Difference between revisions of "Benchmark/GEOS-Chem 12.3.0"

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__FORCETOC__
 
This page includes information about all benchmark simulations for [[GEOS-Chem 12#12.3.0|GEOS-Chem 12.3.0]].  
 
This page includes information about all benchmark simulations for [[GEOS-Chem 12#12.3.0|GEOS-Chem 12.3.0]].  
  
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=== Benchmark plots ===
 
=== Benchmark plots ===
 +
 +
This is the first GEOS-Chem benchmark to utilize [https://github.com/geoschem/gcpy GCPy]. Some benchmark plots created by GAMAP still remain because they have not been recreated in GCPy yet. To view the entirety of the old version of benchmark plots created by GAMAP, visit http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/.
  
 
{| border=1 cellspacing=0 cellpadding=5
 
{| border=1 cellspacing=0 cellpadding=5
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|-
 
|-
 
!colspan="1" bgcolor="#CCFFFF"|Category<sup>1</sup>
 
!colspan="1" bgcolor="#CCFFFF"|Category<sup>1</sup>
!colspan="3" bgcolor="#CCFFFF"|Plots
+
!colspan="5" bgcolor="#CCFFFF"|Plots
 
!colspan="1" bgcolor="#CCFFFF"|Additional Information
 
!colspan="1" bgcolor="#CCFFFF"|Additional Information
 +
 +
|-
 +
!colspan="1"|
 +
!colspan="2"|Level Map
 +
!colspan="2"|Zonal Mean
 +
!colspan="1"|Emissions
 +
!colspan="1"|
  
 
|-valign="top"
 
|-valign="top"
Line 16: Line 26:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_Strat_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary/Primary_Emissions.pdf sfc]
 
|
 
|
  
Line 23: Line 35:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_Strat_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Aerosols/Aerosols_Emissions.pdf sfc]
 
|
 
|
  
Line 30: Line 44:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_Strat_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Bromine/Bromine_Emissions.pdf sfc]
 
|
 
|
  
Line 37: Line 53:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Chlorine/Chlorine_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Chlorine/Chlorine_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Chlorine/Chlorine_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Chlorine/Chlorine_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Chlorine/Chlorine_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Chlorine/Chlorine_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Chlorine/Chlorine_Strat_ZonalMean.pdf stratosphere]
 +
| --
 
|
 
|
  
Line 44: Line 62:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_Strat_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Iodine/Iodine_Emissions.pdf sfc]
 
|
 
|
  
Line 51: Line 71:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_Strat_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Nitrogen/Nitrogen_Emissions.pdf sfc]
 
|
 
|
  
Line 58: Line 80:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_Organics/Primary_Organics_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_Organics/Primary_Organics_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_Organics/Primary_Organics_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_Organics/Primary_Organics_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_Organics/Primary_Organics_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_FullColumn_Organics/Primary_Organics_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_Strat_Organics/Primary_Organics_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Primary_Organics/Primary_Organics.pdf sfc]
 
|
 
|
  
Line 65: Line 89:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_Organics/Secondary_Organics_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_Organics/Secondary_Organics_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_Organics/Secondary_Organics_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_Organics/Secondary_Organics_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_Organics/Secondary_Organics_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_FullColumn_Organics/Secondary_Organics_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_Strat_Organics/Secondary_Organics_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Secondary_Organics/Secondary_Organics.pdf sfc]
 
|
 
|
  
Line 72: Line 98:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/ROy/ROy_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/ROy/ROy_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/ROy/ROy_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/ROy/ROy_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/ROy/ROy_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/ROy/ROy_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/ROy/ROy_Strat_ZonalMean.pdf stratosphere]
 +
| --
 
|
 
|
  
Line 79: Line 107:
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_Surface.pdf sfc]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_500hPa.pdf 500hPa]
 
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_500hPa.pdf 500hPa]
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_ZonalMean.pdf zonal mean]<sup>3</sup>
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_FullColumn_ZonalMean.pdf full column]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_Strat_ZonalMean.pdf stratosphere]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Sulfur/Sulfur_Emissions.pdf sfc]
 
|
 
|
  
 
|-valign="top"
 
