Earth Systems Modelling Results

Bristol Research Initiative for the Dynamic Global Environment

with the

University of Reading, Open University, and the British Antarctic Survey.

Model Simulations

Experiment: tcsyf

Specifically, two bug updates were added, specifcally rssafehs4.4 and gdr1f406. Also using optimised versions of advection and radiation. Lots of other small changes to job deck.

This job is stored in swsvalde and represents a BRIDGE standard HadCM3-MOSES1. Previously tcsyc was run on bigblue on July 2009 and used 32 processors (8NS /4EW). The latter should not matter but has rarely been tested. In order to get it to work, I had to include an additional update (%24MODS/general/ofilter_mpp.mod) which does change the science a little. The results should be near identical to tcmfa which itself was tested against xbped which was compared to benchmark results from the Hadley Centre themselves. This should also be the same as tcsyb.

You should also look at tcvci/tcvcj/tcvck which is the same model seteup but with different distribution of processors. tcvciis identical to tcsyc but uses 4NS, 8EW and also includes Faster MPP energy adjustment code (which made no noticeable impact on speed), tcvcj is as tcvci (uses 4NS, 8EW) but without the energy adjustment option, tcvck is as tcvci but also includes a couples of additional updates (timerupd_new.mod and nomsrest) which have no impact on science.

Brief Description	Fuller Description	Total Length of Run (in years)	Averaging period (in years)	Spinup period (in years)	CO2 (in ppmv)	CH4 (in ppbv)	N2O (in ppbv)	CFC11 (in pptv)	CFC12 (in pptv)	Computer used for simulation	Compiler used for simulation	Date of first entry in datebase	Date of most recent modification to entry in database
HadCM3M1_Benchmark	This job is stored in swsvalde and represents BRIDGE standard HadCM3-MOSES1. It was run on bigblue on June 2013 and used 16 processors (4NS /4EW). It had a number of small trivial bug fixes and speed-up issues compared to tcsyd that should not have an impact on science.	100	30	70	280	760	270	0	0	bigblue	Intel_v10.1	2013_06_22_15_39	2013_07_11_22_21
You can access the means from this run, by going here
You can access the ocean integrals from this run, by going here

This page shows a small subset of images from this simulation. They have already been produced and there are no optional choices. If you want to do a more detailed examination of the model results, you can go to the main page and select one of the Parts. This will give you full access the system

Summary of Results for Experiment tcsyf

Atlantic Meridional Overturning Strength		Depth of Max Atlantic Overturning		Latitude of Max Atlantic Overturning
Variable	DJF	JJA	ANN	Monthly	Variable
Surface Air Temperature					Surface Air Temperature Time Series
Total Precipitation					Surface Air Temperature Time Series (annual means)
Evaporation					Soil Moisture in Layer 4 (Deepest layer)
Precipitation - Evaporation					Soil Moisture in Layer 4 (Deepest layer) (annual means)
Fractional Plant Stress (layer 1)					BIOME4
Mean Sea Level Pressure					BIOME4 with CO2 changed
Total Cloud Cover
Plantary Albedo					Warm Month Mean
Surface Albedo					Cold Month Mean
Sea Ice Concentration
Stream Function at 200 hPa
Velocity Potential at 200 hPa
Divergence (Smoothed) at 200 hPa
Perturbation Height at 500 hPa
Meridional Stream Function
Ocean Potential Temperature at 5m					Ocean Potential Temperature at 2116m
Ocean Salinity at 5m					Ocean Salinity at 2116m
Ocean Currents at 5m					Ocean Currents at 2116m
Ocean Vertical Velocity at 10m
Ocean Mixed Layer Depth					Mass Streamfunction

Summary of Results for Experiment tcsyf-tcsyb

Ocean Mixed Layer Depth	Atlantic Meridional Overturning Strength		Depth of Max Atlantic Overturning		Latitude of Max Atlantic Overturning
Variable	DJF	JJA	ANN	Monthly	Variable
Surface Air Temperature					Surface Air Temperature Time Series
Total Precipitation					Surface Air Temperature Time Series (annual means)
Evaporation
Precipitation - Evaporation
Fractional Plant Stress (layer 1)					BIOME4
Mean Sea Level Pressure					BIOME4 with CO2 changed
Total Cloud Cover
Plantary Albedo					Warm Month Mean
Surface Albedo					Cold Month Mean
Sea Ice Concentration
Stream Function at 200 hPa
Velocity Potential at 200 hPa
Divergence (Smoothed) at 200 hPa
Perturbation Height at 500 hPa
Meridional Stream Function
Ocean Potential Temperature at 5m					Ocean Potential Temperature at 2116m
Ocean Salinity at 5m					Ocean Salinity at 2116m
Ocean Currents at 5m					Ocean Currents at 2116m
Ocean Vertical Velocity at 10m
Ocean Mixed Layer Depth					Mass Streamfunction

Summary of Results for Experiment tcsyf-tcsye

Ocean Mixed Layer Depth	Atlantic Meridional Overturning Strength		Depth of Max Atlantic Overturning		Latitude of Max Atlantic Overturning
Variable	DJF	JJA	ANN	Monthly	Variable
Surface Air Temperature					Surface Air Temperature Time Series
Total Precipitation					Surface Air Temperature Time Series (annual means)
Evaporation					Soil Moisture in Layer 4 (Deepest layer)
Precipitation - Evaporation					Soil Moisture in Layer 4 (Deepest layer) (annual means)
Fractional Plant Stress (layer 1)					BIOME4
Mean Sea Level Pressure					BIOME4 with CO2 changed
Total Cloud Cover
Plantary Albedo					Warm Month Mean
Surface Albedo					Cold Month Mean
Sea Ice Concentration
Stream Function at 200 hPa
Velocity Potential at 200 hPa
Divergence (Smoothed) at 200 hPa
Perturbation Height at 500 hPa
Meridional Stream Function
Ocean Potential Temperature at 5m					Ocean Potential Temperature at 2116m
Ocean Salinity at 5m					Ocean Salinity at 2116m
Ocean Currents at 5m					Ocean Currents at 2116m
Ocean Vertical Velocity at 10m
Ocean Mixed Layer Depth					Mass Streamfunction

Last updated Mon Sep 2 16:34:06 BST 2013 This page is maintained by P.J.Valdes@bristol.ac.uk