The 4 most popular audio formats


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Each audio file format has its individual strengths and weaknesses. Find out which one is best for certain tasks or situations; This will save you time and avoid unnecessary mistakes. Next, we will look at the five most common types of audio files and some of their distinctive characteristics and differences.

Audio Formats

1. The M4A audio file format

M4A is a file extension for an audio file in the mpeg-4 format. This is a compressed audio file format used in modern environments. The reason for this is the higher quality standards that result from the use of cloud storage and more local hard drive space on modern computers. Especially for users who have to listen to pronounced sounds in audio files, the high quality of M4A ensures that the format remains relevant compared to other common file types.

Audio format

.M4A files are compressed audio formats used in Apple iTunes.
Music download software, such as Apple iTunes, uses the M4A format instead of MP3 because it is smaller and of higher quality. There are limitations in terms of compatibility, as many software programs cannot recognize the M4A format. This makes it ideal for a single selected user type.

2. The FLAC audio file format

The abbreviation FLAC stands for Free Lossless Audio Codec, which aptly describes files in the FLAC audio format. These are audio files that have been compressed and are smaller than the original file. The sophisticated file type is rarely used as an audio format. Because although it has its advantages, it often requires special downloads to make it work.

If you also consider that audio files are often streamed, this can be associated with considerable inconvenience for any new user receiving such a file.

A .FLAC file is a lossless audio format.

The most important aspect of FLAC is that lossless compression saves size and makes it easy to publish an audio file while maintaining the original quality. Compared to the original audio file, the .flac file requires only sixty percent of storage space. This saves a lot of hard drive space and time to upload and download.

3. The MP3 audio file format

The .mp3 file extension indicates audio files that use the MPEG-Audio Layer 3 format. The most important feature of MP3 files is their compression, which saves valuable storage space while maintaining the sound quality of the original almost flawless. Compression makes the MP3 audio format extremely popular with all portable audio players, especially the Apple iPod.

Due to its high quality and small file size, the .MP3 format also keeps up with newer types of audio files.
Today’s digital landscape is indispensable without MP3, as it is compatible with almost any device that can read types of audio files. Due to its compact size, the MP3 file format is especially suitable for exchanging a large number of audio files. It also works well for websites that host audio files. The popularity of the MP3 format relies heavily on its overall sound quality. Although this is not the highest quality level, MP3 offers enough other advantages to outweigh it.

4. The MP4 audio file format

The MP4 audio format is often mistakenly viewed as an evolution of the MP3 file. But that is a fallacy. Both types of audio files are fundamentally different; the supposed similarities result only from their names, not from their functionality. So, among other things, you should be aware that .mp4 files are sometimes called video files, not audio files. This is not an error because, in fact, the format refers to both audio and video files.

There are many differences between the .MP4 and .MP3 file formats.
The .mp4 audio file type is a full multimedia file extension that can contain audio, video, and other media. In MP4 format, the data is stored in the file, not in the code. This must be taken into account as MP4 files require different codecs to artificially implement the code so that it can be read.


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Comparison of audio formats

What is the best audio format for what purpose?

Comparison of audio formats

All radio and podcast producers are faced with the question: What audio format is best for my shows and contributions? There is usually no simple answer. Each file format and each codec has advantages and disadvantages.

Audio Formats Comparison

Before converting / converting, you need to be clear about what you plan to do with your audio file: Should it be published to the NRWision media library? Is the program designed to broadcast on the Internet or for the home audio system? Should the file be edited again if necessary? Only then can you weigh which audio format and which properties make the most sense.

Audio File Formats comparision

Compress without loss?

You must decide whether you want the best possible sound quality or the smallest possible file size. With some audio codecs, sound is retained at its full bandwidth and without loss. Other codecs compress the file so that it takes up less space or is faster to transfer online. At best, it can still be played on many different devices and players. Depending on the strength of the compression, the sound of music or voice recording may also be audibly affected.

In the case of audio files, information such as sample rate and bit rate always play a role.

The sample rate indicates how often the level is saved per second. CDs, for example, have a sample rate of 44,100 Hz. 44,100 values ​​are stored for one second of music.

Bit transfer rate

Bit rate defines the amount of data that is processed per second. It can be constant or variable and therefore also influences the sound quality.
Important: When converting audio files to other formats, the quality cannot be improved, it only deteriorates or is preserved. With each compression, some of the audio data is lost, although it is not necessarily audible.

Next we present the audio formats and their properties.

MP3

File extension: .mp3

MP3 is probably the most popular and widely used audio format in the world. It became the standard for music files on the Internet more than 20 years ago and has been freely available since 2017. By the way, MP3 was developed by the Fraunhofer Institute in Germany, among others. Raw audio is highly compressed when converted to MP3 files to save storage space. Only what humans can hear should be preserved. You can set the degree of compression, the so-called bit rate. 192 kBit / s (kilobits per second) roughly corresponds to CD quality. At higher bit rates, MP3 files sound lossless to most people. Lower bit rates are used, for example, in Internet radios.

