Lossless: Difference between revisions

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(Rarewares link. Kexis. PCA. mkw. a-pac collated to "a". But this page needs update ...)
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There are several old lossless formats that aren't really deserving of having an article all for themselves. Reasons are: lack of widespread support, lack of features, bad efficiency and, most importantly, it seems no one is really interested in them.
There are several old lossless formats that aren't really deserving of having an article all for themselves. Reasons are: lack of widespread support, lack of features, bad efficiency and, most importantly, it seems no one is really interested in them.


Most of those would have disappeared by now, but they are being preserved for posterity at [[User:Rjamorim|rjamorim]]'s   
Most of those would have disappeared by now, but several are being preserved for posterity at [[User:Rjamorim|rjamorim]]'s  Rarewares/[https://www.rarewares.org/rrw/programs.php ReallyRareWares] website.


* a-Pac (by sound card manufacturer MARIAN)
* Advanced Digital Audio (ADA)
* Advanced Digital Audio (ADA)
* AudioZip
* AudioZip
* Dakx WAV
* Dakx WAV
* Entis Lab MIO
* Entis Lab MIO
* Kexis
* LiteWave
* LiteWave
* Marian's a-Pac
* mkw
* mp3HD
* mp3HD
* Pegasus SPS
* Pegasus SPS
* Perfect Clarity Audio (might still be supported in [https://en.wikipedia.org/wiki/Sound_Forge SoundForge], being developed in the 1990s(?) for its predecessor)
* RKaudio
* RKaudio
* Split2000
* Split2000

Revision as of 08:42, 14 January 2022

Compression is lossless when decoding the compressed data gives a result which is identical bit-by-bit to the uncompressed original.

Generic file compression formats, like ZIP or RAR, are lossless. However, trying to compress raw audio with those generally results in files which are only slightly- if at all- smaller than the originals. Lossless audio formats take advantage of knowledge about real-world audio data to provide compression ratios averaging around 50% on most music.

Lossy encoders only attempt to approximate the sound of the original waveform rather than preserving all the information present in it. Losslessly compressed audio will therefore unavoidably be larger than audio compressed with any reasonable lossy encoder. However, this disadvantage is offset by lossless files' ability to be transcoded to other lossless formats without any quality degradation.

Popular lossless formats

Oddball Formats

There are several old lossless formats that aren't really deserving of having an article all for themselves. Reasons are: lack of widespread support, lack of features, bad efficiency and, most importantly, it seems no one is really interested in them.

Most of those would have disappeared by now, but several are being preserved for posterity at rjamorim's Rarewares/ReallyRareWares website.

  • a-Pac (by sound card manufacturer MARIAN)
  • Advanced Digital Audio (ADA)
  • AudioZip
  • Dakx WAV
  • Entis Lab MIO
  • Kexis
  • LiteWave
  • mkw
  • mp3HD
  • Pegasus SPS
  • Perfect Clarity Audio (might still be supported in SoundForge, being developed in the 1990s(?) for its predecessor)
  • RKaudio
  • Split2000
  • Sonarc
  • VocPack
  • WavArc
  • WaveZip/MUSICompress

Note that currently no single format can be considered best for all applications. Rather, the best format depends on the intended use, as well as a number of other factors (such as licensing and file structure). For example, Shorten and FLAC are widely used for sharing live music because of their cross-platform support and speed. Monkey's Audio is popular among Windows users for its superior compression ratio.

Comparisons

Note the specific assumptions and limitations of each comparison; in particular, results are sensitive to the music selected'

Lossless comparison
A comparision focusing more on codec features and less on absolute encoding efficiency. Also features a table comparing most popular codecs based on their features.