|-valign="top"
|Emissions
+
|Emissions by HEMCO category
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/emission_maps/ maps]<br>[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/emission_differences/ differences]<br>[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/emission_ratios/ ratios]
+
!colspan="5"|  
| --
+
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Total_Emissions.pdf Total],
| --
+
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Aircraft_Emissions.pdf Aircraft],
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.emission_totals.txt Emissions totals]
+
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Anthro_Emissions.pdf Anthro],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Bioburn_Emissions.pdf Bioburn],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Biofuel_Emissions.pdf Biofuel],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Biogenic_Emissions.pdf Biogenic],<br>  
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Lightning_Emissions.pdf Lightning],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Monoterp_Emissions.pdf Monoterp],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Natural_Emissions.pdf Natural],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Ocean_Emissions.pdf Ocean],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Seabirds_Emissions.pdf Seabirds],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Senesc_Emissions.pdf SenescingPlants],<br>
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Ship_Emissions.pdf Ship],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/Soil_Emissions.pdf Soil],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/VolcDegas_Emissions.pdf VolcDegas],
 +
[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emissions/VolcErupt_Emissions.pdf VolcErupt],
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/Emission_totals.txt Emissions tables]
 +
 
 +
|-valign="top"
 +
!colspan="7" bgcolor="#CCCCCC"|Plots still created by GAMAP
  
 
|-valign="top"
 
|-valign="top"
 
|AOD
 
|AOD
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.aod_maps.pdf maps]<br>[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.aod_differences.dyn_range.pdf differences]
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.aod_maps.pdf maps]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.aod_differences.dyn_range.pdf differences]
 
| --
 
| --
 
| --
 
| --
|
+
| --
 +
|  
  
 
|-valign="top"
 
|-valign="top"
 
|J-values
 
|J-values
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.jvalue_maps.pdf maps]<br>[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.jvalue_differences.pdf differences]<br>[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.jvalue_ratios.pdf ratios]
+
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.jvalue_maps.pdf maps]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.jvalue_differences.pdf differences]
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.jvalue_ratios.pdf ratios]
 
| --
 
| --
 
| --
 
| --
|
+
|  
  
 
|-valign="top"
 
|-valign="top"
 
|Budget
 
|Budget
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.budget.txt Ox and CO budgets]
 
 
| --
 
| --
 
| --
 
| --
|
+
| --
 +
| --
 +
| --
 +
|[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.budget.txt Ox and CO budgets]
  
 
|}
 
|}
Line 114: Line 167:
 
<sup>1</sup>'''Benchmark category definitions:''' [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/benchmark_categories.json benchmark_categories.json]<br>
 
<sup>1</sup>'''Benchmark category definitions:''' [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/benchmark_categories.json benchmark_categories.json]<br>
 
<sup>2</sup>'''Lumped species definitions:''' [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/lumped_species.json lumped_species.json]<br>
 
<sup>2</sup>'''Lumped species definitions:''' [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/lumped_species.json lumped_species.json]<br>
<sup>3</sup>'''Zonal mean vertical axis:''' The zonal mean vertical axis is currently model level, but work is in progress to change it to pressure. To view the old plots created in GAMAP with pressure as the vertical axis, visit the following links: [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.zonal_concentrations.pdf zonal mean maps] and [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0.zonal_differences.dyn_range.pdf zonal mean differences]
 
  
 
'''NOTES:'''
 
'''NOTES:'''
#This is the first GEOS-Chem benchmark to utilize [https://github.com/geoschem/gcpy GCPy]. Some benchmark plots created by GAMAP still remain because they have not been recreated in GCPy yet. To view the entirety of the old version of benchmark plots created by GAMAP, visit http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/.
 
 
#[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/benchmark_categories.json Category] and [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/lumped_species.json lumped species] definitions are simple to adjust. Updating them requires only editing the json files.
 
#[http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/benchmark_categories.json Category] and [http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/lumped_species.json lumped species] definitions are simple to adjust. Updating them requires only editing the json files.
#All plots have PDF bookmarks. If you do not see them in your browser try using a different browser (not Safari) or installing an Adobe Acrobat plug-in.
+
#All plots created with GCPy have PDF bookmarks. If you do not see them in your browser try using a different browser (not Safari) or installing an Adobe Acrobat plug-in.
  
--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 16:41, 15 March 2019 (UTC)
+
--[[User:Lizzie Lundgren|Lizzie Lundgren]] ([[User talk:Lizzie Lundgren|talk]]) 16:43, 1 April 2019 (UTC)
  
 
=== Benchmark assessment form ===
 
=== Benchmark assessment form ===
Line 150: Line 201:
  
 
|-valign="top"
 
|-valign="top"
|[[Volcanic_SO2_emissions#OMI-based_volcanic_emissions|OMI-based Volcanic emissions 1979-2018]]
+
|[[Volcanic_SO2_emissions#Bug_fix_for_eruptive_volcanic_emissions|Bug fix for eruptive volcanic emissions]]
|Cui Ge (U. Iowa)<br>Jun Wang (U. Iowa)<br>[[GCST]]
+
|Barron Henderson (EPA)
  
 
|-valign="top"
 
|-valign="top"
Line 160: Line 211:
 
|Update from [[HEMCO_versions#HEMCO_development_history|HEMCO version]] 2.1.011 to 2.1.012
 
|Update from [[HEMCO_versions#HEMCO_development_history|HEMCO version]] 2.1.011 to 2.1.012
 
