Lossless comparison: Difference between revisions
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== Introduction == | == Introduction == | ||
Given the enormous | Given the enormous number of [[lossless]] audio compressor choices available, it is a very difficult task to choose the one most suited for each person's needs. Some people take into consideration only compression performance when choosing a codec, but as the following table and article shows, there are several other features worth taking into consideration when making a choice. | ||
For example, users wanting good multiplatform compatibility and robustness (e.g., people sharing live recordings) would favour [[WavPack]] or [[FLAC]]. Another user, looking for the very highest compression available, would go with [[OptimFROG]]. Someone wanting portable support would use [[FLAC]] or [[ALAC]], and so on. En fin, this is not a matter worth getting too worked up about. If you later find out the codec you chose isn't the best for your needs, you can just transcompress to another format, without risk of losing quality. | For example, users wanting good multiplatform compatibility and robustness (e.g., people sharing live recordings) would favour [[WavPack]] or [[FLAC]]. Another user, looking for the very highest compression available, would go with [[OptimFROG]]. Someone wanting portable support would use [[FLAC]] or [[ALAC]], and so on. En fin, this is not a matter worth getting too worked up about. If you later find out the codec you chose isn't the best for your needs, you can just transcompress to another format, without risk of losing quality. | ||
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! width="90px" | [[#OptimFROG (OFR)|OptimFROG]] | ! width="90px" | [[#OptimFROG (OFR)|OptimFROG]] | ||
! width="90px" | [[#True Audio (TTA)|TTA]] | ! width="90px" | [[#True Audio (TTA)|TTA]] | ||
|- <!-- *** Encoding speed is very fast if | |- <!-- *** Encoding speed is very fast if < 2%, fast if < 5%, average if < 10%, slow if < 20%, very slow if < 50% *** --> | ||
<!-- *** Numbers are taken from most recent CDDA comparison under 'External links' *** --> | |||
| Encoding speed{{ref label|speed|A|A}} | | Encoding speed{{ref label|speed|A|A}} | ||
| style="background: #00FF00" | very fast | | style="background: #00FF00" | very fast | ||
Line 27: | Line 28: | ||
| style="background: #00FF00" | very fast | | style="background: #00FF00" | very fast | ||
| style="background: #00FF00" | very fast | | style="background: #00FF00" | very fast | ||
| style="background: #00FF00" | very fast | | style="background: #00FF00" | very fast | ||
|- <!-- *** For decoding speed thresholds are | | style="background: #00FF00" | very fast | ||
| style="background: #FFCC66" | moderate | |||
| style="background: #00FF00" | very fast | |||
|- <!-- *** For decoding speed thresholds are one step down, i.e., very fast if < 1%, fast if < 2%, average if < 5% etc *** --> | |||
| Decoding speed{{ref label|speed|A|A}} | | Decoding speed{{ref label|speed|A|A}} | ||
| style="background: #00FF00" | very fast | | style="background: #00FF00" | very fast | ||
| style="background: #CCFFCC" | fast | | style="background: #CCFFCC" | fast | ||
| style="background: #00FF00" | very fast | |||
| style="background: #00FF00" | very fast | |||
| style="background: #FFCC66" | moderate | |||
| style="background: #CCFFCC" | fast | | style="background: #CCFFCC" | fast | ||
| style="background: #FFCC66" | moderate | |||
| style="background: #FFCC66" | | |||
| style="background: #CCFFCC" | fast | | style="background: #CCFFCC" | fast | ||
|- <!-- *** Thresholds for compression are at | |- <!-- *** Thresholds for compression are at 51% and 53% *** --> | ||
| Compression{{ref label|speed|A|A}}{{ref label|comp|B|B}} | | Compression{{ref label|speed|A|A}}{{ref label|comp|B|B}} | ||
| style="background: #CCFFCC" | | | style="background: #CCFFCC" | 52.0% | ||
| style="background: # | | style="background: #FFCC66" | 53.2% | ||
| style="background: #CCFFCC" | | | style="background: #CCFFCC" | 52.6% | ||
| style="background: #00FF00" | | | style="background: #00FF00" | 50.5% | ||
| style="background: #00FF00" | | | style="background: #00FF00" | 50.7% | ||
| style="background: #FFCC66" | | | style="background: #FFCC66" | 53.8% | ||
| style="background: #00FF00" | | | style="background: #00FF00" | 49.6% | ||
| style="background: #CCFFCC" | | | style="background: #CCFFCC" | 52.1% | ||
|- | |- | ||
| # presets | | # presets | ||
Line 70: | Line 71: | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: # | | style="background: #FF9900" | no | ||
|- | |- | ||
| Tagging | | Tagging{{ref label|taggingambiguity|E|E}} | ||
