Audio formats for sound quality.


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Audio formats for sound quality.

Audio Formats

The term “audio” today means everything that is somehow connected with sound. This is processing, playing, mixing and simply listening to audio recordings. Few people know that during their existence, all popular audio formats have undergone significant changes, sometimes for the better, and sometimes even for the worse.

audio formats

The problem is that when the creators tried to improve the recording quality by using the new format, the size of the result increased significantly. Reducing the size of the final file resulted in a significant loss of quality. But this was not always the case.
The first audio format used in computer games.

The first mention of computer sound is associated with the creation of several primitive video games. Then the sound was played back using the speaker of the system. As the software developers of that time did not try, it was impossible to achieve the level of quality that would be compatible with tape and reel recorders. This is what got many developers thinking about how to change the audio format to make the sound more natural and natural. It is this problem that has led to the current competition in the audio market. As a result, the formats used strongly affect the quality of the reproduced material and the configuration of the basic playback parameters.

WAV format

The first full quality of audio formats is associated with this particular format. The WAV extension designation was derived from the English word “wave”, which means wave in Russian. It was this format that became the first audio format to be processed with computer programs at a highly professional level. Files with a WAV extension had the following characteristics:

– depth of sound;
– sampling frequency;
– bit rate, etc.

This format was even compatible with the sound that could be obtained after processing an audio CD with an equalizer and other tools. However, the file size in this case was completely unwarranted. For example, the most common 3 minute long track could be up to 50 megabytes long.

CD

Audio CDs, or more exactly the .cda extension, appeared almost at the same time as the wav format. But unlike files with the wav extension, .cda cannot be edited. But it can be opened in any audio processing program, transcoded and formatted, and saved to your hard drive. Of course, you will not be able to save your changes to the CD.

MP3 codec

After the introduction of the LAME MP3 Encoder codec in the music industry, there was a real revolution in the audio world. Now the audio files are ten times smaller. At maximum compression, the size of a five minute composition rarely exceeds 7MB. This was a significant advance. Also, this extension finally implemented the ability to tweak some features and configure additional parameters, such as ID3 tags. They can contain information about the track title, artist, album, and release date.

Of course, this format immediately became widespread. Almost the entire Internet community uses this universal format. Therefore, we can say that the MP3 format has been a real revolution in the field of computer sound. Today it is one of the most demanded and popular audio formats. Although today it is already being replaced by other audio formats. But we will talk about this a bit later.

AIFF files

There are other types of audio files. This is the so-called aiff format. This format was originally created for use on Macintosh computers. A little later, a transformation occurred, as a result of which it was possible to achieve the compatibility of various audio formats and the possibility of their use on different platforms and operating systems.

OGG format

This audio format is also quite common. It was developed by the specialists of the Vorbis company. Please note that this format has several disadvantages. First of all, despite the small size of the files, using this format places a heavy load on the computer’s system resources.

Also, to work with this audio format, you must use your own decoders and codecs, which may not be installed automatically. For example, those who worked with the FL Studio Producer Edition program had to manually activate the installation file in .inf format to work with this format. Otherwise this app just won’t play OGG files. Despite all these shortcomings, OGG audio files are quite common nowadays and they sound good.


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Audio formats: rating and benefits

Audio formats: rating and benefits

Audio Formats

As actual field studies have shown, a good idea to rank the top ten audio formats turned out to be an impossible task at first.

Audio formats

Competition conditions too different for unequal participants. In addition, some corruption schemes or lobbyists of transnational companies in the field of audio recording interfere in our good cause to help people choose the best sound product.

The world’s most popular MP3 format reached the leaders of popular love solely due to multi-million dollar promotional investments. And if you take the sound quality, then regular. And even in terms of compression and disk space savings, it’s not the highest compression either.

Therefore, a compromise decision was made: divide the test subjects into three groups and compare and identify the leaders by groups.

Three types of audio formats
No compression.
Lossless compression.
Lossy compression.
Uncompressed audio recording formats show their best performance only on high-quality professional audio equipment.

If you have an inexpensive tablet or smartphone in your hands, then wonderful music will sound on your device, but you will not hear it simply because the hardware and software resource and the speakers or headphones cannot reproduce such high sound quality.