Advantage:
widely used, compatible with many playback devices, high compression

Disadvantage:
possibly loss of audible quality, especially at low bit rates

Wav

File extension: .wav

WAV files are not compressed and therefore take up a lot of storage space. But they can be used well for audio editing and can be easily edited in almost any software.

WAV files were developed for Windows computers in 1991. However, they can also be reproduced and used on other operating systems.

Advantage:
no need to encode / decode when editing

Disadvantage:
very large files

WMA

File extension: .wma

Originally, the WMA (Windows Media Audio) format was supposed to compete with MP3, but it could not be established equally. Audio data is also compressed here, if possible without audible loss.

Some versions of WMA files may contain a certificate key to prevent piracy.

Advantage:
good compression with high sound quality

Disadvantages:
not very widespread, only supported by a few players

AAC (advanced audio coding)

File extension: .aac

This audio format is considered the successor to the MP3 format. With the AAC format, developers have managed to further reduce memory size while maintaining the best possible sound quality.

The AAC process is being used with increasing frequency on music websites, Internet radio stations, and as a soundtrack format for video files.

Advantage:
very good compression, small files with high audio quality

Disadvantage:
not yet compatible with all programs and devices

Ogg

File extension: .ogg

In Ogg files, there is actually a container format. In addition to compressed audio, it can also contain video and text data. Also, Ogg files can be used well as an online stream. Even so, the format never prevailed against MP3 among home users.

Advantage:
small file size with good sound quality, no license

Disadvantage:
not compatible with many programs, must be converted for audio processing

FLAC (Free Lossless Audio Codec)

File extension: .flac

The name already gives it away: the FLAC codec is freely available and compresses audio files without loss of quality. The format is mainly used for music that can be faithfully reproduced thanks to FLAC. More and more players support FLAC files, sometimes just with the help of a plugin.

The FLAC codec makes audio files 30 to 60 percent smaller. This makes them much larger than MP3 files. To do this, you can decode it and thus restore the original data without loss.

Advantage:
no loss, no license

Disadvantage:
relatively large files, not natively supported by all players

Opus

File extension: .opus

The latest file format from our overview should become the Internet audio standard. Opus is developed openly and has several advantages. The audio codec significantly reduces the bit rate again. The quality of music and language is preserved as best as possible. Additionally, Opus files can be streamed and contain metadata.

Opus plays practically no role (yet) in audio processing. We are curious to see if and how the format will prevail for years to come.

Audio formats

Before you know the audio formats, know that they are divided into two main groups: the compressed and the uncompressed.

audio formats

Uncompressed formats are those in which the audio quality is assessed and without loss of information, which guarantees that the audios are practically identical to the real ones. Tablets reduce the original file size, taking up less space on your computer or cell phone memory. However, the quality and information may be compromised.

audio format

It is worth mentioning that it is not just a good format that guarantees that the end result will be of excellent sound quality. You need to do your part, too, using good audio software to make the necessary changes and “cleanup,” as well as using quality equipment to record your voice.

1. Advanced Audio Coding (AAC)

It is considered the main competitor to the most famous format on the Internet, MP3, and is commonly used on Apple devices, based on the MPEG-4 standard.

Compared to MP3, AAC has more flexibility, which means you will experience less data loss and quality when compressed. Also, it has a better level at lower bit rates, such as 128 kbps.

2. OGG Vorbis

This is a non-proprietary format, that is, they have no restrictions for audio players to play it. Also, it has a better compression rate than MP3, however it is not as well known or advertised.

It is widely used in game audio, because among other qualities, it brings open source, which provides greater customization, but is difficult to standardize. Its audio quality is quite satisfactory.

3. MP3

Considered the most popular audio format in the world, MP3 offers high compatibility, allowing music and audio to be played in virtually any program or media player.

It was created in Germany and uses the so-called perceptual encoding, which encodes only the sounds that humans can hear. Of all, it manages to be the most balanced in terms of quality versus size.

It may get to lower bit rates, but there may be a final quality loss.

4. WMA

This is Microsoft’s standard format and also quite popular. Unlike MP3, WMA allows the creation of content-protected copies, thus preventing your music or other audio productions from being pirated.

Microsoft’s proposal is that the format achieve a sound property equivalent to that of MP3, but in a much smaller size. In practice, this does not happen, but at low bit rates the result is very similar.

It offers four codecs:

Standard WMA: acts as an MP3 repeater;
WMA Pro: guarantees higher definition audio;
WMA Lossless: allows file compression without loss of quality;
WMA Voice – Aimed at low bit rate voice recordings.

