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What is the highest quality music format right now? PART 2

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What is the highest quality music format right now? PART 2

Audio Files Formats

CD discs

audio file formats

The audio CD format, or rather the .cda extension, appeared around the same time.

Unlike “wave” files saved on the hard disk, they cannot be edited. Today it can be opened in an audio processing program, reformatted by audio transcoding, and saved anywhere other than on a CD.

After specifying the output format and the device we will play them on, the conversion will begin. For all these tasks, we only need to drag and drop the elements that we are working with in its user interface. For example, if we are playing a file at twice the speed, an easy way to interpolate would be to play one sample out of two.

If you place the object at 50% pitch, you should double the number of samples, and an easy way to do this is to find the average of the two actual samples. Well, this signal needs to be decompressed, and this requires a proportionally higher CPU load that can “saturate”. And a less saturated processor means less risk of “hang.” We will analyze the most popular compression formats that will allow us to compress any file without losing information. What is fast? The most powerful?

MP3 codec
With the advent of the LAME MP3 Encoder codec, the music industry experienced a real shock, because those files “weighed” dozens of times less than the same WAV file. Even a five minute compose at full compression rarely exceeds the size of 5-7MB. Agree, a significant advance, not to mention the fact, allowed not only to adjust the above characteristics, but also some additional parameters in the form of ID3 tags, which contained information, for example, about the artist, album name and tracks. , the release date.

What is file compression? What does squeeze mean?
And the most used? Have you ever come across a file that was too busy and you didn’t know how to make it work less, like mail it to a friend? Compressing the file allows us to reduce the size of the file. It will take up less space on your hard drive and it will be easier to send. Depending on the type of file used and the type of compression, its size will be reduced more or less.

What compression formats are there and which are the most popular?
As we just said, there are several types of compression methods. For example, it is a compression method used to compress video, audio, or image files. The main characteristic of this compression method is that by compressing approximations, the media file is reduced in size. This method looks for repeating patterns in addition to other more advanced methods. This is achieved by reducing the file size without loss of information or quality, although obviously the file size is not reduced. Unlike the previous case, this information is not lost. … When it comes to compression formats and methods, we have a wide range.

This type has become the most popular. Look, almost the entire Internet is full of this universal format. In general, we can say that the MP3 audio format has become a true revolution in sound. It remains one of the most popular and in-demand so far, even though it is being replaced by other types of audio. But more on that later.

A Guide to Choosing Audio File Formats: The Present Century and a Bit of the Past
.
FLAC, APE, ALAC and all, or just lossless
Formats from another planet: WavPack, Opus, MPC and other scary lyrics
FLAC vs MP3
So what should I do?
Introduction
As always, I’ll start with the senile complaints. Twenty years ago … In fact, twenty years ago there was no particular option. Because there were CDs that were turned into WAV files that took up the space of an average “hard drive”, well, there was quite a bit of space left in the operating system. And on the BBS. And the games. And in the archive of files. And that’s it. Because the average size of a hard drive back then was a whopping 850 megabytes today. Yes, exactly that 850, and exactly one megabyte. The impetus for everything was given by the appearance of the MP3 format in 1997, and it was a very significant year!

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What is the highest quality music format right now?

What is the highest quality music format right now?

audio format

The first audio format in computer games

Audio Format

The first mention of computer sound came from the creation of primitive games at the time, in which sound was played through the system’s speaker. But no matter how hard the developers of such software (software) have been, the required quality, compatible with tape or reel recordings or recorders, could not be achieved.

High definition digital music has been around for a long time. Why does it seem that it is now catching on? In addition to traction, they can have devices like one, the answer on the market. The author of this disappearance does not have to look very far. Except in special cases, most of the users are more than enough for their smartphone to listen to music. Even players that have settled down, you see, they reduce the ground they hit year after year.

That is why many manufacturers are looking for a solution on how to change the audio format so that the sound is natural. Frankly, this has led to more competition than we have now. This applies not only to the material being played, but also to studio sound, live performances, quality or basic parameter settings in terms of knowledge of physics, acoustics, etc.

We come to the millionth question. This requires a sensitive ear and some education. If you’re a high-profile foodie, you’ll probably know the difference first, but for ordinary mortals who only listen to music with a background meter, it’s probably too hard to pay the difference just to have that kind of quality.

It is not just a music player. Those that combine with this equipment are not cheap. To top it all, there is music that is sold in high definition formats, which is also a bit more expensive. Finally, this is the technical section. There is not even consensus among audio professionals themselves on whether these devices make such an important distinction. At least on paper, it seems that HD music sounds better, but there is a strong marketing component behind it. Are we willing to pay to see the audience as music lovers?