| style="background: #00FF00" | Vorbis tags | | style="background: #00FF00" | Vorbis tags | ||
| style="background: #00FF00" | iTunes | | style="background: #00FF00" | iTunes | ||
| style="background: # | | style="background: #00FF00" | APEv2 | ||
| style="background: #00FF00" | APEv2 | | style="background: #00FF00" | APEv2 | ||
| style="background: #00FF00" | APEv2 | | style="background: #00FF00" | APEv2 | ||
| style="background: #00FF00" | ASF | | style="background: #00FF00" | ASF | ||
| style="background: # | | style="background: #FFCC66" | APEv2 or ID3 | ||
| style="background: # | | style="background: #FFCC66" | APEv2 or ID3 | ||
|- | |- | ||
| Hardware support | | Hardware support | ||
| style="background: #00FF00" | very good | | style="background: #00FF00" | very good | ||
| style="background: # | | style="background: #CCFFCC" | good | ||
| style="background: #FFCC66" | limited | | style="background: #FFCC66" | limited | ||
| style="background: #FF9900" | no | | style="background: #FF9900" | no | ||
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| Software support | | Software support | ||
| style="background: #00FF00" | very good | | style="background: #00FF00" | very good | ||
| style="background: # | | style="background: #CCFFCC" | good | ||
| style="background: #CCFFCC" | good | | style="background: #CCFFCC" | good | ||
| style="background: #FFCC66" | average | | style="background: #FFCC66" | average | ||
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|- | |- | ||
| Hybrid/lossy | | Hybrid/lossy | ||
| style="background: #CCFFCC" | LossyWAV | | style="background: #CCFFCC" | [[LossyWAV]] | ||
| style="background: #FF9900" | no | | style="background: #FF9900" | no | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: #CCFFCC" | LossyWAV | | style="background: #CCFFCC" | [[LossyWAV]] | ||
| style="background: #FF9900" | no | | style="background: #FF9900" | no | ||
| style="background: #CCFFCC" | LossyWAV | | style="background: #CCFFCC" | [[LossyWAV]] | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: #FF9900" | no | | style="background: #FF9900" | no | ||
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| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: # | | style="background: #FFCC66" | no{{ref label|ffmpeg_dec|F|F}} | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: # | | style="background: #FFCC66" | no{{ref label|ffmpeg_dec|F|F}} | ||
| style="background: #FF9900" | no | | style="background: #FF9900" | no | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
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| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: # | | style="background: #00FF00" | yes{{ref label|multichannel_ape|G|G}} | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
| style="background: #FF9900" | no | | style="background: #FF9900" | no | ||
| style="background: #00FF00" | yes | | style="background: #00FF00" | yes | ||
|- | |- | ||
| OS support | | OS support{{ref label|OS_encode|H|H}} | ||
| style="background: #00FF00" | All | | style="background: #00FF00" | All | ||
| style="background: #00FF00" | All | | style="background: #00FF00" | All | ||
| style="background: #00FF00" | All | | style="background: #00FF00" | All | ||
| style="background: #CCFFCC" | Win/Wine | | style="background: #CCFFCC" | Win/Wine | ||
| style="background: # | | style="background: #CCFFCC" | Win {{ref label|OS_ape|I|I}} | ||
| style="background: #CCFFCC" | Win/Mac | | style="background: #CCFFCC" | Win/Mac | ||
| style="background: # | | style="background: #CCFFCC" | Any desktop | ||
| style="background: #00FF00" | All | | style="background: #00FF00" | All | ||
|- | |||
| Fits in container | |||
| style="background: #00FF00" | Ogg, MKV, MP4, CAF | |||
| style="background: #00FF00" | MKV, MP4, CAF | |||
| style="background: #00FF00" | MKV | |||
| style="background: #CCFFCC" | - | |||
| style="background: #CCFFCC" | - | |||
| style="background: #CCFFCC" | - | |||
| style="background: #CCFFCC" | - | |||
| style="background: #00FF00" | MKV | |||
|} | |} | ||
{| | {| | ||
|- | |- | ||
|{{note label|speed|A|A}} Speed and Compression are based on '''each encoder's default settings''' and taken from [http://www.audiograaf.nl/downloads.html this comparison]. | |{{note label|speed|A|A}} Speed and Compression are based on '''each encoder's default settings''' and taken from the last CDDA results of [http://www.audiograaf.nl/downloads.html this comparison]. | ||
|- | |- | ||
|{{note label|comp|B|B}} | |{{note label|comp|B|B}} Lower is better: Compression ratio is compressed size/uncompressed size * 100%. | ||
|- | |- | ||