*[[HEMCO_versions#Bug_fixes_for_HEMCO_interpolation_algorithm|Bug fixes for the HEMCO interpolation algorithm]]
 
*[[HEMCO_versions#Bug_fixes_for_HEMCO_interpolation_algorithm|Bug fixes for the HEMCO interpolation algorithm]]
 +
*[[HEMCO_versions#Updates from the NASA GEOS development branch|Updates from the NASA GEOS development branch]]
 
*[[GEOS-Chem_12#Error_reading_restart_file_when_using_a_fixed_emissions_year_in_HEMCO|Add option to always use simulation year for specified fields]]
 
*[[GEOS-Chem_12#Error_reading_restart_file_when_using_a_fixed_emissions_year_in_HEMCO|Add option to always use simulation year for specified fields]]
 +
*[[HEMCO_versions#Prevent zero emissions for MEGAN_Mono extension species|Prevent zero emissions for MEGAN_Mono extension species]]
 +
*[[HEMCO_versions#Updates_to_the_volcanic_emissions_extension|Updates to the HEMCO volcanic emissions extension]]
 
|Christoph Keller (NASA/GMAO)<br>[[GCST]]
 
|Christoph Keller (NASA/GMAO)<br>[[GCST]]
  
Line 170: Line 224:
 
*'''Off while we investigate an issue in the HEMCO interpolation'''
 
*'''Off while we investigate an issue in the HEMCO interpolation'''
 
|Jenny Fisher (Wollongong) <br>Barron Henderson (US EPA)
 
|Jenny Fisher (Wollongong) <br>Barron Henderson (US EPA)
 +
 +
|-valign="top"
 +
|[[Volcanic_SO2_emissions#OMI-based_volcanic_emissions|OMI-based Volcanic emissions 2005-2012]] (off by default)
 +
|Cui Ge (U. Iowa)<br>Jun Wang (U. Iowa)<br>[[GCST]]
  
 
|-valign="top"
 
|-valign="top"
Line 178: Line 236:
 
|[[GFAS_biomass_burning_emissions#Fix_GFAS_SOAP_entry_in_HEMCO_Config.rc|Fix GFAS_SOAP entry in HEMCO_Config.rc]]
 
|[[GFAS_biomass_burning_emissions#Fix_GFAS_SOAP_entry_in_HEMCO_Config.rc|Fix GFAS_SOAP entry in HEMCO_Config.rc]]
 
|Killian Murphy (York)
 
|Killian Murphy (York)
 +
 +
|-valign="top"
 +
|[[GEOS-Chem_12#Tagged_CO_bug_fixes:_Fix_CO_units_and_write_secondary_production_into_a_netcdf_file|Tagged CO bug fixes: Fix CO units and write secondary production into a netcdf file]]
 +
|Beata Bukosa (Wollongong)
 +
 +
|-
 +
!colspan="2" bgcolor="#CCFFFF"|Features affecting GCHP only:
 +
 +
|-valign="top"
 +
|[[#GCHP_adjoint_development_requires_time_to_run_backwards_in_GCHP|Enable running time backwards in GCHP]] (off by default)
 +
|Atanas Trayanov (GMAO), Lizzie Lundgren ([[GCST]])
  
 
|}
 
|}
Line 187: Line 256:
 
|-valign="top"
 
|-valign="top"
 
|1-month benchmark finished on:
 
|1-month benchmark finished on:
|Thu Mar 14 06:08:16 EDT 2019
+
|Thu Mar 28 08:33:50 EDT 2019
  
 
|-valign="top"
 
|-valign="top"
Line 194: Line 263:
 
*Compiled with ifort 17.0.4
 
*Compiled with ifort 17.0.4
 
*Ran on 24 CPUs of holyjacob01.rc.fas.harvard.edu (Intel(R) Xeon(R) CPU E5-2680 v3 "Haswell" @ 2.50 GHz)
 