The appearance of the WAV format
It is believed that the first full quality of audio formats was associated with the appearance of the standard and the .wav file extension (this abbreviation was formed from the English word “wave” or wave). Anyway, he became the first-born that could be processed into computer programs on a professional level.

As is usual in most multimedia files with which we work almost daily, we link to video with photos or audio files, depending on the type of use that we are going to make of them, we must use them in a specific format, so It is also important to know the main differences between them.

But this is what we are going to talk about, these are some alternatives that we are going to present to you and that will be very helpful when it comes to testing and converting the different types of audio files that we usually find. If you want to know the main differences between the two, we recommend that you take a look at this post that we offer you.

Advanced Audio Formats Part 2

Advanced Audio Formats Part 2

DTS audio formats

DTS – Digital Theater System, in fact, is Dolby Digital, or rather its competitor. DTS uses a lower compression rate than Dolby, so it actually sounds better, as evidenced by DVDs that have DTS or DD tracks. DTS in home theater systems uses a maximum bit rate of 1536 kbps (full bit rate), this sound is better than Dolby Digital’s AC-3 format. DTS – Uses 6 free audio tracks and supports 7.1 sound distribution system, with this DTS 4.0 bit rate – it will sound as immersive as Dolby 5.1.

AIFF VS FLAC

FLAC

FLAC – (Free Lossless Audio Codec). Unlike lossy codecs (MP3, Ogg, and AAC), it does not remove any information from the audio stream and is designed for listening to music on high-quality Hi-Fi and Hi-End equipment and for archiving a professional audio collection. Currently, the FLAC format is supported by many audio players and music applications. The basic decoder uses ID3v1 and ID3v2 tags to store basic types of metadata, so they can be freely added and edited.

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MIDI

MIDI: (Musical Instrument Digital Interface), unlike other formats, MIDI does not store digital sound, but sets of commands: notes played, links to instruments, sound parameters. The convenience of the MIDI format is to use a device that is arranged according to the indicated chords. Midi files are typically several orders of magnitude smaller than digitized audio of the same quality. The MIDI format is versatile and designed so that any sequencer can read and write data without loss. At the same time, MIDI information that is incomprehensible to other software applications does not lead to misunderstandings, but is simply ignored. The mid-year backing track format allows you to save information about the instrument used, the tempo, the size designation, the information about the musical keys, the name of the track and the patterns and their number.

MP3

MP3: (MPEG Layer version 3) At the moment, MP3 is the most popular digital music encoding format. MP3 is a lossy compression format, that is, part of the audio information, according to the psychoacoustic model, the human ear can barely perceive is removed from the original file, irrevocably. The debate on MP3 quality still continues … First, the quality of the resulting MP3 depends not only on the bit rate of the compressed file, but also on the version of the encoding program used: the codec. Many music gourmets prefer to compress music with “maximum quality” – 320 kbps, or switch to other formats, for example FLAC, where the average bit rate is ~ 1000 kbps. At the moment, MP3 is the leader in universal recognition, but at the same time it is not a professional format in terms of technique. Professional musicians and DJs no longer use tracks with a bit rate lower than 320 kbps.

MODIFICATION

MOD is a format designed for the Amiga platform. Each MOD file contains digitized recordings of actual instrument sounds, called samples, somewhat similar to the structure of MIDI. Cj or a composer who writes in the MOD format uses a program called a tracker, in which he specifies what instrument, at what time, what note and octave should sound; This sequence of notes is written in a list; one track and several tracks. sounding in parallel forms a block called a pattern. The pattern collection forms a module: a file in MOD format, with the extension .mod. A track bar corresponds to an actual channel in which cj can play or edit numbered notes. Notes can be assigned various “patterns”, for example: tremolo, glissando, and so on.

OGG

OGG – Vorbis was developed in 2002 by the Xiphophorus team as an alternative to all paid licensed audio formats. Ogg Vorbis is compatible with all popular platforms. The format does not restrict the user to just two channels of audio (left and right), it supports up to 255 separate channels at a sample rate of up to 192 kHz and up to 32 bits, making Vorbis ideal for encoding DVD-Audio of 6 channels. home theater audio.

Advanced Audio Formats

Advanced Audio Formats

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.

Audio File Formats

Many different computing methods have 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 our article we will try to talk about the most popular audio file extensions that you may have to work with.
Why can’t we use any universal audio file encoding format?