5. MP2

Although it already has a successor, MP2 is still widely used, being the standard format for transmitting radio and television audio. It is a file extension for MPEG -1 layer II playback (MP3 plays in MPEG -1/2 layer III).

One of the attributes of the MP2 is that it still has great compatibility, as well as fewer errors than its successor. In addition to having better performance in audios with higher bit rates.

6. Real Audio

RealNetworks proprietary format. They have multiple audio codecs and great performance for those with low bit rates. It was constantly used in dial-up modems, hi-fi formats for music and streaming, as is the case with web radio.

RealNetworks is an internet provider that works with streaming services. It was founded by a former Microsoft executive and also offers entertainment services through subscriptions.

7. Audio Coding 3 (AC3)

Created in 1983 by Dolby Laboratories, AC3 is primarily used in DVDs, Blu-ray players, home theaters, and HDTV playback. It can reproduce frequencies between 20 and 20,000 Hz, which is equivalent to the human audible sound.

Therefore, the AC3 can reproduce unique and detailed sounds, with very good quality. Its bit rate goes up to 640kpbs and its display speed goes up to 48kHz.

8. WAV

One of the best characteristics of this format is that it has a high sound fidelity rate, that is, it faithfully reproduces what was recorded without compression or loss of data.

It is widely used by those who work with audio editing, since it will be able to manipulate the real sound and without any interference. It is also considered for those who need more definition and sound fidelity as possible for their productions.

Mp3, the winner

In the era of broadband connections, fiber optics and HD videos on YouTube, MP3 remains the reference format for audio files. We are now so used to listening to music in compressed formats, and often through poor quality playback systems, that it is difficult for us to remember what listening to music really means. The recent evolution from download to hit-and-run streaming has only made the situation worse by further devaluing the value of music. When was the last time you listened to a record from start to finish without interruption, spending those 30-40 minutes on “simple” listening activity?

Audio formats

Premise: This post is not a crusade against Spotify because I use it myself for new releases or to have some background music at work, it is not even an analog vs. digital (or vinyl vs. CD vs. MP3) post because on this topic en Much has already been said. My goal is to make you understand what you are missing, in qualitative terms, if you listen to music in compressed formats.

Audio formats

Sampling and theoretical aspects.

Audio recording on a computer or digital medium assumes that the signal passes through an analog> digital (AD) converter, so that the continuous electrical signal generated by microphones or musical instruments is transformed into a digital signal (series of 0 and 1) This process is called sampling. The final quality of the recording depends on several factors: converter quality, sample rate, and bit depth.

To make an easily understandable comparison: When shooting a movie, the “analog” reality perceived by our eye is stored in a movie that takes 24 frames per second. If we consider the standard of the audio CD (44.1 kHz, 16 bits), for every second of music 44100 pictures are taken from the computer to the continuous electrical signal. If with the sampling frequency we have simply established how many times in a second the waveform will be analyzed, with the bit depth we assign to each sample a numerical value: 2 ^ 16 = 65,536 possible values.

If you wonder how it got to 44,100, I refer you to the Nyquist-Shannon sampling theorem.

When we press the record button on our computer, through the PCM (pulse code modulation) sampling process described above, the files are saved in uncompressed WAV or AIFF format.

Lossless files and lossy files

PCM files take up a lot of space on our hard drives because, as we have seen, there is the data necessary to describe the analog waveform in as much detail as possible. Indicatively, a WAV or AIFF file as audio CD will occupy 10 MB for every minute of music.

To overcome this problem, remember that in the early 2000s storage space cost around $ 10 / GB, while today the price is around $ 0.03 / GB (source): Audio formats have been introduced that , through an algorithm encodes and decodes information, reduces the size of the file. These codecs fall into two categories: formats with lossless compression and formats with lossy compression.

As the name implies, lossless compression indicates a reduction in file weight (usually around 50%) without loss of information. Leaving the world of audio aside for a second, ZIP and RAR files are clear examples of this type of compression: at any time we can “unzip” such a file and have access to the original information again without this no way has changed.

The most common file formats are: FLAC (Free Lossless Audio Codec) and ALAC (Apple Lossless Audio Codec).

Lossy compression, on the other hand, implies that some of the original audio information is somehow removed to obtain a file that weighs even 90% less than the PCM.

By what criteria is information removed without “compromising” the original audio too much? Since our hearing is an imperfect instrument, codecs exploit two principles of psychoacoustics: the minimum threshold of audibility (the human ear does not perceive all frequencies in the range between 20Hz and 20kHZ equally) and masking (a weaker sound). is masked, making it inaudible, by a louder sound.)

Compression algorithms, however advanced, introduce a number of artifacts into audio files that, if played back in discrete quality audio systems, can be easily recognized or at least noticed even by an inexperienced ear. Several studies have shown that an untrained ear does not distinguish the difference between an uncompressed file and an MP3 with a bit rate equal to 256kb / s or more.