*Ran on 24 CPUs of holyjacob01.rc.fas.harvard.edu (Intel(R) Xeon(R) CPU E5-2680 v3 "Haswell" @ 2.50 GHz)
*Wall time: 10:08:05
+
*Wall time: 10:04:56
*[[Scalability|CPU time / wall time]]: 20.064
+
*[[Scalability|CPU time / wall time]]: 20.1441
*% of ideal performance: 83.60%
+
*% of ideal performance: 83.93%
*Memory: 13.5955 GB
+
*Memory: 13.5919 GB
  
 
|-valign="top"
 
|-valign="top"
Line 209: Line 278:
 
|-valign="top"
 
|-valign="top"
 
|[[GEOS-Chem Unit Tester|Unit test]] results may be viewed at:
 
|[[GEOS-Chem Unit Tester|Unit test]] results may be viewed at:
|<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0_Mar14.results.html</tt>
+
|<tt>http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0_Mar27.results.html</tt>
  
 
|-valign="top" bgcolor="#cccccc"
 
|-valign="top" bgcolor="#cccccc"
Line 217: Line 286:
 
|-valign="top"
 
|-valign="top"
 
|Global mean OH from log file (% change):
 
|Global mean OH from log file (% change):
|12.5415048745052 x 10<sup>5</sup> molec/cm<sup>3</sup> (0.13%)
+
|12.5308895343096 x 10<sup>5</sup> molec/cm<sup>3</sup> (0.04%)
  
 
|-valign="top"
 
|-valign="top"
 
|Methyl chloroform lifetime (% change):
 
|Methyl chloroform lifetime (% change):
|4.9406 years (-0.21%)
+
|4.9406 years (-0.05%)
  
 
|-valign="top"
 
|-valign="top"
 
|Methane lifetime (% change):
 
|Methane lifetime (% change):
|8.3253 years (-0.21%)
+
|8.3253 years (-0.05%)
  
 
|-valign="top"
 
|-valign="top"
 
|At the SURFACE, list all species that changed by 10% or more:
 
|At the SURFACE, list all species that changed by 10% or more:
|ISOP, HNO3, H2O2, RCHO, MVK, MACR, NPMN, PPN, R4N2, PRPE, N2O5, HNO4, SO2, SO4s, NH3, NH4, NIT, NITs, Br2, Br, BrO, HOBr, HBr, BrNO3, ISOPND, ISOPNB, MOBA, PROPNN, HAC, GLYC, MVKN, MACRN, NO3, MTPA, LIMO, MTPO, ISOG1, ISOG3, ISOA1, ISOA3, SOAP, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, HCOOH, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAME, SOAGX, SOAMG, LVOC, LVOCOA, ISN1OG, ISN1OA, MONITS, MONITU, HONIT, IONITA, MONITA, IPMN, HC187, BrCl, HCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, BrSALA, BrSALC, HOI, I2, HI, INO, IONO, I2O2, I2O3, I2O4, ISALA, ISALC, OH
+
|ISOP, H2O2, RCHO, MVK, MACR, NPMN, PPN, R4N2, PRPE, N2O5, SO2, SO4s, NH3, NH4, NIT, NITs, Br, BrO, HOBr, HBr, ISOPND, ISOPNB, MOBA, PROPNN, HAC, GLYC, MVKN, MACRN, NO3, MTPA, LIMO, MTPO, ISOG1, ISOG3, ISOA1, ISOA3, SOAP, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, HCOOH, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, SOAME, SOAGX, SOAMG, LVOC, LVOCOA, ISN1OG, ISN1OA, MONITS, MONITU, HONIT, IONITA, MONITA, IPMN, HC187, BrCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, HI, I2O3, I2O4, ISALA, ISALC, OH
  
 
|-valign="top"
 
|-valign="top"
Line 241: Line 310:
 
*This update caused changes in the primary and secondary organic species. Percent differences are largest over the oceans, where concentrations are low.
 
*This update caused changes in the primary and secondary organic species. Percent differences are largest over the oceans, where concentrations are low.
  
'''[[Volcanic_SO2_emissions#OMI-based_volcanic_emissions|OMI-based Volcanic emissions 1979-2018]]'''
+
'''[[Volcanic_SO2_emissions#Bug_fix_for_eruptive_volcanic_emissions|Bug fix for eruptive volcanic emissions]]'''
*This update caused large decreases in SO2 over and downwind of volcanic regions. This also impacted SO4, SO4s, NH3, NH4, NIT, NITs, HNO3, several bromine species near those regions. Cui Ge wrote:
+
*This bug fix caused decreases in SO2 and SO4 over Southeast Asia. Barron Henderson wrote:
::I saw the non-eruptive volcano emission in July of 2016 seems 0 everywhere. If the NASA online data shows this, I think it is OK to be consistent with that.<br><br>
+
:The problem is with the eruptions being treated as cycling. The VOLCANO emissions use hemco's cycling option for both degassing and for eruptions. The last year in our dataset is 2009, which had a particularly active June. For example, 2009 June SO2 eruption mass is 4 times the average of the 2000-2009 June. The cycling option takes 2009 and applies it to *all* future years.
::Thanks for confirming this data includes both explosive and effusive eruptions. By my understanding, because volcano emission has big uncertainty (from literature also from our volcano paper), NASA team did some adjustment (the amount of volcano emission, the duration of each volcano, etc) after we published our paper. I think this updated volcano data would be the best volcano data we have for now, also we may want to keep our data to be consistent with this online source data. The AEROCOM volcano data (used in GEOS-Chem) has much bigger uncertainties. To summarize this, I think the code, the process and the data what you are using is all right. As long as we have consistent volcano data with this online source, it would be great.
+
  