Because for the implementation of various functions, a different format is required. 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 transfer files over the Internet, in addition, there are a number of of operating systems that are the most used in the world. These include: Amiga, Macintosh, NEXT, and Windows personal computers. Also, the job 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 on a CD must be saved using 16 bits and a sampling frequency of 44.1 kHz. However, to download sound over the Internet, it is better to use a different bit depth and sample rate, as each minute of 16-bit, 44-kilohertz audio takes about 10MB. those. an average 5 minute track will be 50 “meters” – this is too much information for the average user. This article presents brief information on the most popular music formats.

AA (audible audiobook file)

AA (Audible Audio Book File) is a proprietary format developed by Audible. It is used to record audiobooks that are 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 audiobooks, file protection, when delivering sound recordings over the Internet.

AAC (advanced audio coding)

AAC (Advanced Audio Coding) is an audio file format with less loss of quality 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.

AIFF

AIFF – This is the audio data format for the Apple Macintosh platform. The .aiff format supports 8- and 16-bit mono and stereo. If files in this format contain a Mac-Binary header (text, photos, copyright holder information, a single number, etc.), then the file will have the extension .snd. You can listen to an audio file with the extension .nd using Sound Forge. Forge will, of course, open such a file, but it will recognize it as a Macintosh resource format and it will not affect sound quality.

APE (mono audio)

APE – (Monkey’s Audio), developed by Matthew T. Ashland is a lossless digital audio format. Monkey’s audio codec is released for Microsoft Windows platform only, although there are several unofficial codecs for MacOS, Linux, BeOS Monkey’s audio files use the following extensions: .ape to store audio and .apl to store metadata This format is not free as its license severely restricts the distribution of .ape files.

Lossless vs lossy, what is the difference?

Lossless vs lossy, what is the difference?

lossless and lossy compression

In a recent article on wireless audio, we addressed the topic of lossy and lossless digital audio encoding. Today we will dwell on this topic in more detail.

lossless vs lossy

So, we have analog sound, which, during digital sound recording and / or for later storage in a computer and other electronic media, is digitized into an audio file, an electronic document consisting of information about the amplitude and frequency of the sound, with the help of which the digital-analog inverse conversion and reproduction of the sound contained in the file.

The sound format depends on the quantization method using an analog-to-digital converter (ADC), two types of quantization are widespread:

pulse code modulation (PCM, most MP3 to FLAC formats)

sigma-delta modulation (Delta-sigma, DSD format)

The main parameters of digital audio are the quantization bit (bit) and the sample rate (kHz / MHz), which are indicated for various recording and playback devices as the format to represent digital audio, for example, 24 bit / 192 kHz.

There are uncompressed audio formats (eg WAV, AIFF), but for more convenient storage / distribution, codecs that compress audio data are often used. Data compression (data compression) is performed in order to reduce the volume occupied by files and is based on eliminating the redundancy contained in the original data. There are two types of compressed formats:

Lossless: lossless compression (FLAC, ALAC, APE)

Lossy: Lossy compression (MP3, Ogg, AAC)

Lossless compression allows you to make a complete recovery of the original data, lossy compression allows you to recover data with certain distortions.

Lossy compression is significantly more efficient than lossless compression and is used when full compliance with original and recovered data is not required, and volume reduction is a priority.

A lossy encoded file is very different from the original on the level of byte comparison, but to an inexperienced human ear, the difference may not be as strong and sometimes even imperceptible. It does this by focusing lossy compression techniques on the physical characteristics of a person’s senses, such as a psychoacoustic model, which determines how much sound can be compressed without degrading the perceived quality of the person. Impairments caused by loss of compression that are perceptible to the human ear are considered compression artifacts.

MP3 spectrogram (left) and original file (right)

Examples of common lossy formats:
MP3: defined by the MPEG-1 specification, perhaps still the most common format

Ogg Vorbis: distinguished by the absence of patent restrictions and higher quality with the same bit rate as MP3

AAC, AAC + – Exists in various versions, defined by MPEG-2 and MPEG-4 specifications, it became widespread along with Apple technology

eAAC + is a format offered by Sony as an alternative to AAC and AAC +

WMA is a format developed by Microsoft

Dolby AC-3

DTS

Previously, lossless audio formats were most often used for archival data storage and in cases where distortion was unacceptable or undesirable, and most common listeners used music in lossy compressed formats. But the amount of memory in electronic devices is constantly growing and prices are falling, which is why more and more people are switching to listening to Lossless formats, which allow them to perceive music in its original form. In addition, the support for Lossless formats has now appeared on almost all consumer devices, even some streaming services are beginning to broadcast sound in lossless quality, for example, Deezer presented in Russia or Tidal, which is officially absent from us.