The most common lossy formats are: MP3, OGG Vorbis, AAC.

The victory of MP3

Since its introduction in the mid-1990s, MP3 has established itself as the industry-standard consumer format fueled by file-sharing through peer-to-peer channels, where, with slow connections, the heaviest file was the one it was downloaded, the longer it took to obtain it, and since the market introduction of MP3 players in which we tried to store as much music as possible and, therefore, we resorted to very compressed files.

In the transition from the era of downloading to that of small transmission files, they ensure smoother and smoother data transmission.

Despite, therefore, the evolution that has taken place in recent years in the speed of Internet connections and the reduction in the price of storage systems, only in recent years have services been created to buy files from High-quality online audio (HD tracks) or HD streaming services (Tidal).

Examples and audio files.

The main services we use to buy or listen to music use these compression levels (all information is taken from the official websites of each service at the time this publication was written).

Spotify: OGG Vorbis files at 96 kb / s (normal mobile quality), 160 kb / s (normal desktop and web player quality, high mobile quality), 320 kb / s (premium users: high desktop quality, very high quality mobile).
iTunes: By default, CDs are imported into 128 kb / s AAC files. Files in the iTunes Store are of this quality, except for “iTunes Plus” songs converted to AAC at 256 kb / s.
Pandora: 64kb / s AAC (free users), 192kb / s AAC (premium users).
YouTube: HD videos (720 or 1080p) have an audio quality equal to 384kb / s, SD videos (360, 480p) have an audio quality equal to 128kb / s.

An overview of the main audio formats that can be found on your computer

Codec for mp3, mpc, flac, mono, ogg vorbis and more.

For convenience, audio formats can be divided into unprofitable (unprofitable) and unprofitable (or unprofitable without losing quality).

The idea of ​​loss formats (most common among ordinary users) stems from the idea that the human ear misunderstands all the sounds that are in a standard WAV file at 44,100 samples per second.

In this way (as in the JPG format of the images) we will drop the high frequencies, which are thought to be less different from our hearing. The more these frequencies are reduced, the more space is allocated to our track (for example, 3 MB instead of 6 MB for a few minutes of song or much more) … but it also degrades the quality of the result, as the cut frequencies are no longer so “inaudible”.

Converting to WAV from lossy formats does not provide any benefit (unless you have to process the track and save it several times, in which case the quality loss will be limited to the first step); There are also programs that are able to bring some of these high frequencies back into our tracks, such as Steinberg Clean Plus or others (such as the first versions of Easy CD Creator or other, even more professional ones), but by doing the job properly , more than No they can do a lot.

Unbearable (lossy) formats try to reduce the space occupied by the track without touching the sound; the degree of compression will be much less than the loss, but there will be no loss of quality. If it is converted back to WAV (possibly processed), the sound will be identical to the previous one.

wav

To listen to audio tracks in various formats, we recommend using audio players that can support different formats, such as AIMP and Foobar2000.

Lost audio formats (lossy quality)

WMA (.wma): Windows Media audio format, compressed and very similar to mp3. Microsoft audio compression format. Files compressed in this format are approximately 20% smaller than MP3 files

MP3 (.mp3) is briefly suitable for the MPEG 1 III layer and identifies audio files that use this algorithm. This is a standard that removes inaudible sounds from the human ear. This way the 128 kbps mp3 track takes up 1/11 of its space in .wav or audio CD format.
Some rate 128-bit bits as “CD quality”; In fact, the frequencies that are reduced to save hard disk space are not so “inaudible”. 192 The results are starting to get good and at only 320 kbps we can talk about the quality of CDs … Until a few years ago the quality of mp3 was considered high, but now with the advent of more modern sound cards, 24 bits: we continue to use mp3 compared to other formats like like ogg or mpc, more for its diffusion and compatibility than the quality of the result. A 600 MB album in wav format will take up about 50 MB in 128 mp3 format.

To convert an audio track to mp3, it’s a good idea to use the Lame mp3 codec (free) in all the best conversion programs (download).

AAC audio format

AAC (.aac and .mp4): A lossy format that delivers high quality (currently the highest among lossy formats), at least one step higher than mp3. A feature of this format is the ability to protect DRM from being freely copied from one platform to another (unless applications are used to protect it).

AC3 (ac3). This is the audio format used by DVDs. We usually find it at 384 kbps (and 6 channels), but it is also possible that you only have it at 2 channels and lower speeds. One of the free programs that supports it (and allows, for example, to reduce the bit rate) is BeLight (Besweet).

OGG VORBIS (.ogg) is a great open source codec. It is able to give better results than mp3, especially at low bit rates (higher quality, less space), which is less than 128 kbps (download). It is compatible with virtually all audio players (both software and audio).