 
The following updates impacted species concentrations slightly, but the changes did not amount to >10%.
 
The following updates impacted species concentrations slightly, but the changes did not amount to >10%.
Line 252: Line 320:
 
|-valign="top"
 
|-valign="top"
 
|At 500 hPa, list all species that changed by 10% or more:
 
|At 500 hPa, list all species that changed by 10% or more:
|ISOP, H2O2, MVK, MACR, NPMN, R4N2, N2O5, HNO4, SO2, SO4, SO4s, NH3, NH4, NIT, NITs, Br2, Br, BrO, HOBr, HBr, BrNO2, BrNO3, ISOPND, ISOPNB, MOBA, PROPNN, GLYC, MVKN, MACRN, NO3, MTPA, LIMO, MTPO, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, HCOOH, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, LVOC, ISN1OG, MONITS, MONITU, HONIT, IPMN, HC187, BrCl, HCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, BrSALA, BrSALC, CH2I2, HOI, I2, ICl, I, IO, HI, OIO, INO, IONO, IONO2, I2O2, I2O3, I2O4, ISALA, ISALC
+
|ISOP, H2O2, MVK, MACR, NPMN, R4N2, N2O5, SO2, NH3, NIT, NITs, Br2, Br, BrO, HOBr, HBr, BrNO2, BrNO3, ISOPND, ISOPNB, MOBA, PROPNN, GLYC, MVKN, MACRN, NO3, MTPA, LIMO, MTPO, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, LVOC, ISN1OG, MONITS, MONITU, HONIT, IPMN, HC187, BrCl, HCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, BrSALA, BrSALC, CH2I2, HOI, ICl, I, HI, OIO, IONO, I2O2, I2O3, I2O4, ISALA
  
 
|-valign="top"
 
|-valign="top"
Line 261: Line 329:
 
|-valign="top"
 
|-valign="top"
 
|In the ZONAL MEAN differences, list all species that changed by 10% or more:
 
|In the ZONAL MEAN differences, list all species that changed by 10% or more:
|NO, PAN, ISOP, HNO3, H2O2, MEK, RCHO, MVK, MACR, NPMN, PPN, R4N2, PRPE, N2O5, HNO4, MP, SO2, SO4, SO4s, NH3, NH4, NIT, NITs, Br2, Br, BrO, HOBr, HBr, BrNO2, BrNO3, MPN, ISOPND, ISOPNB, MOBA, PROPNN, HAC, GLYC, MVKN, MACRN, NO2, NO3, HNO2, MTPA, LIMO, MTPO, TSOG3, TSOA2, TSOA3, ISOG1, ISOG3, ISOA1, ISOA3, SOAP, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, HCOOH, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, SOAME, SOAGX, SOAMG, LVOC, LVOCOA, ISN1OG, ISN1OA, MONITS, MONITU, HONIT, IONITA, MONITA, IPMN, HC187, BrCl, HCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, BrSALA, BrSALC, CH2I2, CH2IBr, HOI, I2, IBr, ICl, I, IO, HI, OIO, INO, IONO, IONO2, I2O2, I2O3, I2O4, ISALA, ISALC, OH, HO2
+
|NO, ISOP, HNO3, H2O2, MEK, RCHO, MVK, MACR, NPMN, PPN, R4N2, PRPE, N2O5, HNO4, SO2, SO4, SO4s, NH3, NH4, NIT, NITs, Br2, Br, BrO, HOBr, HBr, BrNO2, BrNO3, ISOPND, ISOPNB, MOBA, PROPNN, HAC, GLYC, MVKN, MACRN, NO2, NO3, HNO2, MTPA, LIMO, MTPO, TSOG3, TSOA2, TSOA3, ISOG1, ISOG3, ISOA1, ISOA3, SOAP, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, HCOOH, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, SOAME, SOAGX, SOAMG, LVOC, LVOCOA, ISN1OG, ISN1OA, MONITS, MONITU, HONIT, IONITA, MONITA, IPMN, HC187, BrCl, HCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, BrSALA, BrSALC, CH2I2, CH2IBr, HOI, I2, IBr, ICl, I, IO, HI, OIO, INO, IONO, IONO2, I2O2, I2O3, I2O4, ISALA, ISALC, OH, HO2
  
