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+ | Tim Lenton (t.lenton@uea.ac.uk) | ||
+ | |||
==A simple experiment examining the effects of atmosphere parameters on climate and its sensitivity== | ==A simple experiment examining the effects of atmosphere parameters on climate and its sensitivity== | ||
Aim: To examine the spatial pattern of temperature for genie_eb_go_gs (default 36x36x8 grid), examine its sensitivity to varying parameters in the simple atmosphere model (EMBM), and evaluate the model climate sensitivity | Aim: To examine the spatial pattern of temperature for genie_eb_go_gs (default 36x36x8 grid), examine its sensitivity to varying parameters in the simple atmosphere model (EMBM), and evaluate the model climate sensitivity | ||
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* Go to /configs and copy genie_eb_go_gs.config to genie_eb_go_gs_expt1.config (or similar) | * Go to /configs and copy genie_eb_go_gs.config to genie_eb_go_gs_expt1.config (or similar) | ||
* In the new config file change the EXPID to genie_eb_go_gs_expt1 | * In the new config file change the EXPID to genie_eb_go_gs_expt1 | ||
− | * Set the run length to 2000 years by changing ma_koverall_total=1000000 (Note: this is the total number of atmospheric timesteps and by default the EMBM takes 5 timesteps per ocean timestep and the ocean takes 100 timesteps per year, therefore 500 timesteps per year for the EMBM and 500*2000=1000000) | + | * Set the run length to 2000 years by changing ma_koverall_total=1000000 |
+ | ** (Note: this is the total number of atmospheric timesteps and by default the EMBM takes 5 timesteps per ocean timestep and the ocean takes 100 timesteps per year, therefore 500 timesteps per year for the EMBM and 500*2000=1000000) | ||
* You need to control model data output. We recommend the following choices: | * You need to control model data output. We recommend the following choices: | ||
** changing the frequency of ‘health checks’, by setting ea_3, go_3, gs_3 = 10000 (every 100 years, in goldstein timesteps) | ** changing the frequency of ‘health checks’, by setting ea_3, go_3, gs_3 = 10000 (every 100 years, in goldstein timesteps) | ||
** changing the frequency of ‘full’ (or restart) model datatsets, by setting ea_4, go_4, gs_4 = 20000 (every 200 years, in goldstein timesteps – to give 10 datasets) | ** changing the frequency of ‘full’ (or restart) model datatsets, by setting ea_4, go_4, gs_4 = 20000 (every 200 years, in goldstein timesteps – to give 10 datasets) | ||
** changing the frequency of timeseries output, by setting ea_5, go_5, gs_5 = 100 (to give annual 1 January snapshots) | ** changing the frequency of timeseries output, by setting ea_5, go_5, gs_5 = 100 (to give annual 1 January snapshots) | ||
+ | ** if you want to change the frequency of netCDF averaged model output (initially every 10 years) to 100 years, then set ea_6, go_6, gs_6 = 10000 (in goldstein time steps) | ||
* First we are going to run at pre-industrial (278ppmv) CO2 level, which requires no change to ea_20 | * First we are going to run at pre-industrial (278ppmv) CO2 level, which requires no change to ea_20 | ||
− | * However, | + | * However, you can generate a unique instance of the model by varying key EMBM parameters ea_12 to ea_15. Some suggested reasonable ranges for these parameters are as follows: |
** ea_12 = 1.0e6 to 8.0e6 (default 5.0e6 already quite high) | ** ea_12 = 1.0e6 to 8.0e6 (default 5.0e6 already quite high) | ||
** ea_13 = 1.0e5 to 1.0e7 (default 1e6) | ** ea_13 = 1.0e5 to 1.0e7 (default 1e6) | ||
** ea_14 = 0.5 to 1.5 (default 1.0 radians) | ** ea_14 = 0.5 to 1.5 (default 1.0 radians) | ||
** ea_15 = 0.0 to 0.2 (default 0.1) | ** ea_15 = 0.0 to 0.2 (default 0.1) | ||
+ | |||
===Running the model=== | ===Running the model=== | ||
* Log into a node by using | * Log into a node by using | ||
** qrsh –q interactive.q | ** qrsh –q interactive.q | ||
* Start the model experiment from /genie-main by using | * Start the model experiment from /genie-main by using | ||
− | ** ./genie_example.job –f configs/ genie_eb_go_gs_expt1.config | + | ** ./genie_example.job –f configs/genie_eb_go_gs_expt1.config |
* You will now get output to the screen and the experiment will take around an hour | * You will now get output to the screen and the experiment will take around an hour | ||
* Meanwhile output datasets will be written to /genie-output/genie_eb_go_gs_expt1 | * Meanwhile output datasets will be written to /genie-output/genie_eb_go_gs_expt1 | ||
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===Further work=== | ===Further work=== | ||