On the other hand, if you start MP3 sound recording through professional stereos and amplifiers, you will hear such noise and rattle from the speakers that, again, this type of use is completely meaningless.

Audio classification by type of sound reproduction equipment
For professional equipment, uncompressed audio formats.
For semi-professional teams, compressed audio formats. But without loss.
For inexpensive equipment: lossy and compressed audio formats.
In the first case, the hardware is so expensive that it is ridiculous to worry about saving money on media.

In the second case, the owner of an Apple device for a thousand dollars will obviously be able to call himself and spend a couple of hundred dollars on a bulky memory.

In the third case, since it has hardly been possible to raise money for a cheap smartphone, saving on the size of the stored music is very important. Well, no one is going to listen to a symphony orchestra in Hi-Fi on the phone anyway. Unless you can download a ringtone from the classics for fun to make it look like a fresh bell pepper to the eyes of tomatoes.

With this concludes the overture, we begin to present the subject.

Audio formats for high quality sound
This includes uncompressed formats.

PCM – Pulse Code Modulation. The original analog audio is sampled as is, without any modification.
PCM is the most common audio recording format used on CDs and DVDs. Dolby multi-channel, surround, subject to high-quality speakers, sounding almost one-on-one with a live performance.

If you like to sit in front of a home theater and immerse yourself in empathy for the main and supporting characters in the movie, this is it.

Wav
A fairly old format, developed as early as 1991. Well, the old masters always thought of high quality.

Many people consider WAV to be an uncompressed format. But it is actually a container and it can also contain compressed files.

In most cases, WAV contains uncompressed PCM audio. Therefore, the quality is high. But even for one minute of recording, approximately 32MB of memory is wasted.

Good enough compatibility with Windows and Mac.

AIFF
WAV analog from Apple developers. This is also a container and also usually contains sound in PCM format. Good compatibility with Windows.

Lossy compressed audio formats
Truly popular formats for everyone.

MP3
In accordance with the MPEG-1 Audio Layer 3 standard, it appeared in 1993 and instantly won universal love precisely because of its economy in memory consumption.

A CD can store the complete discography of your favorite band.
Throw some records in the glove compartment and you can enjoy music from Kaliningrad to Vladivostok.
During this time, you can listen to all the books by all the writers worth listening to.
The MP3 format is such a solid eunuch, from which they cut the most reluctant, but began to show the ability to store and save. So MP3 is a very inexpensive format.

The main advantage is that he leans on everything that he just plays and sings.

AAC
An advanced form of audio encoding. The younger but advanced brother of MP3. It has slightly improved sound characteristics and a higher compression ratio.

Applies to Android, iOS, iTunes, YouTube, Nintendo, and the latest versions of PlayStation.

MP3, AAC, WAV, FLAC: we talk about all audio file formats

MP3, AAC, WAV, FLAC: we talk about all audio file formats

Audio Formats

As you organize your digital music collection, you can dive into a variety of audio file formats. Almost everyone has heard of MP3, but what is OGG, AIFF, or MQA?

audio file formats

If, after reading the list, you have the suspicion that all these formats for obtaining such chic abbreviations were studied in different universities, we will help to dispel it. This material will clarify the essence of some popular music formats, the difference between them and why it is important to know them.

Regardless of what you’re listening to, low-bitrate MP3, slightly better tracks in AAC, or high-resolution audio in FLAC or WAV, it’s time to find out exactly what you get in each case and how to choose the optimal format.

Let’s evaluate the pros and cons of each.

A quick overview of file formats and codecs

In order not to beat around the bush, we’ll provide a quick guide to all file formats and the differences between them at first. If you want to know more, here is a more detailed description of the differences in size, sound quality and compatibility.

–AAC (not high resolution audio format). Apple’s popular alternative to MP3. Compressed and lossy, but with higher sound quality. Used to download from iTunes and stream from Apple Music.

–AIFF (high resolution). Apple’s alternative to WAV with more complete metadata. It is not an uncompressed and lossy format very popular with large files.

–DSD (high resolution). One-bit format used in Super Audio CD. Available in 2.8 MHz, 5.6 MHz and 11.2 MHz sample rates. Due to the use of a high quality codec, it is not currently used for transmission. Uncompressed format.