Examples of common lossless formats:
Free lossless audio codec: FLAC is the most common free format

ALAC – Apple Lossless Audio Codec – Apple variant

Lossless audio encoding, also known as MPEG-4 ALS

Direct Flow Transfer – DST

Dolby TrueHD

DTS-HD Master Audio

Meridian Lossless Packing – MLP

Monkey’s Audio – Monkey’s Audio APE

WavPack – Lossless WavPack

WMA Lossless – Windows Media Lossless

What are lossless file formats and why shouldn’t you convert lossy files to lossless files? Part 2

What are lossless file formats and why shouldn’t you convert lossy files to lossless files? Part 2

Some of these lossless formats also provide compression. For example, a WAV file generally contains uncompressed audio and takes up a lot of space. A FLAC file can contain the same lossless audio as a WAV file, but uses compression to keep the file smaller. Formats like FLAC don’t discard any data, they store all the data and intelligently compress it, just like ZIP files. However, they are still significantly larger than MP3 files, which throw a lot of data.

Lossless Compression - Pediaa.Co

The conversion can be lossy even between lossless formats. For the conversion to be truly lossless, the data in the source file must fit inside the destination file. For example, lossless FLAC files only support 24-bit audio. If you convert a WAV file that contains 32-bit PCM audio to FLAC, some data will be removed during conversion. The process of converting a WAV file containing 24-bit PCM audio to FLAC will be lossless.

In the image below, the lower version of the photo is compressed using a low-quality lossy compression algorithm. The file size will be noticeably smaller than the image above.

Image via Wikimedia Commons

Why you should never turn a loss into a lossless
When you convert a file from a lossless format to a lossy format, such as ripping an audio CD (lossless format) to MP3 files (lossy format), you are discarding some of the data. The MP3 file is much smaller because most of the original audio data has been lost.

If you convert a lossy MP3 file to a lossless FLAC file, you will not recover any data. You will end up with a much larger FLAC file that is only as good as the MP3 file you converted from. You will never be able to recover your lost data. Think of it as making the perfect photocopy copy. Even if you could create a perfect photocopy copy, you would still end up with a photocopy that is not as good as the original document.

This is why converting lossy formats to other lossy formats is a bad idea. If you take an MP3 (lossy format) file and convert it to OGG (another lossy format), most of the data will be discarded. Think of it like making a photocopy of a photocopy: every time you photocopy a photocopy, you lose data and the quality degrades.

However, converting from lossless to lossless formats works fine. For example, if you rip an audio CD (lossless) to FLAC files (lossless), you will get files as good as the original audio CD. If you then convert those FLAC files into MP3 files, say, to shrink them to fit more on your MP3 player, you’ll end up with MP3 files that rival the quality of MP3 files ripped directly from an audio CD.

What should you use?
When you should use lossless formats and when you should use lossy formats depends on what you are using them for. If you want the perfect copy of your audio CD collection, you must convert them to lossless files. If you want a playable copy on your MP3 player and file size is more important, use a lossy format.

If you want to post a photo on the Internet, you must use a lossy format to reduce the size of the photo. (but keep a lossless backup of the original file). If you are printing a photo professionally, you probably want to use a lossless format during the editing process. (Note that for screenshots, PNG is a lossless format that can produce sharp and appropriately sized screenshots of spot colors on computer screens. However, PNG becomes much larger when used for photographs. containing many more mixed colors. Real world).

We will not be able to cover all the situations for which you choose the media file format. Just be aware of the pros and cons when choosing a file format.

To learn more about what type of image file to use and when, read What’s the difference between JPG, PNG, and GIF? Or, if you are curious about all the available audio file formats, read HTG’s explanations: What’s the difference between all these audio formats?

What are lossless file formats and why shouldn’t you convert lossy files to lossless files?

What are lossless file formats and why shouldn’t you convert lossy files to lossless files?

Lossless compression

Whether you’re dealing with image, music, or video files, it’s important to understand the difference between the different types of formats and when to use them.

lossless compression

Using the wrong format can spoil the quality of the file or make it unnecessarily large.

Some types of media file formats are lossy and some are not. We will explain what these terms mean, the benefits of each type of file format, and why you should never convert lossy formats to lossless formats.