 
|-valign="top"
 
|-valign="top"
Line 281: Line 349:
 
|-valign="top"
 
|-valign="top"
 
|Additional or summary comments:
 
|Additional or summary comments:
|
+
|The original 1-month benchmark for this version included [[Volcanic_SO2_emissions#OMI-based_volcanic_emissions|OMI-based Volcanic emissions for 1979-2018]], however this option has since been turned off and we reverted to the AEROCOM-based volcanic emissions instead.
 +
*This update caused large decreases in SO2 over and downwind of volcanic regions. This also impacted SO4, SO4s, NH3, NH4, NIT, NITs, HNO3, several bromine species near those regions. Cui Ge wrote:
 +
::I saw the non-eruptive volcano emission in July of 2016 seems 0 everywhere. If the NASA online data shows this, I think it is OK to be consistent with that.<br><br>
 +
::Thanks for confirming this data includes both explosive and effusive eruptions. By my understanding, because volcano emission has big uncertainty (from literature also from our volcano paper), NASA team did some adjustment (the amount of volcano emission, the duration of each volcano, etc) after we published our paper. I think this updated volcano data would be the best volcano data we have for now, also we may want to keep our data to be consistent with this online source data. The AEROCOM volcano data (used in GEOS-Chem) has much bigger uncertainties. To summarize this, I think the code, the process and the data what you are using is all right. As long as we have consistent volcano data with this online source, it would be great.
 +
*[[User:Bmy|Bob Yantosca]] has confirmed that volcanic emissions in the 12.3.0 benchmark for July 2016 for is much smaller the emissions from the volcano dataset in the 12.2.0 benchmark.  For more information, [[Volcanic_SO2_emissions#Differences_w.2Fr.2Ft_prior_benchmark_simulations|please follow this link]].
  
 
|-bgcolor="#cccccc"
 
|-bgcolor="#cccccc"
Line 289: Line 361:
 
|-valign="top"
 
|-valign="top"
 
|Requires further investigation:
 
|Requires further investigation:
|
+
|No
  
 
|-valign="top"
 
|-valign="top"
 
|Approved by:
 
|Approved by:
|
+
|Daniel Jacob
  
 
|-valign="top"
 
|-valign="top"
 
|Date of approval:
 
|Date of approval:
|
+
|31 Mar 2019
 
|}
 
|}
  
 
--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 15:59, 14 March 2019 (UTC)
 
--[[User:Melissa Payer|Melissa Sulprizio]] ([[User talk:Melissa Payer|talk]]) 15:59, 14 March 2019 (UTC)

Latest revision as of 18:27, 4 June 2019

This page includes information about all benchmark simulations for GEOS-Chem 12.3.0.

1-month benchmark

Benchmark plots

This is the first GEOS-Chem benchmark to utilize GCPy. Some benchmark plots created by GAMAP still remain because they have not been recreated in GCPy yet. To view the entirety of the old version of benchmark plots created by GAMAP, visit http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/.

Category1 Plots Additional Information
Level Map Zonal Mean Emissions
Primary sfc 500hPa full column stratosphere sfc
Aerosols sfc 500hPa full column stratosphere sfc
Bromine sfc 500hPa full column stratosphere sfc
Chlorine sfc 500hPa full column stratosphere --
Iodine sfc 500hPa full column stratosphere sfc
Nitrogen sfc 500hPa full column stratosphere sfc
Primary Organics sfc 500hPa full column stratosphere sfc
Secondary Organics sfc 500hPa full column stratosphere sfc
ROy sfc 500hPa full column stratosphere --
Sulfur sfc 500hPa full column stratosphere sfc
Emissions by HEMCO category

Total, Aircraft, Anthro, Bioburn, Biofuel, Biogenic,
Lightning, Monoterp, Natural, Ocean, Seabirds, SenescingPlants,
Ship, Soil, VolcDegas, VolcErupt,

Emissions tables
Plots still created by GAMAP
AOD maps differences -- -- --
J-values maps differences ratios -- --
Budget -- -- -- -- -- Ox and CO budgets

1Benchmark category definitions: benchmark_categories.json
2Lumped species definitions: lumped_species.json

NOTES:

  1. Category and lumped species definitions are simple to adjust. Updating them requires only editing the json files.
  2. All plots created with GCPy have PDF bookmarks. If you do not see them in your browser try using a different browser (not Safari) or installing an Adobe Acrobat plug-in.