–FLAC (high resolution). Lossless compression format supporting high-resolution supporting sample rates and metadata storage; the file size is half that of WAV. Due to the absence of royalties, it is considered the best format for downloading and storing albums in high resolution audio. Its main drawback is the lack of support for Apple devices (and therefore the incompatibility with iTunes).

–MP3 (not high resolution audio format). Popular compression and lossy format with small file size and far from the highest sound quality. Convenient for storing music on smartphones and iPods.

–MQA (high resolution). Compressed format for storing high resolution files in an easier way to transmit. Used by the Tidal Masters service for high resolution audio streaming.

–OGG (not high resolution audio format). He is sometimes known as his full name: Ogg Vorbis. An open source alternative to MP3 and AAC that is not covered by patents. This 320 kbps format is used in Spotify broadcasts.

–WAV (high resolution). The standard format in which all CDs are recorded. Great sound quality, but large files due to lack of compression. Weak support for metadata (versions, song titles and artists).

–WMA Lossless (high resolution). An uncompressed version of Windows Media Audio, the compatibility of which is not often found on smartphones and tablets.

Compressed and uncompressed audio files

Let’s start by looking at three categories into which all audio file formats can be grouped. They are determined by the degree of data compression and the associated loss of sound quality.

If a special algorithm (or codec) was not used to compress the audio in your file, this will lead to a double result: first, there will be no loss of sound quality, and second, your space will soon be exhausted. HDD.

In essence, the uncompressed recording corresponds completely to the original audio file, in which real sound signals are recorded in digital representation.

WAV, AIFF or FLAC: uncompressed formats

WAV and AIFF are the most popular uncompressed audio file formats. Both are based on PCM (Pulse Code Modulation), a known mechanism for directly converting audio to digital format. WAV and AIFF use similar technologies, but the storage methods are slightly different. In these formats, you can record CD-quality files with higher resolution.

The WAV format was developed by Microsoft and IBM, and is therefore used on Windows-based platforms; it is the standard CD recording format.

The AIFF format was created by Apple as an alternative to WAV; And while AIFF files are less common, they provide more comprehensive metadata support, allowing you to store album art, song titles, and the like.

These fortmats take up a lot of space.

Description of the main audio formats

Description of the main audio formats

audio formats

In the world of music there are a large number of music formats, their modifications and versions, created by the giants of the music industry and small companies that have received public recognition in the electronic world.

audio formats

Various physical methods have been developed to store audio data for these purposes, such as vinyl records, magnetic tape, CD, DAT, MD (minidisc), DVD, or converting music scores to music (MIDI), in the same way that they have many different computing methods emerged. audio data storage – digital: OGG, Mp3, Flac, Wav formats.

It is impossible to consider and discuss all audio formats, codecs, their advantages and disadvantages, so in my article I will try to tell you about the most popular audio file extensions that you find.

Why can’t we use any universal audio file encoding format? Because implementing multiple functions requires a different format. For example: to play CDs in a CD-ROM drive, to record music or sound effects in video games, to record a movie track or video clip, to play on mobile phones or to transfer files over the Internet, in addition, there are various operating systems that are the most widely used in the world … These include: Amiga, Macintosh, NEXT, and Windows PC.

Also, the work of a dj, sound engineer, cj, video engineer, or a simple music lover is quite different in nature. This may require that your audio data be saved in your own way. For example, the audio of a CD must be saved using 16 bits and a sampling frequency of 44.1 kHz. However, to download sound over the Internet, we’d better use a different bit depth and sample rate, as each minute of 16-bit, 44-kilohertz audio takes up about 10MB, i.e. an average track of 5 minutes will be 50 meters, too much data for the average user. This article provides an overview of the most popular music formats.

AA (Audible Audio Book File) is a proprietary format developed by Audible. It is used to record audiobooks sold through the Audible and iTunes services. It is possible to reduce or accelerate the speed of listening to files: digital tone, the ability to leave bookmarks when listening to audio books, file protection, when delivering sound recordings over the Internet.