|{{note label|error|C|C}} Error handling means that a codec can detect a corruption (flipped bit) in a file | |{{note label|error|C|C}} Error handling means that a codec can detect a corruption (flipped bit) in a file, warn the user about it, protect output against full-volume static, but it will still decode the rest of the file. | ||
|- | |- | ||
|{{note label|error_ape|D|D}} The official Monkey's Audio decoder does not support decoding through errors, but this may be achieved with FFmpeg or Winamp, | |{{note label|error_ape|D|D}} The official Monkey's Audio decoder does not support decoding through errors, but this may be achieved with FFmpeg (or Winamp). | ||
|- | |||
|{{note label|taggingambiguity|E|E}} Tagging ambiguity is generally not desired, as one application might ignore tags written by another, or even reject files. Most APEv2-compatible formats can be tagged with ID3, although not recommended unless for use with a hardware player that cannot read other tag sets, and some applications like [[Exact Audio Copy]] can attach an ID3 chunk to any format – including FLAC, which does not support it. All formats but OptimFROG and TTA state either a unique choice of tag set or a clear preferred choice. | |||
|- | |||
|{{note label|ffmpeg_dec|F|F}} Unofficial (but properly working) open source decoder is available as part of ffmpeg | |||
|- | |||
|{{note label|multichannel_ape|G|G}} Since version 4.86 | |||
|- | |||
|{{note label|OS_encode|H|H}} What platform the codec supports or can be played on. Also, most operating systems may offer native support for FLAC and ALAC (Android only FLAC). | |||
|- | |||
|{{note label|OS_ape|I|I}} Currently, Monkey's Audio is available for Windows. Monkey's Audio version 3.99 (stereo, up to 24 bits) is available on all desktop platforms and can be played back on mobile platforms. | |||
== Codecs == | == Codecs == | ||
The most popular lossless codecs, in alphabetical order: | |||
=== Apple Lossless Audio Codec (ALAC) === | === Apple Lossless Audio Codec (ALAC) === | ||
https://alac.macosforge.org/trac | https://alac.macosforge.org/trac | ||
[[ALAC]] is a codec developed by Apple | [[ALAC]] is a codec developed by Apple and used across their hardware and software platforms. | ||
'''ALAC pros''' | '''ALAC pros''' | ||
* [[Open source]] (encoding and decoding via FFmpeg and [[CueTools|CUETools] | * [[Open source]] (encoding and decoding via macosforge/refalac, FFmpeg and [[CueTools|CUETools]]) | ||
* Fast encoding | * Fast encoding | ||
* Fast decoding | * Fast decoding | ||
* Hardware support ([[Apple iPod|iPod]], AirPort Express) | * Hardware support ([[Apple iPod|iPod]], AirPort Express) | ||
* Software support (iTunes, Quicktime) | * Software support (iTunes, Quicktime) | ||
* Independent encoder implementation available: ffmpeg | * Independent encoder implementation available: ffmpeg, CUETools | ||
* Streaming support | * Streaming support | ||
* Tagging support (QT tags) | * Tagging support (QT tags) | ||
* Supports [[multichannel]] | * Supports [[multichannel]]. Limited to 8 channels. Only limited set of channels layouts is supported - https://github.com/nu774/qaac/wiki/Multichannel--handling | ||
* Supports [[high resolution]]s | |||
* Used by a few online stores | * Used by a few online stores | ||
''' ALAC cons ''' | ''' ALAC cons ''' | ||
* No error detection/robustness<ref>[http://www.hydrogenaud.io/forums/index.php?s=&showtopic=33226&view=findpost&p=862031 HA forum post discussing ALAC robustness]</ref> | * No error detection/robustness<ref>[http://www.hydrogenaud.io/forums/index.php?s=&showtopic=33226&view=findpost&p=862031 HA forum post discussing ALAC robustness]</ref> | ||
* Doesn't support [[RIFF]] chunks | |||
* No hybrid/lossy mode (and not [[LossyWAV]] compatible) | * No hybrid/lossy mode (and not [[LossyWAV]] compatible) | ||
''' ALAC Other features ''' | ''' ALAC Other features ''' | ||
* Fits in the [[MP4]] | * Fits in the [[MP4]], [[Matroska]] and CAF containers | ||
=== Free Lossless Audio Codec (FLAC) === | === Free Lossless Audio Codec (FLAC) === | ||
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* Very good hardware support (Android, Marantz, Sonos, [http://xiph.org/flac/links.html many others]) | * Very good hardware support (Android, Marantz, Sonos, [http://xiph.org/flac/links.html many others]) | ||
* Very good software support | * Very good software support | ||
* Independent encoder implementations available: flake/ffmpeg, FLACCL | * Independent encoder implementations available: flake/ffmpeg, FLACCL (providing GPU-based operation, potentially extremely fast) | ||
* Error robustness | * Error robustness | ||
* Streaming support | * Streaming support | ||
