Provided by: epsilon-bin_0.9.2+dfsg-4_amd64 bug

NAME

       EPSILON - powerful Open Source wavelet image compressor

SYNOPSIS

       epsilon COMMAND [OPTIONS] FILES...

DESCRIPTION

       EPSILON  is  a  powerful  Open  Source  wavelet image compressor.  The project is aimed on
       parallel and robust image processing.  EPSILON source package consists of two core  parts:
       portable,  well-designed,  thread-safe library and codec, build on the top of the library.
       The library API is very clean, simple and carefully documented.

       EPSILON's compression algorithm is based on  wavelet  transform  and  so  called  embedded
       coding. The former is a well-known mathematical theory and the latter is a very effective,
       yet simple method of progressive image coding. The actual algorithm employed in EPSILON is
       called  SPECK  - Set Partitioned Embedded bloCK coder introduced by Asad Islam and William
       Pearlman.

       At the moment, EPSILON supports more than 30 wavelet filters and have automated  interface
       for adding new ones. The script called make_filterbank.pl translates XML-files with filter
       descriptions to the C source code suitable for EPSILON. So, the only manual  operation  is
       to  copy-and-paste  program's  output into the EPSILON's source code.  After recompilation
       new filters will be ready to use.  Special note: if you succeed  in  adding  new  filters,
       please send them to me.  They will be included into the main source tree.

       EPSILON project follows an old and fruitful UNIX tradition to Keep It Simple. For example,
       EPSILON works with PPM (Portable PixelMap) and PGM (Portable GrayMap)  images  only.  They
       provide  basic  functionality  and  serve  as a least-common-denominator for interchanging
       truecolor and grayscale images between different platforms and operating systems.  Looking
       for  a  converter? Try Netpbm (http://netpbm.sourceforge.net/) - perfect Open Source tool-
       kit with more than 220 handy utilities!

       For storing and interchanging compressed images EPSILON defines  it's  own  PSI  (ePSIlon)
       file  format.  The  PSI  format is designed with simplicity and fault-tolerance in mind. A
       typical PSI file consists of several independent blocks. Each block represents a tile from
       the original image and have completely self-contained header. Each block is protected with
       CRC and (actually with two CRCs: one for the header and another for  the  data)  separated
       from  other blocks with a special unique marker. This simple yet effective technique makes
       stream synchronization and error localization almost trivial. Moreover, block headers  are
       saved  as a plain text: you can edit them by-hand with your favorite text editor. Check it
       out!

       EPSILON have  a  lot  of  interesting  features.  For  example,  you  can  finely  control
       compression ratio (thank`s to embedded coding), manually distribute bit-budget among image
       channels, switch to different encoding  and  filtering  modes  and  so  on.  EPSILON  also
       supports HUGE files with constant memory and linear time complexity.

       Another  nice feature is multi-threading support. Try to (re)compile EPSILON with Pthreads
       enabled (see INSTALL for more info) and you will surely notice significant coding speed-up
       (assuming you have multicore CPU or several CPUs on you computer).

       As of release 0.6.1 EPSILON also supports clustering mode. This is a very powerful feature
       if you have several machines linked with a high-capacity network, say gigabit ethernet  or
       even faster. To build cluster-aware EPSILON version please read INSTALL file.

       Although  EPSILON  have  a  rich  set of special ad-hoc options you are not obliged to use
       them. Defaults are usually just fine.  EPSILON's command line interface is  very  friendly
       and  designed  to  be  similar  to  GZIP  or  BZIP.  So, `epsilon foo.ppm' and `epsilon -d
       bar.psi' is usually enough.

OPTIONS

   Commands:
       -e, --encode-file
              Encode specified file(s). This is a default action if no command is given.

       -d, --decode-file
              Decode specified file(s).

       -t, --truncate-file
              Truncate specified file(s). Due to embedded coding, block truncation is  equivalent
              to block re-compression. In other words, truncation further compresses PSI-files.