AAC (Advanced Audio Coding) is an audio file format with less quality loss when encoding than MP3 in the same sizes. Lossless music encoding of original quality using the ALAC profile. AAC is a family of MPEG4 audio coding algorithms. Unlike the hybrid mp3 filter bank, AAC uses MDST (Modified Cosine Transform) technology, which means that the listener gets better sound quality than MP3 encoding with the same or lower bit rate. Possible AAC file extensions: [.m4a], [.m4b], [.m4p].

Additionally, AAC is a wideband audio coding algorithm that uses two basic coding principles to dramatically reduce the amount of data required to transmit high-quality digital audio. This format is one of the highest quality, uses lossy compression, compatible with most modern equipment, including notebooks.

For 2009, it is much less common than MP3 and other workarounds. AAC (Advanced Audio Coding) was originally created as a successor to MP3 with improved encoding quality. The AAC format, officially known as ISO / IEC 13818-7, was released in 1997 as the new seventh part of the MPEG-2 family. There is also the AAC format known as MPEG-4 Part 3.

Benefits of AAC over MP3:

– up to 48 audio channels;

– high coding efficiency with constant and variable bit rate;

– sampling frequencies from 8 Hz to 96 kHz (MP3: 8 Hz – 48 kHz);

– More flexible set stereo mode.

ADX is a proprietary ADICM-based lossy compression and storage format developed by CRI Middleware specifically for use in video games. The most characteristic feature is the ability to repeat the sound recording, which makes using the format convenient to use as background music in various games that support this media container. It is compatible with many SEGA Dreamcast games, some PlayStation 2 games and GameCube.

Unlike MP3, it does not use the psychoacoustic model of reducing the volume of sound data (reducing its complexity). Instead, the ADPCM model uses a prediction function relative error data record to store samples.

About audio formats

About audio formats

audio formats

Installations
Installation first. There is no perfect format. Different types of audio require different approaches.

Audio Formats

Second installation. It is impossible to do something good with poor quality.

Third installation. There are three approaches to comparing quality: the discriminating edge (heavyweights), the comforting edge (consumer audio), and the intelligibility edge.

Fourth installation. Disputes in a weight category are useless and are called “holivars”. The arguments in different weight classes are meaningless: “heavy is heavier than light” and “light is lighter than heavy.” Disputes (especially between heavyweights) can only take place with the support of the “blind method”.

A brief introduction
Bit rate is one of the most important metrics for measuring digital audio recordings. It is measured in kilobits per second (for short: kbps, just kilobits, kbps, kbps, kbps, etc.).

On the fingers: answer the question “how much memory occupies a second of audio”.

All kinds of transformations are already underway: there are eight bits in a byte, 1024 bits in a kilobit, 60 seconds in a minute, 60 minutes in an hour, and we arrive at the following empirical data:

bit rate 1400 = 1 hour takes 615 megabytes on disk
320 bitrate = 1 hour takes 141 megabytes on disk
bit rate 192 = 1 hour takes 84 megabytes on disk
bit rate 24 = 1 hour takes 11 megabytes on disk
Naturally, we all want to use disk space sparingly. This is where the format war begins. 11 MB is sixty times cheaper than 615 MB. Megabytes is the cost of storing audio recordings.

The price of storage can also be expressed in bills, dividing the cost of the disk by its capacity. For an archive of audio recordings, the storage price is far from being as critical as for an archive of video recordings.

Furthermore, the storage price can be conditionally expressed in man-hours, if the playback device has a much smaller capacity than your general archive of audio recordings. It takes time to regularly download new tracks to the device.

The storage price can also be expressed in square meters of work area. 500 audio CDs will take up a lot of space and require furniture solutions, but a small external hard drive fits in your pocket.

If there is a different price, then the question of quality arises: then we assume that the lowest bitrate has the lowest quality. So we come to the main question: where is the limit of reason, where is the ideal “price / quality” ratio.

The most approximate division of audio formats in descending order of average bitrate:

uncompressed audio
lossless compression
lossy compression

Uncompressed audio is the pure signal without conversion, “as is”, the equivalent of WAV or audio CD. Classic parameters: 1411 kbps, 44100 kHz sample rate, 16-bit audio.

