Software:Lempel–Ziv–Oberhumer

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Short description: Data compression algorithm
LZO
Developer(s)Markus F.X.J. Oberhumer
Initial releaseMay 20, 1996; 28 years ago (1996-05-20)
Stable release
2.10 / March 1, 2017; 7 years ago (2017-03-01)
Operating systemCross-platform
Typedata compression
LicenseGPLv2 or commercial
Websitewww.oberhumer.com/opensource/lzo/

Lempel–Ziv–Oberhumer (LZO) is a lossless data compression algorithm that is focused on decompression speed.[1]

Design

The original "lzop" implementation, released in 1996, was developed by Markus Franz Xaver Johannes Oberhumer, based on earlier algorithms by Abraham Lempel and Jacob Ziv. The LZO library implements a number of algorithms with the following characteristics:

  • Higher compression speed compared to DEFLATE compression
  • Very fast decompression
  • Requires an additional buffer during compression (of size 8 kB or 64 kB, depending on compression level)
  • Requires no additional memory for decompression other than the source and destination buffers
  • Allows the user to adjust the balance between compression ratio and compression speed, without affecting the speed of decompression

LZO supports overlapping compression and in-place decompression. As a block compression algorithm, it compresses and decompresses blocks of data. Block size must be the same for compression and decompression. LZO compresses a block of data into matches (a sliding dictionary) and runs of non-matching literals to produce good results on highly redundant data and deals acceptably with non-compressible data, only expanding incompressible data by a maximum of 1/64 of the original size when measured over a block size of at least 1 kB.[2]

Implementations

The reference implementation is written in ANSI C, and it has been made available as free software under the GNU General Public License. The copyright for the code is owned by Markus F. X. J. Oberhumer. It was originally published in 1996. Oberhumer has also written a command-line frontend called lzop.

Versions of LZO are available for the Perl, Python and Java languages. Various LZO implementations are reported to work under Win32, AIX, ConvexOS, IRIX, Mac OS, Palm OS, PlayStation, Nintendo 64, Wii, Solaris, SunOS, TOS (Atari ST), Linux and VxWorks.

FFmpeg's libavutil library includes its own implementation of LZO[3] as a possible method for lossless video compression. FFmpeg's implementation of the decompressor is also used in OpenConnect in order to support LZO-compressed ESP packets sent by Juniper Networks and Pulse Secure VPN servers.[4]

The Linux kernel uses its LZO implementation in some of its features:

References

  1. Arnaud Bouche (2008-01-01). "LZO fast compress/uncompress: implementation in 80386 machine code for Delphi". LZO. http://bouchez.info/lzo.html. "Do you know the LZO compression format?" 
  2. Tarreau, Willy (2014-07-19). "LZO stream format as understood by Linux's LZO decompressor". Infra Dead. http://www.infradead.org/~mchehab/kernel_docs/staging/lzo.html. "This document describes what input format the LZO decompressor as implemented in the Linux kernel understands." 
  3. Reimar Döffinger. "libavutil/lzo.c". FFmpeg. https://git.videolan.org/?p=ffmpeg.git;a=blob;f=libavutil/lzo.c;hb=master. 
  4. David Woodhouse (January 26, 2015). "Add LZO decompression support". OpenConnect. https://gitlab.com/openconnect/openconnect/-/commit/be62fff9e402d9ecf042905d74455e49ae5e5560. 

External links

  • on GitHub - Pure Java implementation of the liblzo2 LZO compression algorithm