also, I would urge people to review the need for daily outputs (this
may be useful for some studies, e.g. storm tracks). Can we decide to
provide the daily outputs of all suggested fields for the last 5
years, only?
Rough estimate:
X * Y * Z = in HadAM3 about 131 K
one data = 2 bytes ==> 1 3-D field for one timestep = 262 Kb
6 3-D fields for one time step = 1.5 Mb
1 year at 3-hourly frequency = 360 * 8 = 2880 timestep.
2880 timesteps * 10 Mb = 4.3 Gb.... for one model
20 model years = almost 84 Gb my model
Do we have that much space?
20 years at daily frequency = 10.5 Gb
20 years at monthly frequency = 360 Mb
20 years sat seasonal frequency = 72 Mb
20 years at annual frequency = 30 Mb