Codec is an abbreviation of the words (KO der and DEC oder). An encoder is a program that packages a pure audio signal in the desired special format. A decoder is a program that converts a special format into a pure audio signal. In modern English, the two terms were transformed a bit: below code and below code, which corresponds to the direct Russian counterparts for coding and racing coding. And do not confuse encryption and encryption: these are two very different processes, although externally there is a lot of similarity.

For an ordinary person, only a player that can work with this format is required (that is, it has a decoder). The “encoder” itself is only required to “create” such files.

Lossless compression – Typically used for collectible audio material. It is generally believed that this format can be converted exactly to Audio CD.

Better is this compression:

Save disk space by about half
The file format assumes the storage of additional information (artist, album, track number, track name, etc.)
The compression formats themselves differ:

format openness and compression algorithms
player support
overhead encoding, decoding costs
compression ratio
The overhead costs are negligible for the average person and the compression ratio of the codecs differs slightly. Main actors: FLAC, APE, WAVPACK, ALAC.

Lossy Compression – Provides a much higher compression ratio by discarding unimportant audio details. The smaller the size of the file we are trying to compress, the more details we will need to discard. In addition to the disappearing details, technical artifacts also appear.

What are the most common video formats?

The choice of audio and video codecs and containers affects video quality and file size. Here we show you how to find the format that best suits your needs.

Decades and decades of developments in the audiovisual field have led to a result that can be seen as strange in a way. While in other sectors the continuous development has led to a very pronounced standardization (think of the DOC or PDF format), the situation in multimedia is at least worse.

audio file formats

One example is the world of audio formats, which is animated by strong “competition” and a variety of available options. Indeed, it is no less than that of video formats. In this case, we actually have to deal with a separation between codecs and containers (we’ll see what they are and what role they play) that will make things even more complicated. So when converting a movie, you need to be careful to choose the right codec and video format to avoid creating files that are too large or simply unreadable. In short, the mistake is just around the corner.

Differences between containers and codecs

Before analyzing the situation and determining the most commonly used video formats, some basic concepts need to be clarified: First: What is the difference between the codec and the container? In the audio world, if the codec used to digitize the audio track matches the “final” file format, the codecs used in the video differ from the file format that the video file will adopt at the end of the digitization process. The reason will be explained soon and is in the multimedia nature of a video.

audio format

A film actually contains video and audio data: the conversion or playback software must be able to analyze both multimedia transmissions and therefore requires different algorithms that work with one or the other type of data transmission. This is exactly what codecs do: Since the name, code and decoding of data (audio and video) consist of films, you can convert them to another video format or play them back with a media player. Even with regard to containers, it is enough to use the literal meaning of the word: These are files that contain both the video and audio sequences and “provide” codecs for reading and playback.

What are the most common codecs?

As already mentioned, a codec is responsible for compressing and decompressing the video files and determines how they are played on the screen of the PC or smart TV. Each operating system provides the user with dozens and dozens of different codecs, each useful for encoding and decoding a particular type of file, even if new ones can be installed by downloading special software or packages from the Internet. Among the most commonly used codecs we find FFmpeg, Divx, Xvid, H.264 and its development H.265, VP9 and VP 10 (also known as the name of the Google codec).

What are the most commonly used containers?

Containers, on the other hand, have the task of “bundling” the audio and video stream processed by the codecs and can therefore be used for the media player software. Containers are determined, among other things, by the “final” video file format. The most common are: Avi, Wmv, Mov, Flav and Mp4.

-Avi. The AVI video format (short for Audio Video Interleave), developed by Microsoft and introduced in 1992 as part of its video for Windows technology, is one of the oldest used today. It is so widespread and used that many consider it to be the de facto industry standard. Its simple infrastructure (elementary, one would almost say) makes it easy to use on different operating systems (Windows, MacOS, Linux, Android and the most popular browsers) and enables the “storage” of streams that are processed by different codecs
Flv. This is the video format that resulted from compression by Adobe Flash software and was developed almost exclusively for playing movies on the Internet. If it could be seen as the de facto standard for video file formats on the web until a few years ago, this is no longer the case today: The spread of HTML 5 and the discovery of some bugs in the software caused it to change a bit On the one hand, however, the FLV video file format remains a favorite for those who generally create video for the network: with its compression algorithms, you can indeed get good quality small videos