* Supports [[multichannel]] | * Supports [[multichannel]]. Limited to 8 channels. Channel mask in [https://learn.microsoft.com/en-us/windows/win32/api/mmreg/ns-mmreg-waveformatextensible WAVEFORMATEXTENSIBLE] is supported. | ||
* Supports [[high resolution]]s | |||
* Tagging support (FLAC tags) | * Tagging support (FLAC tags) | ||
* Supports [[RIFF]] chunks | * Supports [[RIFF]] chunks | ||
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''' FLAC cons ''' | ''' FLAC cons ''' | ||
* No hybrid/lossy mode (but is [[LossyWAV]] compatible) | * No hybrid/lossy mode (but is [[LossyWAV]] compatible) | ||
* Does not handle 32-bit float | * Does not handle 32-bit float | ||
''' FLAC Other features ''' | ''' FLAC Other features ''' | ||
* Supports embedded CUE sheets (with [http://flac.sourceforge.net/faq.html#general__no_cuesheet_tags limitations]) | * Supports embedded CUE sheets (with [http://flac.sourceforge.net/faq.html#general__no_cuesheet_tags limitations]) | ||
* Includes MD5 hashes for quick integrity checking as standard | * Includes MD5 hashes for quick integrity checking as standard | ||
* Fits the [[Ogg]] | * Fits the [[Ogg]], [[Matroska]], [[MP4]] and CAF containers | ||
=== Monkey's Audio (APE) === | === Monkey's Audio (APE) === | ||
https://www.monkeysaudio.com/ | |||
[[Monkey's Audio]] is a very efficient lossless compressor developed by Matt Ashland. | [[Monkey's Audio]] is a very efficient lossless compressor developed by Matt Ashland. | ||
''' APE pros ''' | ''' APE pros ''' | ||
* Open source (from version 10.18, Windows) | |||
* High compression | * High compression | ||
* Fast encoding | * Fast encoding at default setting | ||
* Good software support | * Good software support | ||
* Supports [[multichannel]] (Windows, since version 4.86, channel count later increased.) Channel mask in [https://docs.microsoft.com/ru-ru/windows/win32/api/mmreg/ns-mmreg-waveformatextensible WAVEFORMATEXTENSIBLE] is supported | |||
* Supports [[high resolution]]s | |||
* Simple and user friendly. Official GUI provided. | * Simple and user friendly. Official GUI provided. | ||
* | * Multiplatform [https://jmac.sourceforge.net/ Java implementation] available (3.99 version) | ||
* Tagging support ([[APEv2]], optionally [[ID3v1]]) | |||
* Tagging support ([[ | * Supports [[RIFF]] chunks | ||
* Pipe support (Windows version, other OSes only in a [http://shnutils.freeshell.org/shntool/ special] 3.99-based version) | |||
* Supports [[RIFF]] chunks | |||
* Pipe support (only in a [http:// | |||
''' APE cons ''' | ''' APE cons ''' | ||
* | * Slow decoding. Higher compression levels are particularly CPU intensive. | ||
* Limited hardware support (Rockbox, some Cowon players); potentially poor battery life due to CPU-intensive decoding (see [http://www.rockbox.org/wiki/SoundCodecMonkeysAudio MP3 player benchmarks]) | |||
* No hybrid/lossy mode (and not [[LossyWAV]] compatible) | * No hybrid/lossy mode (and not [[LossyWAV]] compatible) | ||
* | * Older versions (for non-Windows platforms) released under a problematic license | ||
''' APE Other features ''' | ''' APE Other features ''' | ||
* Includes MD5 hashes for quick integrity checking | * Includes MD5 hashes for quick integrity checking (without decoding) | ||
* Supports APL image link files (similar to CUE sheets) | * Supports APL image link files (similar to CUE sheets) | ||
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* Supports [[high resolution]]s | * Supports [[high resolution]]s | ||
* Hybrid/lossy mode | * Hybrid/lossy mode | ||
* Tagging support ([[ | * Tagging support ([[APEv2]], [[ID3]]) | ||
* Supports [[RIFF]] chunks | * Supports [[RIFF]] chunks | ||
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''' OFR Other features ''' | ''' OFR Other features ''' | ||
* Supports 32bit float streams | * Supports 32bit float streams | ||
* | * Fast verification (without decoding) or full decoding verification | ||
* Optional MD5 hash | |||
=== Tom's verlustfreier Audiokompressor (TAK) === | === Tom's verlustfreier Audiokompressor (TAK) === | ||
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* Very high efficiency | * Very high efficiency | ||
* Error robust | * Error robust | ||
* Supports multichannel | * Supports [[multichannel]]. Limited to 6 channels. Channel mask in [https://docs.microsoft.com/ru-ru/windows/win32/api/mmreg/ns-mmreg-waveformatextensible WAVEFORMATEXTENSIBLE] is supported | ||
* Tagging support | * Supports [[high resolution]]s. Limited to 192 kHz sampling rate. | ||
* Tagging support ([[APEv2]]) | |||
* Supports RIFF chunks | * Supports RIFF chunks | ||
* Pipe support | * Pipe support | ||