MusePack (.mpc): Very large output format, especially at high bit rates (more than 192 kbps and above). The results are much better than mp3: just listen to one 192 kbps mp3 encoded track and one mpc track at the same bit rate to immediately feel the difference (in some cases without words …). Many people considered this to be the best lossy audio format, at least until mp4 was released. It is compatible with WinAmp through plug-ins and, on average, with more advanced players such as Foobar 2000.

Digital audio formats

Digital audio formats

Below is a non-exhaustive list of the most widely used digital audio formats.

AIFF – Audio Exchange File Format

Apple uses a standard audio format. This can be considered the wav equivalent of a mac environment. Audio data is organized according to PCM encoding and is not compressed. There is also a condensed option defined as AIFF-C or AIFC.

AAC – Advanced Audio Encoding

This format is based on MPEG2 and MPEG4 lossy compression standards. It was created as a successor to the mp3 format, which uses a slightly better algorithm. This allows you to get slightly better quality for the same speed.

ALAC – Apple Lossless Audio Codec

This is Apple’s lossless audio format. Also called ALE (Apple Lossless Encoder).

ATRAC (.mp3) – acoustic coding of adaptive transformation

Old Sony audio format with ATRAC compression. Files always have a .mp3 extension, but you need the ATRAC3 driver to open them. MiniDisc was a commercial advertising product that took advantage of this type of format. The codec was later improved by subsequent enhancements such as ATRAC3 (1999), ATRAC3plus (2002), and ATRAC Advanced Lossless (2006).

AS

This is the standard audio format used by Sun, Unix, and Java operating systems. Data encoding can be PCM (uncompressed) or compressed with μ-law, a-law G729 codecs. The Au audio format was introduced by Sun Microsystems. It was a format used on NeXT systems and early websites. Initially, the file did not have a header (the original data from the file) because the encoding was unique: 8 bits with µ-law compression and a sampling rate of 8000 Hz. The latest version of this format contains a header consisting of six blocks. 32 bits, an optional block of information, and finally audio data.

flac

FLAC is a free lossless audio codec

It is an audio codec with lossy compression (without losing information). Data compression can reach 50-60% without losing quality.

M4P

It is a patented version of the MP4 AAC format with a DRM (Digital Rights Management) system developed by Apple to download music from the iTunes Music Store.

MPEG-4 Part 14 or MP4 (formerly ISO / IEC 14496-14: 2003) is a storage medium for multimedia data. It is mainly used to store audio / video data, but can also be used to store other types of data, such as still images and subtitles. Like all modern formats, this format allows data to be sent over the Internet in real time: this feature is implemented by adding a data path for transmission control. The only extension for files that use this codec is .mp4.

mp3

MP3 – MPEG layer III audio recording

It is currently the most widely used audio format. The MPEG-1 or MPEG-2 III audio layer, commonly referred to as MP3, is a patented lossy format. It is used for digital music use at the user (non-professional) level.

OGG

It is an open source container that supports a variety of formats, the best known being the Vorbis audio format. This format offers MP3-like audio compression, but is less common. The big difference with mp3 is the absolute free format. In terms of performance, with the same parameters, Vorbis is slightly more efficient than MP3.

The Ogg cache can handle multiple independent streams at the same time: audio, video, text (such as subtitles), and additional data (metadata).

RA and RM

This is a format developed by Real Audio to transmit audio over the Internet. The .Ra format allows you to store all the audio files you want to transfer in one file. The codec enables transmission from very low quality to high accuracy.

RAW

A RAW file can contain any type of data, but in reality it is mainly used for PCM-encoded (uncompressed) audio data. Thus, unlike the uncompressed audio format (wav, aiff), a flat file does not contain headers with information about the data itself (usually the header contains information about: sampling rate, quantitative bits, channels, type of markup used for the ideas). A typical file extension for this type is: .raw, .pcm, without the extension.

Vox

This audio format uses Dialogic ADPCM (Adaptive Differential Pulse Code Modulation). This performs 4. compression. Vox files are similar to wave files, except that they do not have a header, so you need to specify frequency information.

MAIN AUDIO FORMATS

MAIN AUDIO FORMATS

Even the audio formats differ in their versatility and level of compression, and even if they are not as numerous as the video formats, it is better to look at the properties to get satisfactory results according to the requirements of our work.

Microsoft Wave [Extension: WAV] It is Microsoft’s proprietary format and is certainly the most widely used. This diffusion depends on commercial aspects and the fact that it is the most supported among the competitors. It has various compressions and is a versatile and highly editable format. For this reason, it is suitable for general digital audio, both for multimedia publications (although there are certainly better formats) and for desktop video (real standard). An excellent program for processing wave files (but also other formats) is CoolEdit.

audio format

MPEG Audio (extension: MPG / MP3) MP3 stands for MPEG1 Layer3. The MPEG algorithm, the basis of MP3, emerged from the need to develop a world standard for the representation of moving images and audio. This standard was developed in 1988 for the treatment of audio and video signals and has the special feature of compressing files and reducing them by 12 times compared to their natural size.