       -s, --start-node
              Start cluster node. Note: this option is available in cluster-aware EPSILON version
              only and is intended for SLAVE nodes. In other words, you should invoke epsilon  -s
              on each SLAVE node in your cluster.  Stopping cluster node is even simpler: killall
              epsilon.

              This command runs a daemon program that accepts TCP  connections  at  certain  port
              (2718  by  default). For each connection a new child process is forked and the main
              program waits for a next connecton. Encoding and decoding statistics  is  SYSLOG-ed
              using LOG_DAEMON facility.

              If  you have DSH (Distributed SHell) installed on MASTER node, you can also use two
              handy  scripts,  namely  start_epsilon_nodes.pl  and   stop_epsilon_nodes.pl,   for
              starting and stopping all cluster nodes respectively.

              Host  configuration  is  taken  from  so  called  .epsilon.nodes file.  By default,
              program checks .epsilon.nodes in the current directory.  If there is no such  file,
              program  tries  .epsilon.nodes  in  user`s  home directory. You can also explicitly
              specify file location as an argument to the script. File format is described below.

       -a, --list-all-fb
              List all available filterbanks. This command shows ID, NAME and orthogonality  TYPE
              for  each  available  filterbank. As of release 0.8.1 EPSILON also supports lifting
              implementation of a famous Daubechies 9/7 biorthogonal wavelet transform. It  works
              faster than generic filter-based counterpart. Default ID is daub97lift

       -V, --version
              Print program version.

   Options to use with `--encode-file' command:
       -f, --filter-id=ID
              Wavelet filterbank ID. See also --list-all-fb command.

       -b, --block-size=VALUE
              Block  size  to use: 32, 64, 128, 256, 512 or 1024. The default value is 256. Using
              very small blocks as well as using very large blocks is not recommended: the former
              adds  substantial  header  overhead  and  the  latter  slows down encoding/decoding
              without any profit in image quality. Nevertheless, in some rare circumstances  this
              rule is quite opposite.

       -n, --mode-normal
              Use  so  called  normal  processing  mode.  This  mode  can  be  used with the both
              orthogonal and biorthogonal filters. In practice you should  avoid  this  parameter
              unless you are making some research in wavelets.

       -o, --mode-otlpf
              Use  so called OTLPF processing mode. In a few words, OTLPF is some kind of hack to
              reduce boundary artefacts when image is  broken  into  several  tiles  (as  usually
              happens). Due to mathematical constrains this method can be applied to biorthogonal
              filters only. This option is turned on by default.

       -r, --ratio=VALUE
              With this parameter you can finely control desired compression ratio. This value is
              not  obliged  to  be  integral:  for example, the value of 34.102 is just fine. For
              obvious reasons compression ratio should be grater than 1. Although EPSILON's  bit-
              allocation algorithm is pretty precise, too high compression ratios will be clipped
              due to block headers overhead. On the other hand, blank image (e.g. entirely black)
              surely  will  be  encoded  just  in  a  couple  of  hundreds of bytes regardless of
              compression ratio you  desire.  Nevertheless,  for  a  most  real-life  images  and
              compression ratios (let us say 10..200) actual compression ratio will be very close
              to the value you desire. Default compression ratio is 10.

       -2, --two-pass
              By default EPSILON uses constant bit-rate (CBR) bit-allocation  algorithm.  CBR  is
              pretty  fast  and  usually  gives  acceptable  image quality. If image quality is a
              concern, try two-pass variable bit-rate  (VBR)  bit-allocation  algorithm  instead.
              VBR gives better results than CBR, but runs about twice slower.

       -N, --node-list
              File  with  cluster  configuration. Note: this option is available in cluster-aware
              EPSILON version only and is intended for MASTER node. Each line in this file should
              comply with the following format:

              user@host:port^number_of_CPUs

              All  fields are mandatory. No comments, spaces or blank lines are allowed here. The
              second field can be either IP address or host name. The last field is actually  the
              number  of simultaneous TCP connections with a corresponding SLAVE node. Usually it
              is set to the number of CPUs or somewhat larger.

