eegmp_preproc/code/a7_prep_data_for_analysis/logs/eegmp_final_20.out

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Setting up environment variables
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LD_LIBRARY_PATH is .:/opt/matlab/R2016b/runtime/glnxa64:/opt/matlab/R2016b/bin/glnxa64:/opt/matlab/R2016b/sys/os/glnxa64:/opt/matlab/R2016b/sys/opengl/lib/glnxa64
processing ID sub-020
the input is raw data with 72 channels and 1200 trials
Warning: could not determine dimord of "chanlocs" in:

         hdr: [1x1 struct]
     fsample: 500
       trial: {1x1200 cell}
        time: {1x1200 cell}
       label: {72x1 cell}
         cfg: [1x1 struct]
        elec: [1x1 struct]
    chanlocs: [1x72 struct]


 In '/mnt/beegfs/home/kosciessa/.mcrCache9.1/a7_pre1/mnt/beegfs/home/kosciessa/eegmp/eegmp_preproc/tools/fieldtrip/utilities/private/getdimord.m' at line 784
 In '/mnt/beegfs/home/kosciessa/.mcrCache9.1/a7_pre1/mnt/beegfs/home/kosciessa/eegmp/eegmp_preproc/tools/fieldtrip/utilities/private/getdimord.m' at line 734
 In '/mnt/beegfs/home/kosciessa/.mcrCache9.1/a7_pre1/mnt/beegfs/home/kosciessa/eegmp/eegmp_preproc/tools/fieldtrip/utilities/private/makessense.m' at line 41
 In '/mnt/beegfs/home/kosciessa/.mcrCache9.1/a7_pre1/mnt/beegfs/home/kosciessa/eegmp/eegmp_preproc/tools/fieldtrip/utilities/ft_datatype_raw.m' at line 90
 In '/mnt/beegfs/home/kosciessa/.mcrCache9.1/a7_pre1/mnt/beegfs/home/kosciessa/eegmp/eegmp_preproc/tools/fieldtrip/utilities/ft_checkdata.m' at line 277
 In '/mnt/beegfs/home/kosciessa/.mcrCache9.1/a7_pre1/mnt/beegfs/home/kosciessa/eegmp/eegmp_preproc/tools/fieldtrip/ft_componentanalysis.m' at line 185

Warning: could not determine dimord of "chanlocs" in:

         hdr: [1x1 struct]
     fsample: 500
       trial: {1x1200 cell}
        time: {1x1200 cell}
       label: {72x1 cell}
         cfg: [1x1 struct]
        elec: [1x1 struct]
    chanlocs: [1x72 struct]


Warning: could not determine dimord of "chanlocs" in:

         hdr: [1x1 struct]
     fsample: 500
       trial: {1x1200 cell}
        time: {1x1200 cell}
       label: {72x1 cell}
         cfg: [1x1 struct]
        elec: [1x1 struct]
    chanlocs: [1x72 struct]


Warning: could not determine dimord of "chanlocs" in:

         hdr: [1x1 struct]
     fsample: 500
       trial: {1x1200 cell}
        time: {1x1200 cell}
       label: {72x1 cell}
         cfg: [1x1 struct]
        elec: [1x1 struct]
    chanlocs: [1x72 struct]


Warning: could not determine dimord of "chanlocs" in:

         hdr: [1x1 struct]
     fsample: 500
       trial: {1x1200 cell}
        time: {1x1200 cell}
       label: {72x1 cell}
         cfg: [1x1 struct]
        elec: [1x1 struct]
    chanlocs: [1x72 struct]


the call to "ft_selectdata" took 1 seconds and required the additional allocation of an estimated 306 MB
baseline correcting data 
scaling data with 1 over 306.700748
not concatenating data
starting decomposition using predetermined unmixing matrix
also applying the unmixing matrix to the elec structure
Warning: copying input chantype to montage
Warning: copying input chanunit to montage
the call to "ft_componentanalysis" took 5 seconds and required the additional allocation of an estimated 1309 MB
removing 20 components
keeping 51 components
the call to "ft_selectdata" took 0 seconds and required the additional allocation of an estimated 1 MB
processing trials
processing trial 140 from 1200processing trial 290 from 1200processing trial 420 from 1200processing trial 551 from 1200processing trial 705 from 1200processing trial 869 from 1200processing trial 1018 from 1200processing trial 1113 from 1200processing trial 1200 from 1200
also applying the backprojection matrix to the elec structure
Warning: copying input chantype to montage
Warning: copying input chanunit to montage
the call to "ft_rejectcomponent" took 3 seconds and required the additional allocation of an estimated 8 MB
Warning: sampleinfo in the configuration is inconsistent with the actual data
Warning: reconstructing sampleinfo by assuming that the trials are consecutive segments of a continuous recording
the call to "ft_selectdata" took 0 seconds and required the additional allocation of an estimated 52 MB
preprocessing
preprocessing trial 6 from 1051preprocessing trial 139 from 1051preprocessing trial 281 from 1051preprocessing trial 422 from 1051preprocessing trial 564 from 1051preprocessing trial 707 from 1051preprocessing trial 841 from 1051preprocessing trial 979 from 1051preprocessing trial 1051 from 1051
the call to "ft_preprocessing" took 1 seconds and required the additional allocation of an estimated 53 MB
the call to "ft_selectdata" took 1 seconds and required the additional allocation of an estimated 2 MB
preprocessing
preprocessing trial 28 from 1051preprocessing trial 60 from 1051preprocessing trial 97 from 1051preprocessing trial 135 from 1051preprocessing trial 173 from 1051preprocessing trial 210 from 1051preprocessing trial 247 from 1051preprocessing trial 284 from 1051preprocessing trial 321 from 1051preprocessing trial 360 from 1051preprocessing trial 398 from 1051preprocessing trial 435 from 1051preprocessing trial 472 from 1051preprocessing trial 507 from 1051preprocessing trial 545 from 1051preprocessing trial 582 from 1051preprocessing trial 620 from 1051preprocessing trial 657 from 1051preprocessing trial 695 from 1051preprocessing trial 732 from 1051preprocessing trial 769 from 1051preprocessing trial 807 from 1051preprocessing trial 844 from 1051preprocessing trial 884 from 1051preprocessing trial 924 from 1051preprocessing trial 964 from 1051preprocessing trial 999 from 1051preprocessing trial 1024 from 1051preprocessing trial 1051 from 1051
the call to "ft_preprocessing" took 4 seconds and required the additional allocation of an estimated 3 MB
the input is raw data with 66 channels and 1051 trials
the call to "ft_selectdata" took 0 seconds and required the additional allocation of an estimated 0 MB
assuming that the data is EEG, use cfg.senstype to overrule this
Your data and configuration allow for multiple sensor definitions.
Warning: using electrodes specified in the configuration\n
There are 3 bad channels
There are 0 missing channels
Spherical spline and surface Laplacian interpolation will treat bad and missing channels the same. Missing channels will be concatenated at the end of your data structure.
Checking spherical fit... perfect spherical fit (residual: 0.0%)
computing weight matrix... done!

interpolating channels for 1051 trials ...........................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................
the call to "ft_channelrepair" took 2 seconds and required the additional allocation of an estimated 5 MB