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''' TAK cons ''' | ''' TAK cons ''' | ||
* Closed source | * Closed source (but unofficial open source decoder is available as part of ffmpeg) | ||
* No hybrid/lossy mode (but is [[LossyWAV]] compatible) | * No hybrid/lossy mode (but is [[LossyWAV]] compatible) | ||
* No hardware support | * No hardware support | ||
* Average software support | * Average software support | ||
* | * Unicode only in GUI | ||
''' TAK Other features ''' | ''' TAK Other features ''' | ||
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''' TTA pros ''' | ''' TTA pros ''' | ||
* [[Open source]] | * [[Open source]] | ||
* Supports [[multichannel]] | * Supports [[multichannel]]. Reference encoder/decoder is limited to 6 channels. ffmpeg's encoder/decoder is limited to 16 channels. Channel mask in [https://docs.microsoft.com/ru-ru/windows/win32/api/mmreg/ns-mmreg-waveformatextensible WAVEFORMATEXTENSIBLE] is '''not''' supported (but implemented in 3rd-party foobar2000 component). | ||
* Supports [[high resolution]]s | |||
* Tagging support ([[ID3]]v1, ID3v2 or [[APEv2]]) | * Tagging support ([[ID3]]v1, ID3v2 or [[APEv2]]) | ||
* Embedded CUE sheets support | * Embedded CUE sheets support | ||
* Pipe support | * Pipe support | ||
* Fast encoding/decoding | * Fast encoding/decoding | ||
''' TTA cons ''' | ''' TTA cons ''' | ||
* No error detection nor error handling (neither in reference implementation nor ffmpeg) | |||
* Tagging ambiguity: tagging applications differ on what tag format to choose, and might not read each others' tags | |||
* Reference implementation is picky on input files and rejects a range of TTA files as well. | |||
* No hybrid/lossy mode | * No hybrid/lossy mode | ||
* Doesn't support [[RIFF]] chunks | * Doesn't support [[RIFF]] chunks | ||
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''' TTA Other features ''' | ''' TTA Other features ''' | ||
* Fits the [[Matroska]] container | * Fits the [[Matroska]] container | ||
* | * Optional password protection | ||
=== WavPack (WV) === | === WavPack (WV) === | ||
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* Error robustness | * Error robustness | ||
* Streaming support | * Streaming support | ||
* Supports [[multichannel]] | * Supports [[multichannel]]. Limited to 255 channels. Channel mask in [https://docs.microsoft.com/ru-ru/windows/win32/api/mmreg/ns-mmreg-waveformatextensible WAVEFORMATEXTENSIBLE] is supported | ||
* Supports [[high resolution]]s | |||
* Hybrid/lossy mode | * Hybrid/lossy mode | ||
* Tagging support ([[ | * Tagging support ([[APEv2]]; ID3 is possible but not recommended) | ||
* Supports [[RIFF]] chunks | * Supports [[RIFF]] chunks | ||
* Pipe support | * Pipe support | ||
* Good software support | * Good software support | ||
* Works with Android (Through third party software, such as VLC.) | |||
* Independent encoder implementation available. (FFmpeg WavPack) | |||
''' WV cons ''' | ''' WV cons ''' | ||
* Limited hardware player support ([http://www.rockbox.org/ RockBox]) | * Limited hardware player support ([http://www.rockbox.org/ RockBox]) | ||
''' WV Other features ''' | ''' WV Other features ''' | ||
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* Accept audio files bigger than 4GB | * Accept audio files bigger than 4GB | ||
* Includes MD5 hashes for quick integrity checking | * Includes MD5 hashes for quick integrity checking | ||
* Fits the [[Matroska]] container | * Fits the [[Matroska]] container | ||
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https://msdn.microsoft.com/en-us/library/ff819508(v=vs.85).aspx | https://msdn.microsoft.com/en-us/library/ff819508(v=vs.85).aspx | ||
WMA Lossless is the lossless codec developed by Microsoft to be featured in their Windows Media codec portfolio. | [[Windows_Media_Audio#Windows_Media_Audio_Lossless|WMA Lossless]] is the lossless codec developed by Microsoft to be featured in their Windows Media codec portfolio. | ||
''' WMAL pros ''' | ''' WMAL pros ''' | ||
* Streaming support | * Streaming support | ||
* Supports [[multichannel]] audio and [[high resolution]]s. | * Supports [[multichannel]] audio and [[high resolution]]s. | ||
* Tagging support (proprietary) | * Tagging support (proprietary) | ||
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''' WMAL cons ''' | ''' WMAL cons ''' | ||
* | * Abandonware? To the extent that certain Windows preview versions have been unable to decode losslessly. | ||
* Limited hardware support (Microsoft Zune, Toshiba Gigabeat S and V. Both discontinued and obsolete. Rockbox, for 16-bit stereo files only.) | |||