              If you omit this option, EPSILON will try .epsilon.nodes in the  current  and  home
              directory (in that order).

              Note 1: ´user´ field is used by start_epsilon_nodes.pl and stop_epsilon_nodes.pl to
              SSH into the target box.

              Note 2: ´port´ is EPSILON node's port not SSH's.

       -T, --threads
              Number of encoding threads. Note: this option is available in thread-aware  EPSILON
              version only.

       --Y-ratio=VALUE, --Cb-ratio=VALUE, --Cr-ratio=VALUE
              Bit-budget  percent  for the Y, Cb and Cr channels respectively.  The values should
              give 100% altogether. Note that these options have sense for truecolor  (i.e.  PPM)
              images only. The default values are 90-5-5.

       --no-resampling
              By  default  EPSILON  resamples  truecolor  images using so called 4:2:0 resampling
              scheme. This trick  essentially  speed-ups  encoding/decoding  without  sacrificing
              image quality. Usually there is no reason to disable resampling.

   Options to use with `--decode-file' command:
       -T, --threads
              Number  of decoding threads. Note: this option is available in thread-aware EPSILON
              version only.

       -N, --node-list
              File with cluster configuration. Note: this option is  available  in  cluster-aware
              EPSILON version only and is intended for MASTER node. Each line in this file should
              comply with the following format:

              user@host:port^number_of_CPUs

              All fields are mandatory. No comments, spaces or blank lines are allowed here.  The
              second  field can be either IP address or host name. The last field is actually the
              number of simultaneous TCP connections with a corresponding SLAVE node. Usually  it
              is set to the number of CPUs or somewhat larger.

              If  you  omit  this option, EPSILON will try .epsilon.nodes in the current and home
              directory (in that order).

       --ignore-hdr-crc
              Ignore header CRC errors.

       --ignore-data-crc
              Ignore data CRC errors.

       --ignore-format-err
              Skip over malformed blocks.

   Options to use with `--truncate-file' command:
       -r, --ratio=VALUE
              Desired truncation ratio. See also --truncate-file command.

   Options to use with `--start-node' command:
       -P, --port=VALUE
              By default cluster node listens port number 2718.  With this  option  you  can  set
              another port number.

   Common options:
       -H, --halt-on-errors
              By  default  if  something fails EPSILON proceeds to the next input file. With this
              option you can change default behaviour: EPSILON will halt  on  first  error.  Note
              that in MPI mode this option is not available and EPSILON always halts on errors.

       -q, --quiet
              By  default EPSILON shows pretty statistics during its operation.  With this option
              you can ask EPSILON to be quiet.

       -O, --output-dir=DIR
              Output directory for encoded, decoded and truncated  files.   If  not  set,  output
              files will be saved in the same directory as input ones.

   Help options:
       -?, --help
              Show help message.

       --usage
              Display brief usage message.

EXAMPLES

       Encode all PPM files in current directory with two-pass VBR algorithm:

       epsilon *.ppm -2

       Encode PGM file with 1:100 compression ratio using 4 threads:

       epsilon -e big.pgm -r 100 -T 4

       Decode all files to the /tmp directory, operate quietly:

       epsilon -dq *.psi -O /tmp

       Decode a list of heavily corrupted files:

       epsilon -d *.psi --ignore-hdr-crc --ignore-data-crc --ignore-format-err

       Start cluster node with non-standard port number:

       epsilon -s -P 1234

       Encode files using custom cluster configuration:

       epsilon *.ppm *.pgm -N /path/to/.epsilon.nodes

       Encode file with MPI engine using all available processors:

       mpirun C epsilon test.ppm

AUTHOR

       Alexander Simakov, <xander@entropyware.info>

       Feedback, bug-reports and patches are welcome. Feel free to write!