This high-compression format is based in particular on theories of psychoacoustics: each individual has a hearing that is sensitive to frequencies from 20 Hz to 20 kHz, and in particular the man perceives sounds between 2 and 4 kHz better. In addition, some sounds mask nearby frequencies so that you cannot hear all of the sounds.

audio format

These considerations have led to the development of an algorithm that eliminates all “redundant” noise for the human ear and achieves a high level of file compression and sound quality that is comparable to the digital and can be downloaded directly to your PC.

MP3 enables good results, making small and high quality playback compatible. An established audio standard is the MPEG Layer3 version, which produces very small files of excellent quality, an excellent compromise when duplicating and creating audio files on CD. The XingMPEG encoder is an excellent software for creating MP3s.

Given the prevalence and importance of the topic on a legal level, let’s find out what it is and what benefits we can achieve by using this MPEG format.

An audio CD generally contains 60 to 78 minutes and is characterized by a quantization level of 16 bits and a sampling rate of 44.1 kHz, ie 44,100 samples per second. The quantization level describes the maximum number of intensity levels that a single sample can hold: for example 8 bits = 256 levels (28), 16 bits = 65,356 levels (216). The higher the number of levels that the signal can assume, the more precise the signal reproduction.

There is approximately 650 MB of data on a normal audio CD.

Conventionally, to reduce the size, we can work in two ways: 1) Reduce the quantization: that is, convert the samples from 16 bits to 8 bits, but lose the dynamics, quality and get a lot of noise; 2) Reduce the sampling frequency. As a result, the frequency range would decrease in the event of a loss of resolution.

The MPEG format, on the other hand, reduces the amount of information stored and therefore significantly reduces the size of the files by filtering out unimportant audio information according to the models developed on this basis. From research on the perception of the human ear, you decide which information is important and which is not . These studies have enabled us to know how our brain analyzes sounds, except irrelevant ones that are imperceptible (e.g. ultrasound).

The MPEG audio format also performs this process of removing intelligent weak signals. So if there is a strong signal, the weakest signal is not perceived.

When using a high compression rate, the MPEG encoder eliminates parts of audible information that are still of minor importance. With a slight compression rate, the difference to the uncompressed original is minimal.

Layers I, II, III can be viewed as the layers through which the MPEG format has evolved. All layers are based on the same perceptual coding scheme, the complexity of which increases for each of them. Layer II has superior quality at lower bit rates than Layer I; However, the most complex coding system currently available is Layer III,

 

MP4 (Extension: MP4) is an audio compression technology recently launched by Global Music Outlet (GMO) under license from AT&T Labs (January 99). As you understand, it is a further development of the MP3 format and seems to offer the ability to offer it a higher compression factor, which should even reach a factor of 16. Although the name is very similar, conceptually it has nothing to do with layer 3 and is actually in direct competition with it. Compressed MP4 files are presented as executable Win9x or WinNT files and offer the relatively encapsulated player.

Audio exchange (extension: AIF / AIFF) Format created to standardize the various audio standards between PC and Machintosh.

Microsoft NetShow (Extension: ASF) Audio extension of the format for streaming audio / video on the web.

Yamaha SoundVQ [Extension: VQF] Audio format released by Yamaha in direct competition with MP3.

Everything you need to know about audio files … compressed and uncompressed

Everything you need to know about audio files … compressed and uncompressed

Regardless of whether you’re listening to MP3 files or high-definition audio, it’s time to find out exactly which file format is best for your needs.

audio formats

As you organize your digital music collection, you may be impressed by the number of different audio file formats you have collected over the years. For this reason (and since a good review doesn’t hurt anyone) we’d like to deepen the discussion of the most common audio file formats, explain the differences and explain why you should be interested in learning more about them. Whether you’re listening to low quality MP3 files, slightly better AAC tracks, or high definition audio in FLAC or WAV, it’s time to find out exactly what you’re dealing with and which file format best suits your needs.

formats and codecs

File formats and codecs

Below is a list of all common audio file formats and the differences between them.

-AAC (no high resolution): Apple’s alternative to MP3. It’s a compressed audio format, but it sounds better than MP3 and is used to download music from iTunes and stream via Apple Music.

-AIFF (high resolution): Apple’s alternative to WAV, but with better metadata support. It’s an uncompressed and lossless format, but it’s not very popular.