* Limited software support outside of the Microsoft Windows operating system. | |||
* Low efficiency | |||
* Closed source | * Closed source | ||
* No hybrid/lossy mode (but is [[LossyWAV]] compatible) | * No hybrid/lossy mode (but is [[LossyWAV]] compatible) | ||
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http://www.lossless-audio.com/ | http://www.lossless-audio.com/ | ||
LA features an extremely high compression (on par with OptimFrog highest modes | LA features an extremely high compression (on par with OptimFrog highest modes), but never made it out of beta stage and hasn't been updated for more than 20 years. Furthermore, backward compatibility is not guaranteed, so using it for archiving might pose a few problems. It isn't able to cope with file corruption either, software support is very limited and isn't open source. | ||
====MLP/Dolby TrueHD==== | ====MLP/Dolby TrueHD==== | ||
The [[MLP|MLP codec]] (of which the mathematical basis was used in Dolby TrueHD) is the codec used for DVD-Audio. It was mandatory in any HD-DVD implementation and optional for Blu-Ray in | The [[MLP|MLP codec]] (of which the mathematical basis was used in Dolby TrueHD) is the codec used for DVD-Audio. It was mandatory in any HD-DVD implementation and optional for Blu-Ray in its Dolby TrueHD form. It is known to support the 'wasted bits' scheme used in LossyWAV. As encoders are very expensive, its use outside DVD/Blu-ray mastering environments is non-existent. Its main use is encoding surround sound data. | ||
====MPEG-4 ALS==== | ====MPEG-4 ALS==== | ||
MPEG-4 ALS is the successor to LPAC, which it was based on. It has been as a ISO standard and there is a reference encoder/decoder, | MPEG-4 ALS is the successor to LPAC, which it was based on. It has been as a ISO standard and there is a reference encoder/decoder, which also supports floating-point signals. It never gained much popularity. FFmpeg can decode some ALS files. | ||
====MPEG-4 SLS==== | ====MPEG-4 SLS==== | ||
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====Real Lossless==== | ====Real Lossless==== | ||
Just like WMA Lossless and Apple Lossless, it was created to fit in a codec suite, but unlike WMA Lossless and Apple Lossless, there is no hardware support and software support is limited. Compression is on par with most other codecs, but it is rather slow to encode. It is considered obsolete, and Real contributed to the creation of MPEG-4 ALS. | |||
====Oddball formats==== | ====Oddball formats==== | ||
There are a few archaic formats of which encoders and decoders are hard to | There are a few archaic formats of which encoders and decoders are hard to come by. Most of those would have disappeared by now, but some of them are being preserved for posterity at [[User:Rjamorim|rjamorim]]'s [https://www.rarewares.org/rrw/ ReallyRareWares]. | ||
* Advanced Digital Audio (ADA) | * Advanced Digital Audio (ADA) | ||
* [http://www.logarithmic.net/pfh/bonk Bonk] | * [http://www.logarithmic.net/pfh/bonk Bonk] | ||
* AudioZip | * AudioZip | ||
* Dakx WAV | * Dakx WAV | ||
* Entis Lab MIO | * Entis Lab MIO | ||
* LiteWave | * LiteWave | ||
* LPAC | * [http://www.nue.tu-berlin.de/menue/mitarbeiter/ehemalige_mitarbeiter/tilman_liebchen/lpac_-_lossless_audio_codec_for_windows_and_linux/ LPAC] | ||
* Marian's a-Pac | |||
* [http://mp3hd-toolkit.soft32.com/ mp3HD (MPEG-1 Audio Layer III HD)] | |||
* Pegasus SPS | * Pegasus SPS | ||
* [http://www.free-codecs.com/download/rk_audio_compressor.htm RK Audio (RKAU)] | * [http://www.free-codecs.com/download/rk_audio_compressor.htm RK Audio (RKAU)] | ||
* Ogg Squish | * Ogg Squish/Tarkin | ||
* Sonarc | * Sonarc | ||
* VocPack | * VocPack | ||
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''Sorted based on last '''update''' date.'' | ''Sorted based on last '''update''' date.'' | ||
* [http://www.audiograaf.nl/downloads.html Martijn van Beurden's comparison] - tries to compare all codecs and settings with a balanced pool of music (last | * [http://www.audiograaf.nl/downloads.html Martijn van Beurden's comparison] - tries to compare all codecs and settings with a balanced pool of music, with separate sections on hi-res and multichannel material (last version 2023-08-29) | ||
* [http://www.squeezechart.com/audio.html Squeezechart audio] - tests as much codecs as possible, but not all their settings and with a limited test corpus (last updated 2013-10-31) | * [http://www.squeezechart.com/audio.html Squeezechart audio] - tests as much codecs as possible, but not all their settings and with a limited test corpus (last updated 2013-10-31) | ||