--Lizzie Lundgren (talk) 16:43, 1 April 2019 (UTC)

Benchmark assessment form

Description
New features added into GEOS-Chem
Feature Submitted by
Features affecting the full-chemistry simulation:
Update ISORROPIA from v2.0 to v2.2, in order to remove persistent noise in output Seb Eastham (Harvard)
Updated PFT file for MEGAN Jenny Fisher (Wollongong)
Dylan Millet (UMN)
Bug fix for eruptive volcanic emissions Barron Henderson (EPA)
Read in and regrid existing MODIS LAI and OLSON data via HEMCO Bob Yantosca (GCST)
Update from HEMCO version 2.1.011 to 2.1.012 Christoph Keller (NASA/GMAO)
GCST
Features NOT affecting the full-chemistry simulation:
Update to Yuan processed MODIS LAI product (covering years 2005-2016)
  • Off while we investigate an issue in the HEMCO interpolation
Jenny Fisher (Wollongong)
Barron Henderson (US EPA)
OMI-based Volcanic emissions 2005-2012 (off by default) Cui Ge (U. Iowa)
Jun Wang (U. Iowa)
GCST
Further bug fix for netCDF diagnostics spanning leap years Bob Yantosca (GCST)
Fix GFAS_SOAP entry in HEMCO_Config.rc Killian Murphy (York)
Tagged CO bug fixes: Fix CO units and write secondary production into a netcdf file Beata Bukosa (Wollongong)
Features affecting GCHP only:
Enable running time backwards in GCHP (off by default) Atanas Trayanov (GMAO), Lizzie Lundgren (GCST)
Version, resolution, met fields used: GEOS-FP (72L), 4x5, July 2016
1-month benchmark finished on: Thu Mar 28 08:33:50 EDT 2019
Performance statistics:
  • Compiled with ifort 17.0.4
  • Ran on 24 CPUs of holyjacob01.rc.fas.harvard.edu (Intel(R) Xeon(R) CPU E5-2680 v3 "Haswell" @ 2.50 GHz)
  • Wall time: 10:04:56
  • CPU time / wall time: 20.1441
  • % of ideal performance: 83.93%
  • Memory: 13.5919 GB
Compared to previous benchmark: 12.2.0
This update will impact:
(select all that apply with boldface)
Advection, BL Mixing, Convection, Met Fields, Dry Dep, Wet Dep, Stratosphere, Anthro Emiss, Biogenic Emiss, Biomass Emiss, Photolysis, Chemistry, Other (please specify): Volcano emissions
Unit test results may be viewed at: http://ftp.as.harvard.edu/gcgrid/geos-chem/1mo_benchmarks/GC_12/12.3.0/output/GC_12.3.0_Mar27.results.html
Metrics
Global mean OH from log file (% change): 12.5308895343096 x 105 molec/cm3 (0.04%)
Methyl chloroform lifetime (% change): 4.9406 years (-0.05%)
Methane lifetime (% change): 8.3253 years (-0.05%)
At the SURFACE, list all species that changed by 10% or more: ISOP, H2O2, RCHO, MVK, MACR, NPMN, PPN, R4N2, PRPE, N2O5, SO2, SO4s, NH3, NH4, NIT, NITs, Br, BrO, HOBr, HBr, ISOPND, ISOPNB, MOBA, PROPNN, HAC, GLYC, MVKN, MACRN, NO3, MTPA, LIMO, MTPO, ISOG1, ISOG3, ISOA1, ISOA3, SOAP, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, HCOOH, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, SOAME, SOAGX, SOAMG, LVOC, LVOCOA, ISN1OG, ISN1OA, MONITS, MONITU, HONIT, IONITA, MONITA, IPMN, HC187, BrCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, HI, I2O3, I2O4, ISALA, ISALC, OH
Comments on SURFACE differences: Below we summarize the notable changes caused by specific updates.

Update ISORROPIA from v2.0 to v2.2

  • This update caused changes in NH3 and NIT at all levels. These differences are small number differences where concentrations are low.

Updated PFT file for MEGAN

  • This update caused changes in the primary and secondary organic species. Percent differences are largest over the oceans, where concentrations are low.