-DSD (High Resolution) – The uncompressed single bit format for super audio CDs. It is available in the 2.8 MHz, 5.6 MHz and 11.2 MHz variants, but due to its high-quality codec it is (currently) not suitable for streaming.

-FLAC (High Resolution) – This lossless compression format supports high-resolution sampling rates, takes up about half the WAV space, and stores metadata. It is license-free and is the preferred format for downloading and storing albums in high resolution or CD quality. The disadvantage is that it is not compatible with Apple (therefore it is not compatible with iTunes).

-MP3 (not high definition): Lossy, compressed format that guarantees small file sizes, but is far from the best possible audio quality. However, it is still very convenient for storing music on smartphones and other mobile devices and is widely used.

-MQA (High Resolution) – A lossless compression format with high resolution files for more efficient transmission. It is used for high-resolution streaming from Tidal Masters and other similar services.

-OGG (not high resolution): Sometimes you can find him by his full name, Ogg Vorbis. An open source and compressed alternative to MP3 and AAC that is not limited by patents. This format is used (at 320 kbit / s) to stream Spotify.

-WAV (High Resolution) – The standard format in which all audio CDs are encoded. Excellent sound quality and no compression, which means large files (especially for high-resolution files). However, metadata (album art, artist information, and song title) are hardly supported.

-WMA Lossless – An uncompressed embodiment of Windows Media Audio, but is no longer supported by smartphones or tablets.

The 10 most common audio formats: which one to use?

The 10 most common audio formats: which one to use?

Audio files are available in all types and sizes. And although we are all familiar with MP3, what do you think of AAC, FLAC, OGG or WMA? Why are there so many audio standards? Which are important and which to ignore?

It’s actually quite easy to find that all audio formats fall into three main categories. Once you know what the categories mean, you can simply choose a format within the category that best suits your needs.

Uncompressed audio formats

Uncompressed audio consists of actual sound waves that have been captured without further processing and converted into a digital format. As a result, uncompressed audio files are usually the most accurate, but take up a lot of space, about 34MB per minute for 96-bit and 96-bit stereo.

Audio file format: PCM

PCM stands for Pulse Code Modulation, a digital representation of analog audio signals. Analog tones exist as waveforms, and in order to convert a waveform into digital bits, the tone must be sampled and recorded at certain intervals (or pulses).

This digital audio format has a “sample rate” (how often a sample is taken) and a “bit depth” (how many bits are used to represent each sample). No compression is required. The digital recording is an almost exact representation of the analog sound.

PCM is the most common audio format used on CD and DVD. There is a PCM subtype called Linear Pulse Code Modulation, in which samples are taken at linear intervals. LPCM is the most common form of PCM, so the two terms are almost interchangeable at this point.

Audio file format: WAV

WAV stands for Waveform Audio File Format (at some point also called Audio for Windows, but no longer). It is a standard developed by Microsoft and IBM in 1991.

audio formats

Many people believe that all WAV files are uncompressed audio files, but that’s not exactly true. WAV is actually a Windows container for various audio formats. This means that a WAV file may contain compressed audio, but this is rarely used.

Most WAV files contain uncompressed audio in PCM format. The WAV file is just a container for PCM encoding, so it is more suitable for use on Windows systems. However, Mac systems can generally open WAV files with ease.

Audio file format: AIFF

AIFF stands for Audio Interchange File Format. Similar to how Microsoft and IBM developed WAV for Windows, AIFF is a format developed by Apple for Mac systems in 1988.

Similar to WAV files, AIFF files can contain several types of audio formats. For example, there is a compressed version called AIFF-C and another version called Apple Loops that is used by GarageBand and Logic Audio. Both use the same AIFF extension.

Most AIFF files contain uncompressed audio in PCM format. The AIFF file is just a container for PCM encoding, making it more suitable for use on Mac systems. However, Windows systems can generally open AIFF files with ease.

Lossy compression audio formats.

Lossy compression occurs when some data is lost during the compression process. Compression is important because uncompressed audio takes up a lot of space.

In other words, lossy compression means that the sound quality and fidelity for smaller files are affected. If you are hurt, you will hear artifacts and other oddities in the audio. But if done correctly, you won’t feel the difference.

Audio file format: MP3

MP3 stands for MPEG-1 Audio Layer 3. It was released in 1993 and is becoming increasingly popular. It is the world’s most popular audio format for music files. There is a reason why we had “MP3 players” but no “OGG players”!

The main purpose of MP3 is in three ways: 1) removing all audio that is out of the normal human hearing range, and 2) reducing the quality of inaudible sounds, then 3) compressing all the other audio as efficiently as possible.

Almost every digital device in the world with audio playback can read and play MP3 files, be it PC, Mac, Android, iPhone, Smart TV or anything else. If you need a universal device, MP3 will never disappoint you.

Note: MP3 is not the same as MP4!