* [http://synthetic-soul.co.uk/comparison/lossless/index.asp Synthetic Soul's comparison] (last update 2007-07-28) | * <s>[http://synthetic-soul.co.uk/comparison/lossless/index.asp Synthetic Soul's comparison] (last update 2007-07-28)</s> | ||
* <s>Johan De Bock's speed oriented comparison</s> - best choices speedwise are indicated in green, mostly electronic music (last updated 2006-07-22) | * <s>Johan De Bock's speed oriented comparison</s> - best choices speedwise are indicated in green, mostly electronic music (last updated 2006-07-22) | ||
* <s>Hans Heijden's</s> -- used as reference to build the table (last updated 2006-07-07) | * <s>Hans Heijden's</s> -- used as reference to build the table (last updated 2006-07-07) |
Latest revision as of 08:20, 20 May 2024
The lossless comparison page aims to gather information about lossless codecs available so users can make an informed decision as to what lossless codec to choose for their needs.
Introduction
Given the enormous number of lossless audio compressor choices available, it is a very difficult task to choose the one most suited for each person's needs. Some people take into consideration only compression performance when choosing a codec, but as the following table and article shows, there are several other features worth taking into consideration when making a choice.
For example, users wanting good multiplatform compatibility and robustness (e.g., people sharing live recordings) would favour WavPack or FLAC. Another user, looking for the very highest compression available, would go with OptimFROG. Someone wanting portable support would use FLAC or ALAC, and so on. En fin, this is not a matter worth getting too worked up about. If you later find out the codec you chose isn't the best for your needs, you can just transcompress to another format, without risk of losing quality.
Note: for latest comparison of lossless compression, scroll down to the Links section of this page.
Comparison Table
Features | FLAC | ALAC | WavPack | TAK | Monkey's | WMAL | OptimFROG | TTA |
---|---|---|---|---|---|---|---|---|
Encoding speed[A] | very fast | fast | very fast | very fast | very fast | very fast | moderate | very fast |
Decoding speed[A] | very fast | fast | very fast | very fast | moderate | fast | moderate | fast |
Compression[A][B] | 52.0% | 53.2% | 52.6% | 50.5% | 50.7% | 53.8% | 49.6% | 52.1% |
# presets | 9 | 2 | > 10 | > 10 | 5 | 1 | > 10 | 1 |
Error handling[C] | yes | no | yes | yes | yes[D] | yes | yes | no |
Tagging[E] | Vorbis tags | iTunes | APEv2 | APEv2 | APEv2 | ASF | APEv2 or ID3 | APEv2 or ID3 |
Hardware support | very good | good | limited | no | limited | limited | no | limited |
Software support | very good | good | good | average | good | good | average | good |
Hybrid/lossy | LossyWAV | no | yes | LossyWAV | no | LossyWAV | yes | no |
RIFF chunks | yes | no | yes | yes | yes | no | yes | no |
Streaming | yes | yes | yes | yes | no | yes | yes | yes |
Open source | yes | yes | yes | no[F] | yes | no[F] | no | yes |
Multichannel | yes | yes | yes | yes | yes[G] | yes | no | yes |
OS support[H] | All | All | All | Win/Wine | Win [I] | Win/Mac | Any desktop | All |
Fits in container | Ogg, MKV, MP4, CAF | MKV, MP4, CAF | MKV | - | - | - | - | MKV |
A Speed and Compression are based on each encoder's default settings and taken from the last CDDA results of this comparison. |
B Lower is better: Compression ratio is compressed size/uncompressed size * 100%. |
C Error handling means that a codec can detect a corruption (flipped bit) in a file, warn the user about it, protect output against full-volume static, but it will still decode the rest of the file. |
D The official Monkey's Audio decoder does not support decoding through errors, but this may be achieved with FFmpeg (or Winamp). |
E Tagging ambiguity is generally not desired, as one application might ignore tags written by another, or even reject files. Most APEv2-compatible formats can be tagged with ID3, although not recommended unless for use with a hardware player that cannot read other tag sets, and some applications like Exact Audio Copy can attach an ID3 chunk to any format – including FLAC, which does not support it. All formats but OptimFROG and TTA state either a unique choice of tag set or a clear preferred choice. |
F Unofficial (but properly working) open source decoder is available as part of ffmpeg |
G Since version 4.86 |
H What platform the codec supports or can be played on. Also, most operating systems may offer native support for FLAC and ALAC (Android only FLAC). |
I Currently, Monkey's Audio is available for Windows. Monkey's Audio version 3.99 (stereo, up to 24 bits) is available on all desktop platforms and can be played back on mobile platforms.