Bug fix for eruptive volcanic emissions

  • This bug fix caused decreases in SO2 and SO4 over Southeast Asia. Barron Henderson wrote:
The problem is with the eruptions being treated as cycling. The VOLCANO emissions use hemco's cycling option for both degassing and for eruptions. The last year in our dataset is 2009, which had a particularly active June. For example, 2009 June SO2 eruption mass is 4 times the average of the 2000-2009 June. The cycling option takes 2009 and applies it to *all* future years.

The following updates impacted species concentrations slightly, but the changes did not amount to >10%.

At 500 hPa, list all species that changed by 10% or more: ISOP, H2O2, MVK, MACR, NPMN, R4N2, N2O5, SO2, NH3, NIT, NITs, Br2, Br, BrO, HOBr, HBr, BrNO2, BrNO3, ISOPND, ISOPNB, MOBA, PROPNN, GLYC, MVKN, MACRN, NO3, MTPA, LIMO, MTPO, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, LVOC, ISN1OG, MONITS, MONITU, HONIT, IPMN, HC187, BrCl, HCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, BrSALA, BrSALC, CH2I2, HOI, ICl, I, HI, OIO, IONO, I2O2, I2O3, I2O4, ISALA
Comments on 500 hPa differences:
  • See comments for surface differences
In the ZONAL MEAN differences, list all species that changed by 10% or more: NO, ISOP, HNO3, H2O2, MEK, RCHO, MVK, MACR, NPMN, PPN, R4N2, PRPE, N2O5, HNO4, SO2, SO4, SO4s, NH3, NH4, NIT, NITs, Br2, Br, BrO, HOBr, HBr, BrNO2, BrNO3, ISOPND, ISOPNB, MOBA, PROPNN, HAC, GLYC, MVKN, MACRN, NO2, NO3, HNO2, MTPA, LIMO, MTPO, TSOG3, TSOA2, TSOA3, ISOG1, ISOG3, ISOA1, ISOA3, SOAP, EOH, MGLY, GLYX, HPALD, DHDN, ETHLN, HCOOH, IEPOXA, IEPOXB, IEPOXD, ISN1, RIPA, RIPB, RIPD, IMAE, SOAIE, SOAME, SOAGX, SOAMG, LVOC, LVOCOA, ISN1OG, ISN1OA, MONITS, MONITU, HONIT, IONITA, MONITA, IPMN, HC187, BrCl, HCl, Cl, ClO, HOCl, ClNO3, ClNO2, ClOO, OClO, Cl2, Cl2O2, BrSALA, BrSALC, CH2I2, CH2IBr, HOI, I2, IBr, ICl, I, IO, HI, OIO, INO, IONO, IONO2, I2O2, I2O3, I2O4, ISALA, ISALC, OH, HO2
Comments on ZONAL MEAN differences:
  • See comments for surface differences
In the EMISSION RATIO maps, list all species that changed by 10% or more:
  • Biogenic emissions: ACET, ALD2, APIN, BCAR, BPIN, CARE, CO, EOH, FARN, ISOP, LIMO, MBOX, MONX, MYRC, OMON, OSQT, PRPE, SABI
  • SO2 volcano emissions
Comments on EMISSION RATIO differences:
Additional or summary comments: The original 1-month benchmark for this version included OMI-based Volcanic emissions for 1979-2018, however this option has since been turned off and we reverted to the AEROCOM-based volcanic emissions instead.
  • This update caused large decreases in SO2 over and downwind of volcanic regions. This also impacted SO4, SO4s, NH3, NH4, NIT, NITs, HNO3, several bromine species near those regions. Cui Ge wrote:
I saw the non-eruptive volcano emission in July of 2016 seems 0 everywhere. If the NASA online data shows this, I think it is OK to be consistent with that.

Thanks for confirming this data includes both explosive and effusive eruptions. By my understanding, because volcano emission has big uncertainty (from literature also from our volcano paper), NASA team did some adjustment (the amount of volcano emission, the duration of each volcano, etc) after we published our paper. I think this updated volcano data would be the best volcano data we have for now, also we may want to keep our data to be consistent with this online source data. The AEROCOM volcano data (used in GEOS-Chem) has much bigger uncertainties. To summarize this, I think the code, the process and the data what you are using is all right. As long as we have consistent volcano data with this online source, it would be great.
  • Bob Yantosca has confirmed that volcanic emissions in the 12.3.0 benchmark for July 2016 for is much smaller the emissions from the volcano dataset in the 12.2.0 benchmark. For more information, please follow this link.
Approval
Requires further investigation: No
Approved by: Daniel Jacob
Date of approval: 31 Mar 2019

--Melissa Sulprizio (talk) 15:59, 14 March 2019 (UTC)