Page Comparison

...

for i in 24 26 28 30
do
for j in {2..180} 
do
sbatch doSNIsotropyFit_Real_Grid"$i"_Bin300_MinSN14_Z0p8_HemisphereBoth_Angle_"$j"of180.slurm
done
done

We should now switch all squares on the rows with "Grid Size" = 24, 26, 28, and 30 of the 300 Mpc sheet from 1 to 180 from red to yellow. 

Checking which chains are finished 

All chains, once completed, get saved to the following directory: 

$ cd ~/stubbs/SNIsotropyProject/SNeFieldFits/ 

To see if all 180 (or however many) chains for a particular set of parameters have been completed, you can perform an ls command on that directory, with an appropriate set of character substitutions.  All final chain files share the following format: 

OverdensityFitAAA_MinNSN_14_GridDens_BBB_BinSize_CCC_Hemisphere_both_RArange_DDDof180_RandEEE_fits.txt

where the three red capital letters represent a value specific to each file. The meaning of each set of three capital letters are as follows: 

 AAA - the sequence number of this set of chains, given these parameters (will be 1 for real chains, can be any number from 1 to whatever the max number of randomizations for the random bootstrapped chains) 

BBB - the grid density, as an integer 

CCC - the bin size, as an integer 

DDD - the angle slice of the fit (will range from 1 to whatever the number of slices is, typically 180) 

EEE - 0 if the chain is on real data, 1 if the chain is on random data

For example, if you want to check how many of the 180 sky slices for R_{grid} = 30 and R_{bin} = 300 are done, we move to the correct directory and then use the ls command: 

$ ls OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_*of180_Rand0_fits.txt

Running this command gives: 

OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_100of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_1of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_101of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_21of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_102of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_22of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_103of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_23of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_104of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_24of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_105of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_25of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_106of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_26of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_107of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_27of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_108of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_28of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_109of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_29of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_10of180_Rand0_fits.txt   OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_2of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_110of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_30of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_111of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_31of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_112of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_32of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_113of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_33of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_114of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_34of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_115of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_35of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_116of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_36of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_117of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_37of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_118of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_38of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_119of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_39of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_11of180_Rand0_fits.txt   OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_3of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_120of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_40of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_121of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_41of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_122of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_42of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_123of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_43of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_124of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_44of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_125of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_45of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_126of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_46of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_127of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_47of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_128of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_48of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_129of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_49of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_12of180_Rand0_fits.txt   OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_4of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_130of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_50of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_131of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_51of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_132of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_52of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_133of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_53of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_134of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_54of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_135of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_55of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_136of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_56of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_137of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_57of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_138of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_58of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_139of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_59of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_13of180_Rand0_fits.txt   OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_5of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_140of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_60of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_141of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_61of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_142of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_62of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_143of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_63of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_144of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_64of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_145of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_65of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_146of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_66of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_147of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_67of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_148of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_68of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_149of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_69of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_14of180_Rand0_fits.txt   OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_6of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_150of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_70of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_151of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_71of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_152of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_72of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_153of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_73of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_154of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_74of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_155of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_75of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_156of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_76of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_157of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_77of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_158of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_78of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_159of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_79of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_15of180_Rand0_fits.txt   OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_7of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_160of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_80of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_161of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_81of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_162of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_82of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_163of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_83of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_164of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_84of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_165of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_85of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_166of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_86of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_167of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_87of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_168of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_88of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_169of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_89of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_16of180_Rand0_fits.txt   OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_8of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_170of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_90of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_171of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_91of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_172of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_92of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_173of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_93of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_174of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_94of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_175of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_95of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_176of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_96of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_177of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_97of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_178of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_98of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_179of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_99of180_Rand0_fits.txt
OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_180of180_Rand0_fits.txt  OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_9of180_Rand0_fits.txt

Notably, chains 17, 18, 19, and 20 are still absent.  So we should switch all squares on the row with "Grid Size" = 30 of the 200 Mpc sheet from 1 to 180 from yellow to green, except for 17, 18, 19,  and 20.  We'll have to wait for those chains to finish. 

Note we can check an individual chain by listing that specific file.  Say we want to see if angle slice 17 has finished yet.  I would swap the * character in the row above for the specific 17: 

$ ls OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_17of180_Rand0_fits.txt

ls: cannot access OverdensityFit1_MinNSN_14_GridDens_30_BinSize_200_Hemisphere_both_RArange_17of180_Rand0_fits.txt: No such file or directory

Getting a message that the file does not exist tells us we have still more time to wait. 

Consolidating angle slices into a single data set 

Say you've finished all chains for particular set of parameters (all cells from 1 to the number of angle slices are green).  We now want to consolidate those into a single larger file.  As I write this, I notice that all 180 angle slice chains for R_{grid} = 28 and 26, R_{bin} = 150 are done (green), but have not been consolidated.  So we'll use those as an example. 

Consolidating these chains again involves running a slurm script.  Specifically, the

ConsolidateSNeOnSkyFits.slurm 

script.  The user will need to edit the following variables in this file:

rand
comoving_bin
fitter_ids
grid_densities
hemispheres_sets 
angle_divs_set

The 'rand' variable should be either 0, if the chains being consolidated are from a real data set, or 1 if the chains being consolidated are from a bootstrapped data set
The 'comoving_bin' variable should be a single integer, whatever the size of the comoving bin is in the chains to be consolidated
The other 4 variables should actually be lists, formatted as [XX,YY,ZZ] (NOTE: the lack of spaces is essential!!!!) 
The fitter_ids list should be whatever ids belong to the chains to be processed.  For real data, this should always be [1].  For randomized data, this can be whatever the randomized fitter ids are. For example, [1,2,3,4,5] 
The other three lists should be the same length, equal to the number of different R_{grid} variables you want to consolidate with this processing run. 
The grid_densities variable should be the grid densities of each chain. 
The hemispheres_sets variable should pretty much always be [both,both,both] , one both for each grid element 
The angle_divs_set should be the number of slices into which the hemisphere is divided.  

For example, to process the two data sets from we're interested in, I will set: 

rand=0
comoving_bin=150
fitter_ids=[1]
grid_densities=[26,28]
hemispheres_sets=[both,both]
angle_divs_set=[180,180]

You can do so using vi: 

vi ConsolidateSNeOnSkyFits.slurm 

A useful manual for basic vi editing tips can be found here: https://www.ele.uri.edu/faculty/vetter/Other-stuff/vi/text_edit.html

The commands you'll mostly need are: 
-Entering edit mode: type i, then you can type characters and delete them at your leisure. 
-Saving your edits: Type : and then w
-Exiting vi once you've saved your edits: Type : and then q
-Exiting vi WITHOUT SAVING (so without typing : and w before hand): Type :, then q, then ! 

With those edits made, let's execute the command: 

$ sbatch ConsolidateSNeOnSkyFits.slurm 
submitted batch job 19202558

Note the output file.  When the batch job is done, open op the output file.  The figures of merit (chi square improvement) are printed near the end of the output file.

vi slurm-19202558.out

Down at the bottom, we see the results: 

For grid density: 26
Ratio of real to null r Chi Sqr = 0.16698040463400232
For grid density: 28
Ratio of real to null r Chi Sqr = 0.13617911931972834

Those two numbers are the values we copy and paste into the spreadsheet, under the Chi Sqr Ratio column. .