This module computes statistical values over timesteps of the same month. Depending on the chosen operator the minimum, maximum, range, sum, average, variance or standard deviation of timesteps of the same month is written to outfile. The time of outfile is determined by the time in the middle of all contributing timesteps of infile. This can be change with the CDO option --timestat_date <first|middle|last>.
cdo_monavg(ifile, complete_only = NULL, ofile = NULL)cdo_monmax(ifile, complete_only = NULL, ofile = NULL)
cdo_monmean(ifile, complete_only = NULL, ofile = NULL)
cdo_monmin(ifile, complete_only = NULL, ofile = NULL)
cdo_monrange(ifile, complete_only = NULL, ofile = NULL)
cdo_monstd(ifile, complete_only = NULL, ofile = NULL)
cdo_monstd1(ifile, complete_only = NULL, ofile = NULL)
cdo_monsum(ifile, complete_only = NULL, ofile = NULL)
cdo_monvar(ifile, complete_only = NULL, ofile = NULL)
cdo_monvar1(ifile, complete_only = NULL, ofile = NULL)
Operators that output one or more files return a character vector to the output files.
Operators that output an indefinite number of files return a string with the basename of the files.
Operatos that don't return filenames return a character vector with the string output.
String with the path to the input file.
BOOL - Process the last month only if it is complete
String with the path to the output file.
monmin Monthly minimum
For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = min\{i(t',x), t_1<t'<=t_n\}
monmax Monthly maximum
For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = max\{i(t',x), t_1<t'<=t_n\}
monrange Monthly range
For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = range\{i(t',x), t_1<t'<=t_n\}
monsum Monthly sum
For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = sum\{i(t',x), t_1<t'<=t_n\}
monmean Monthly mean
For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = mean\{i(t',x), t_1<t'<=t_n\}
monavg Monthly average
For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = avg\{i(t',x), t_1<t'<=t_n\}
monstd Monthly standard deviation
Normalize by n. For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = std\{i(t',x), t_1 < t' <= t_n\}
monstd1 Monthly standard deviation (n-1)
Normalize by (n-1). For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = std1\{i(t',x), t_1 < t' <= t_n\}
monvar Monthly variance
Normalize by n. For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = var\{i(t',x), t_1 < t' <= t_n\}
monvar1 Monthly variance (n-1)
Normalize by (n-1). For every adjacent sequence t_1, ...,t_n of timesteps of the same month it is:
o(t,x) = var1\{i(t',x), t_1 < t' <= t_n\}