 

Audio file format: AAC

AAC stands for Advanced Audio Coding. It was developed in 1997 as the successor to MP3 and although it has become popular as a format to be used, it has never surpassed MP3 as the most popular.

The compression algorithm used by AAC is much more advanced and technical than MP3. So if you compare the same recording in MP3 and AAC format with the same bit rates, the AAC generally has better audio quality.

Although MP3 is a more popular format, AAC is still widely used today. In fact, this is the standard audio compression method used by YouTube, Android, iOS, iTunes, later Nintendo laptops, and later PlayStation.

Audio file format: OGG (Vorbis)

OGG represents nothing. In fact, it’s not even a compression format. OGG is a multimedia container that can contain all types of compression formats. However, Vorbis files are most commonly used. Therefore, these audio files are called Ogg Vorbis files.

Vorbis was first released in 2000 and is growing in popularity for two reasons: 1) it conforms to the principles of open source software and 2) it works significantly better than most other lossy compression formats (ie) this results in a smaller file size for an equivalent sound quality.

MP3 and AAC are so strong that OGG struggles to get into the spotlight – not many devices support them natively, but they do improve over time. It is currently used primarily by supporters of hardcore open source software.

Audio file format: WMA (lossy)

WMA stands for Windows Media Audio. It was first published in 1999 and has gone through several developments since then, always keeping the same name and WMA extension. It is a proprietary format created by Microsoft.

Similar to AAC and OGG, WMA should fix some of the errors in the MP3 compression method, and it turns out that WMA’s approach to compression is very similar to that of AAC and OGG. Yes, in terms of the quality of objective compression, WMA is really better than MP3.

However, since WMA is proprietary, it is not supported by many devices and platforms. In addition, it offers no real advantage over AAC or OGG. If MP3 is not good enough, it is only more practical to use one instead of WMA.

Audio formats with lossless compression.

The opposite lossy compression is lossless compression, in which the size of an audio file is reduced without loss of data between the source audio file and the compressed audio file.

The disadvantage is that lossless compressed audio files are larger than lossy compressed audio files, up to 2 times 5 times larger for the same source file.

Audio file format: FLAC

FLAC is an abbreviation for Free Lossless Audio Codec. Maybe a bit on the nose, but it has quickly become one of the most popular lossless formats since its launch in 2001.

The good news is that FLAC can compress an original source file by up to 60 percent without losing a single bit of data. What’s even better is that FLAC is a free, open source audio file format, so there are no intellectual property restrictions.

FLAC is compatible with most major programs and devices and is the primary alternative to MP3 for music. You basically get the full quality of uncompressed audio with half the file size. That is why many see FLAC as the best audio format.

Audio file format: ALAC

ALAC stands for Apple Lossless Audio Codec. It was developed and published as a proprietary format in 2004, but became open source and copyright-free in 2011. ALAC is sometimes referred to as Apple Lossless.

While ALAC is good, it is somewhat less efficient than FLAC in terms of compression. However, Apple users cannot choose between the two, as iTunes and iOS offer native support for ALAC and no support for FLAC.

Audio file format: WMA (lossless)

WMA stands for Windows Media Audio. We already discussed this in the lossy compression section, but we explained this here because there is a lossless alternative called WMA Lossless that uses the same extension. Confused, I know.

Compared to FLAC and ALAC, WMA Lossless is the worst compression efficiency, but not much. Since it is a proprietary format, it is not suitable for open source software enthusiasts, but is natively supported on Windows and Mac systems.

The most used audio formats

The most used audio formats

audio formats

As you can imagine, when we talk about digital formats in the field of sound, the range is wide. When choosing the one that best suits our needs, we need to think about several questions. To do this, the first thing to do is to know the most used audio formats.

We start by clarifying the concepts of bit depth and sample rate, which are essential for understanding how audio formats work. These are two measurements that indicate the quality of a digital audio file.

When we read the specifications for audio formats and find, for example, 32 bit / 192 kHz and 24 bit / 96 kHz, these figures refer to “bit depth” and “sampling frequency”, respectively. They tell us the amount of information transmitted by the different formats and the quality of the sound. The more times a device reads samples, the higher the quality.

audio format

Audio formats

-MP3: These files weigh very little for any device to read. The downside is that the quality of compression is sacrificed.
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-WAV (Waveform Audio File Format): These are higher resolution files than MP3, an audio track which is coded with what is called Pulse Code Modulation (PCM). Analog audio tracks are encoded and converted to digital so that they can have sample rates and bit depth.

-AIFF (Audio Interchange File Format): it is very similar to WAV and also uses PCM to encode analog audio tracks and present them in digital format. Indeed, AIFF and WAV files are more or less interchangeable.
In short, when we talk about a file in WAV or AIFF audio format, we are talking about a good quality piece of sound.