* Repeat the above but create genie_eb_go_gs_expt2.config in which you change EXPID to genie_eb_go_gs_expt2, and set ea_20 = 2.0 (for 2x pre-industrial CO2) | * Repeat the above but create genie_eb_go_gs_expt2.config in which you change EXPID to genie_eb_go_gs_expt2, and set ea_20 = 2.0 (for 2x pre-industrial CO2) | ||
− | * You can view the ascii output files | + | * You can view the ascii output files |
− | * You can look at the netCDF results using Panoply | + | ** e.g. /genie-output/genie_eb_go_gs_expt2/embm/spn.airt – this file lists hemispheric mean air temperatures and global maximum and minimum air temperatures and their locations. |
+ | *** compare the values between expt1 and expt2 to see the effect of doubling CO2 | ||
+ | ** e.g. /genie-output/genie_eb_go_gs_expt2/goldstein/spn.opsit - this file lists maximum and minimum meridional overturning streamfunctions in the Pacific and Atlantic and their locations. | ||
+ | *** compare the values between expt1 and expt2 to see the effect of doubling CO2 | ||
+ | * You can look at the netCDF results using e.g. Panoply. |
Latest revision as of 08:49, 6 March 2008
Tim Lenton (t.lenton@uea.ac.uk)
A simple experiment examining the effects of atmosphere parameters on climate and its sensitivity
Aim: To examine the spatial pattern of temperature for genie_eb_go_gs (default 36x36x8 grid), examine its sensitivity to varying parameters in the simple atmosphere model (EMBM), and evaluate the model climate sensitivity
Setting up the model
- You will be working with genie_eb_go_gs configuration
- Navigate to genie-main and open runtime_defaults.sh in order to see all model parameters
- Go to the EMBM (ea_...) parameters and note values of ea_12 to ea_15 which are all the parameters controlling the diffusion of heat and moisture
- Go to /configs and copy genie_eb_go_gs.config to genie_eb_go_gs_expt1.config (or similar)
- In the new config file change the EXPID to genie_eb_go_gs_expt1
- Set the run length to 2000 years by changing ma_koverall_total=1000000
- (Note: this is the total number of atmospheric timesteps and by default the EMBM takes 5 timesteps per ocean timestep and the ocean takes 100 timesteps per year, therefore 500 timesteps per year for the EMBM and 500*2000=1000000)
- You need to control model data output. We recommend the following choices:
- changing the frequency of ‘health checks’, by setting ea_3, go_3, gs_3 = 10000 (every 100 years, in goldstein timesteps)
- changing the frequency of ‘full’ (or restart) model datatsets, by setting ea_4, go_4, gs_4 = 20000 (every 200 years, in goldstein timesteps – to give 10 datasets)
- changing the frequency of timeseries output, by setting ea_5, go_5, gs_5 = 100 (to give annual 1 January snapshots)
- if you want to change the frequency of netCDF averaged model output (initially every 10 years) to 100 years, then set ea_6, go_6, gs_6 = 10000 (in goldstein time steps)
- First we are going to run at pre-industrial (278ppmv) CO2 level, which requires no change to ea_20
- However, you can generate a unique instance of the model by varying key EMBM parameters ea_12 to ea_15. Some suggested reasonable ranges for these parameters are as follows:
- ea_12 = 1.0e6 to 8.0e6 (default 5.0e6 already quite high)
- ea_13 = 1.0e5 to 1.0e7 (default 1e6)
- ea_14 = 0.5 to 1.5 (default 1.0 radians)
- ea_15 = 0.0 to 0.2 (default 0.1)
Running the model
- Log into a node by using
- qrsh –q interactive.q
- Start the model experiment from /genie-main by using
- ./genie_example.job –f configs/genie_eb_go_gs_expt1.config
- You will now get output to the screen and the experiment will take around an hour
- Meanwhile output datasets will be written to /genie-output/genie_eb_go_gs_expt1
Further work
- Repeat the above but create genie_eb_go_gs_expt2.config in which you change EXPID to genie_eb_go_gs_expt2, and set ea_20 = 2.0 (for 2x pre-industrial CO2)
- You can view the ascii output files
- e.g. /genie-output/genie_eb_go_gs_expt2/embm/spn.airt – this file lists hemispheric mean air temperatures and global maximum and minimum air temperatures and their locations.
- compare the values between expt1 and expt2 to see the effect of doubling CO2
- e.g. /genie-output/genie_eb_go_gs_expt2/goldstein/spn.opsit - this file lists maximum and minimum meridional overturning streamfunctions in the Pacific and Atlantic and their locations.
- compare the values between expt1 and expt2 to see the effect of doubling CO2
- e.g. /genie-output/genie_eb_go_gs_expt2/embm/spn.airt – this file lists hemispheric mean air temperatures and global maximum and minimum air temperatures and their locations.
- You can look at the netCDF results using e.g. Panoply.