menemenlis@jpl.nasa.gov 02-May-2003. This verification experiment is identical global_with_exf except that it includes CFC-11 diagnostic as per OCMIP-2 protocol (http://www.ipsl.jussieu.fr/OCMIP/). CFC-11 output in mol/m^3 is output in files TR1.*.data Example of how to read this output file using matlab is in input/lookat.m ============================================================== Configuring 8 4x4-deg 4-cpu x 15-level experiment on chapman: Experiment 0: Baseline integration Experiment 1: viscAr 1e-3 -> .5e3 Experiment 2: viscAh 5e5 -> 4e5 Experiment 3: diffKrT 3e-5 -> 2e-5 Experiment 4: diffKrS 3e-5 -> 2e-5 Experiment 5: tauThetaClimRelax 5184000 -> 4665600 Experiment 6: tauSaltClimRelax 15552000 -> 7776000 Experiment 7: GM_background_K 1000 -> 900 --- cd bin cp ../verification/global_ocean.90x40x15/code/GMREDI_OPTIONS.h . cp ../verification/global_with_CFC11/code4x4/*.h . cp ../verification/global_with_CFC11/code4x4/*.F . ../tools/genmake -mpi -platform=ames_opt -makefile make depend make --- cd ../exe \cp ../verification/global_ocean.90x40x15/input/* . \cp ../verification/global_with_CFC11/input/cfc1112.atm . \cp ../verification/global_with_CFC11/input4x4/FICE4x4 FICE \cp ../verification/global_with_CFC11/input4x4/PATM4x4 PATM \cp ../verification/global_with_CFC11/input4x4/XKW4x4 XKW cd .. cp -r exe exe0 cp -r exe exe1 cp -r exe exe2 cp -r exe exe3 cp -r exe exe4 cp -r exe exe5 cp -r exe exe6 cp -r exe exe7 \cp verification/global_with_CFC11/input4x4/data.0 exe0/data \cp verification/global_with_CFC11/input4x4/data.1 exe1/data \cp verification/global_with_CFC11/input4x4/data.2 exe2/data \cp verification/global_with_CFC11/input4x4/data.3 exe3/data \cp verification/global_with_CFC11/input4x4/data.4 exe4/data \cp verification/global_with_CFC11/input4x4/data.5 exe5/data \cp verification/global_with_CFC11/input4x4/data.6 exe6/data \cp verification/global_with_CFC11/input4x4/data.0 exe7/data \cp verification/global_with_CFC11/input4x4/data.gmredi exe7 qsub verification/global_with_CFC11/input4x4/jobfile ============================================================== Configuring and running the 50-year JPL telescoping integration: 1) get code: setenv CVSROOT :pserver:cvsanon@mitgcm.org:/u/u0/gcmpack cvs login ( CVS password: cvsanon ) cvs co -r release1_50yr MITgcm 2) compile code: cd MITgcm/bin cp ../verification/global_with_CFC11/code50yr/*.h . cp ../verification/global_with_CFC11/code50yr/*.F . cp ../verification/global_with_CFC11/code50yr/.genmakerc . ../tools/genmake -mpi -platform=o2k -makefile make depend make 3) run code for first spin-up year (1931) cd ../exe get forcing files: Bathymetry.data NCEP_1948_sw NCEP_1948_vstr lev_clim_temp.bin NCEP_1948_emp NCEP_1948_trb run-off.bin_1x1 lev_clim_salt.bin NCEP_1948_sst NCEP_1948_ustr salt_14months.bin cp ../verification/global_with_CFC11/input50yr/* . cp ../verification/global_with_CFC11/input/cfc1112.atm . cp ../verification/global_with_CFC11/input/FICE . cp ../verification/global_with_CFC11/input/PATM . cp ../verification/global_with_CFC11/input/XKW . wind stress and heat fluxes (incl radiation) are labeled by NCEP as 0h,6h,12h, and 18h. However, they represent averages over 0-6h,6-12h,12-18h, and 18-24h. air temperature, specific humidity, wind speed and precipitation are labeled identically by NCEP but represent instantaneous forecast values at 6h,12h,18h, and 24h.