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activity : f0790695-nca3-cmip3-downscaled-r201304-process
The multi-model mean difference in the annual maximum number of consecutive dry days under the higher emissions scenario (A2) for 2041-2070 relative to 1971-2000 was plotted for the U.S. Great Plains.
1. For each model at each grid point, the annual maximum number of consecutive dry days, under the higher emissions scenario (A2), was calculated for two periods: 1971-2000 and 2070-2099. 3. At each grid point, the annual number of consecutive dry days was computed for both time periods by averaging the following models: - cgcm3_t47 - cgcm3_t63 - cnrm - echam5 - echo - gfdl_2.1 - hadcm3 - pcm 4. At each grid point, the difference in the annual number of consecutive dry days was calculated for 2041-2070 minus 1971-2000. 5. Data were plotted for all grid points in the U.S. Great Plains.
The duration of this activity was 56 hours.Output artifacts generated by this activity :
clusterify.py config.py local_utils.py mean_ffs.py mpi_clusterify.py mpi_model_mean.py MultiModelMeanDifference.py MultiModelMean.py plot_model_diag.py resolve_grids.py test_suite.py MMM_CMIP3Downscaled_monolithic_consecDD_a2_2041_2070.sum consecDD_new_diff.pro MMMDiff_CMIP3Downscaled_monolithic_consecDD_a2_2041_2070.nc MMMDiff_CMIP3Downscaled_monolithic_consecDD_a2_2041_2070.ctl consecDD_plot.gs MMMDiff_CMIP3Downscaled_consecDD_a2_2041-2070.ps ConsecDryDaysDiff_A2_2041_2070_GP.png 19-5c.png GP_dry days projected_V3.png
Computing environment : Linux (Red Hat Enterprise Linux Server release 6.4) Mac OS X (darwin x86_64 m64)
Software used : SciPy (v0.10.1), IDL (v8.0), GrADS (v2.0.2)
Visualization software used : GrADS
Notes : SciPy, IDL, GrADS
This activity resulted in the following :
Alternatives : JSON YAML Turtle N-Triples JSON Triples RDF+XML RDF+JSON Graphviz SVG