CodecsThe most popular lossless codecs, in alphabetical order: Apple Lossless Audio Codec (ALAC)https://alac.macosforge.org/trac ALAC is a codec developed by Apple and used across their hardware and software platforms. ALAC pros
ALAC cons
ALAC Other features Free Lossless Audio Codec (FLAC)FLAC is a lossless codec developed by Josh Coalson. It's part of the Xiph multimedia portfolio, along with Opus, Ogg, Vorbis, Speex and Theora. FLAC pros
FLAC cons
FLAC Other features
Monkey's Audio (APE)Monkey's Audio is a very efficient lossless compressor developed by Matt Ashland. APE pros
APE cons
APE Other features
OptimFROG (OFR)OptimFROG is a lossless format developed by Florin Ghido to become the champion in audio compression. OFR pros
OFR cons
OFR Other features
Tom's verlustfreier Audiokompressor (TAK)http://www.thbeck.de/Tak/Tak.html TAK is a lossless codec developed by Thomas Becker. TAK pros
TAK cons
TAK Other features
True Audio (TTA)TTA is a lossless codec developed by a international team of programmers. TTA pros
TTA cons
TTA Other features
WavPack (WV)WavPack is a fast and featureful lossless codec developed by David Bryant. WV pros
WV cons
WV Other features
Windows Media Audio Lossless (WMAL)https://msdn.microsoft.com/en-us/library/ff819508(v=vs.85).aspx WMA Lossless is the lossless codec developed by Microsoft to be featured in their Windows Media codec portfolio. WMAL pros
WMAL cons
WMAL Other features
Other FormatsAside from the formats mentioned above, there are in fact quite a lot of other lossless formats. To keep the table and list brief and readable, a few formats have not been mentioned. DTS-HD Master AudioSimilar to the MPEG-4 SLS format, this format has a core track in an older, more widely supported format, DTS. This core lossy track is made lossless by a secondary track with correction data. It is an optional codec in Blu-ray implementations. Its main use is surround sound encoding, and as is the case with MLP, the price of the encoder ensures it is only used in mastering of Blu-ray discs. LAhttp://www.lossless-audio.com/ LA features an extremely high compression (on par with OptimFrog highest modes), but never made it out of beta stage and hasn't been updated for more than 20 years. Furthermore, backward compatibility is not guaranteed, so using it for archiving might pose a few problems. It isn't able to cope with file corruption either, software support is very limited and isn't open source. MLP/Dolby TrueHDThe MLP codec (of which the mathematical basis was used in Dolby TrueHD) is the codec used for DVD-Audio. It was mandatory in any HD-DVD implementation and optional for Blu-Ray in its Dolby TrueHD form. It is known to support the 'wasted bits' scheme used in LossyWAV. As encoders are very expensive, its use outside DVD/Blu-ray mastering environments is non-existent. Its main use is encoding surround sound data. MPEG-4 ALSMPEG-4 ALS is the successor to LPAC, which it was based on. It has been as a ISO standard and there is a reference encoder/decoder, which also supports floating-point signals. It never gained much popularity. FFmpeg can decode some ALS files. MPEG-4 SLSMPEG-4 SLS is a special codec, having a AAC core track and a 'correction track'. Also known as HD-AAC, SLS stands for Scalable to Lossless. However, there is to date still no affordable software to play, encode or decode (the lossless part of) SLS files. Shortenhttp://www.etree.org/shncom.html Shorten was one of the first widely-used lossless formats, and it still occasionally found on the internet, especially in archives, for example etree.org. It is quite fast in both encoding and decoding, but doesn't compress very much. Furthermore, seeking has a troubled past as well as tagging. It is considered obsolete. Real LosslessJust like WMA Lossless and Apple Lossless, it was created to fit in a codec suite, but unlike WMA Lossless and Apple Lossless, there is no hardware support and software support is limited. Compression is on par with most other codecs, but it is rather slow to encode. It is considered obsolete, and Real contributed to the creation of MPEG-4 ALS. Oddball formatsThere are a few archaic formats of which encoders and decoders are hard to come by. Most of those would have disappeared by now, but some of them are being preserved for posterity at rjamorim's ReallyRareWares.
See alsoExternal linksOther lossless compressions comparisons Sorted based on last update date.
More on lossless compressions
References |