Provided by: sac2mseed_1.13+ds1-1build1_amd64 bug

NAME

       sac2mseed - SAC to miniSEED converter

SYNOPSIS

       sac2mseed [options] file1 [file2 file3 ...]

DESCRIPTION

       sac2mseed  converts  SAC  waveform  data to miniSEED format.  By default the format of the
       input files is automatically detected: alpha or binary  (byte  order  autodetected).   The
       format  can  also be forced with the -f option.  If an input file name is prefixed with an
       '@' character the file is assumed to contain a list of input data files,  see  LIST  FILES
       below.

       If  the  input  file name ends in ".sac" (not case sensitive) the default output file name
       will be the same with the extension replace with ".mseed".  The output  data  may  be  re-
       directed to a single file or stdout using the -o option.

OPTIONS

       -V     Print program version and exit.

       -h     Print program usage and exit.

       -v     Be  more verbose.  This flag can be used multiple times ("-v -v" or "-vv") for more
              verbosity.

       -S     Include SEED blockette 100 in each output record with the sample rate  in  floating
              point  format.  The basic format for storing sample rates in SEED data records is a
              rational approximation (numerator/denominator).  Precision will be lost if a  given
              sample  rate  cannot  be  well  approximated.   This option should be used in those
              cases.

       -n netcode
              Specify the SEED network code to use, if not specified the network code will be the
              value  of  the  KNETWK  variable  in the SAC header, if KNETWK is not specified the
              network code will be blank.  It is highly recommended to specify a network code  if
              no network is defined in the SAC file.

       -s stacode
              Specify the SEED station code to use, if not specified the station code will be the
              value of the KSTNM variable in the SAC  header,  if  KSTNM  is  not  specified  the
              location ID will be blank.

       -l locid
              Specify  the  SEED location ID to use, if not specified the location ID will be the
              value of the KHOLE variable in the SAC  header,  if  KHOLE  is  not  specified  the
              location ID will be blank.

       -c chancodes
              Specify  the  SEED  channel codes to use, if not specified the channel code will be
              the value of the KCMPNM variable in the SAC header, if KCMPNM is not specified  the
              location  ID will be blank.  As a special case a dot (.) will be interpreted as the
              same character as the input channel name, for example, "L.." can  be  specified  to
              only replace the first code with 'L' and leave the other two codes as they are.

       -r bytes
              Specify the miniSEED record length in bytes, default is 4096.

       -e encoding
              Specify  the  miniSEED  data  encoding format, default is 11 (Steim-2 compression).
              Other supported encoding  formats  include  10  (Steim-1  compression),  1  (16-bit
              integers)  and  3  (32-bit  integers).  The 16-bit integers encoding should only be
              used if all data samples can be represented in 16 bits.

       -b byteorder
              Specify the miniSEED byte order, default is 1 (big-endian or most significant  byte
              first).  The other option is 0 (little-endian or least significant byte first).  It
              is highly recommended to always create big-endian SEED.

       -o outfile
              Write all miniSEED records to outfile, if outfile is a single  dash  (-)  then  all
              miniSEED  output  will  go  to  stdout.   All diagnostic output from the program is
              written to stderr and should never get mixed with data going to stdout.

       -m metafile
              For each input SAC file write a one-line summary of channel metadata metafile.  The
              one-line  summary is a comma-separated list containing: network, station, location,
              channel, latitude, longitude,  elevation,  depth,  azimuth,  incidence,  instrument
              name,  scale  factor,  sampling rate and start and end times.  In SAC the component
              azimuth is in degrees clockwise from north, the  component  incident  angle  is  in
              degrees from vertical and the elevation and depth are both in meters.

       -me    When writing out a metadata file include the event name (kevnm) and user strings 0,
              1 and 2 (kuser0, kuser1 and kuser2).

       -s factor
              When writing data to an integer  (miniSEED)  encoding  format  apply  this  scaling
              factor  to  each  input floating point data sample before truncating to an integer.
              By default autoscaling is used and a scaling factor is determined that  will  scale
              the  maximum  sample  value  to a minimum of 6 digits.  If none of the input sample
              values include fractional components the scaling factor will be 1 and the  floating
              point data will simply be truncated to their integer components.

       -f format
              By  default  the  format of each input file is autodetected, either alpha or binary
              (little or big endian byte order autodetected as well).   This  option  forces  the
              format for every input file:

              0 : Autodetect SAC format (default)
              1 : Alphanumeric SAC format
              2 : Binary SAC format, autodetect byte order
              3 : Binary SAC format, little-endian
              4 : Binary SAC format, big-endian

SEED LOCATION IDS

       The  contents  of  the  SAC header variable KHOLE is used as the SEED location ID if it is
       set.  While the definition of KHOLE and SEED location ID are not officially the same, this
       is a known convention when converting between these two formats.

LIST FILES

       If  an  input file is prefixed with an '@' character the file is assumed to contain a list
       of file for input.  Multiple list files can be combined with multiple input files  on  the
       command line.  The last, space separated field on each line is assumed to be the file name
       to be read.

       An example of a simple text list:

       TA.ELFS..LHE.SAC
       TA.ELFS..LHN.SAC
       TA.ELFS..LHZ.SAC

ABOUT SAC

       Seismic Analysis Code (SAC) is a general purpose  interactive  program  designed  for  the
       study  of  sequential  signals,  especially  timeseries data.  Originally developed at the
       Lawrence Livermore National Laboratory the SAC software package  is  also  available  from
       IRIS.

AUTHOR

       Chad Trabant
       IRIS Data Management Center

                                            2017/04/03                               SAC2MSEED(1)