Compression explanation
We use compression to reduce the size of files, allowing them to load faster and take up less disk space. For example, when you take a photo, your camera captures all the light it can receive and adds the image. If you save the image in RAW format, which stores all the light data captured by the camera’s sensor, the image can be up to 25MB in size. (This depends on the resolution of the image – a camera with more megapixels will produce a larger image.)

If we simply upload these files to a social network or post them to a website, we don’t want these image files to take up so much space. A photo gallery with RAW images can take up hundreds of megabytes of space. RAW formats can be used by professional photographers to maintain high image quality while editing, but they are not intended for the average person.

Instead, our camera or smartphone converts the image to a JPEG file. JPEG files are much smaller than RAW images. When you convert RAW to JPEG, some of the image data is “thrown away”, creating a much smaller file. The conversion process uses a compression algorithm that works well with photos, making them look pretty good despite being compressed. Depending on the quality setting, you may still see compression artifacts.

Note that lossy formats often have a parameter that controls their lossy quality. For example, JPEG is of variable quality. If the quality is poor, the JPEG image file becomes smaller, but the image quality is noticeably worse. Here is an enlarged example of a lossy JPEG – you can see various “compression artifacts”.

Lossless and lossy formats
We call RAW Lossless because it retains all the data from the original file, and JPEG Lossy because some data is lost when converting an image to JPEG. However, these are not the only lossy and lossless formats.

Images: RAW, BMP and PNG – all lossless image formats. JPEG and WebP are lossy image formats.
Audio: WAV is a container file often used for storing lossless audio, although it can contain lossy audio as well. FLAC is a lossless audio format and MP3 is a lossy audio format.
Video: Various lossless video formats are widely used by consumers as they can make video files take up a lot of space. All common formats, such as H.264 and H.265, are lossy. H.264 and H.265 can provide smaller files with higher quality than previous generations of video codecs because they have a “smarter” algorithm that better chooses data for deletion.

Explained bit rate

Explained bit rate

lossless

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.).

LOSSY AUDIO COMPRESSION

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
bitrate 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 price of storage is far from being as critical as for an archive of video recordings.

In addition, the price of storage can be conditionally expressed in man-hours, if the playback device has a much lower 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 terms of square meters of work area. 500 audio CDs will take up a lot of space and require furnishing solutions, but a small external hard drive will fit 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 closest 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 for 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 somewhat transform: is code continuation and dE below code, which corresponds to directing Russian counterparts to code and coding races. 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 (that is, has a decoder) is required. The “encoder” itself is only required to “create” such files.

Lossless Compression – Typically used for collectible audio material. In general, it is believed that this format can be exactly converted back 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
encoding, decoding overhead costs
compression ratio
The overhead is negligible for the average person and the compression ratio of the codecs differs only 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 have to discard. In addition to details disappearing, technical artifacts also appear.

Main market players: MP3, OGG, AAC, WMA. They all have quality gradations – the higher the bit rate, the closer the quality is to the original. With the same bit rate, different codecs under different conditions can give different results.

You can explain with your fingers what lossy compression is using the example of compression of graphic files in JPEG format.

sample_jpg_100sample_jpg_090sample_jpg_080sample_jpg_070sample_jpg_060sample_jpg_050sample_jpg_040sample_jpg_030sample_jpg_020sample_jpg_010

At first, it is perfect and practically indistinguishable (no magnification).

In between, the quality drop is already visible to the naked eye, but you can still bear it.

In the end, the degradation of quality already goes beyond the limits of patience.

What is a lossless format?

What is a lossless format?

Lossless Audio

Whether it’s images, music, or video files, it’s important to understand the difference between the different types of formats and when they are used.

Lossless Audio

Using the wrong format can degrade the quality of the file or make it too large.

Some types of media file formats are “lossy” and others are “lossless.” We will explain what these terms mean, the benefits of each type of file format, and why you should never convert lossy formats to lossless formats.

Compression explained
We use compression to reduce the size of files, allowing them to load faster and take up less disk space. For example, when you take a photo, your camera captures all the light it can receive and collects the image. If you save an image in RAW format, which stores all the lighting data captured by the camera’s sensor, the image size can be up to 25MB. (This depends on the resolution of the image – a camera with more megapixels will create a larger image.)

Instead, our camera or smartphone converts the image to a JPEG file. JPEG files are much, much smaller than RAW images. When you convert RAW to JPEG, some of the image data is “thrown away”, creating a much smaller file. The conversion process uses a compression algorithm that works well for photos, making them look pretty good despite being compressed. You may still see compression artifacts, depending on the quality setting.

Note that lossy formats usually have a setting that controls their loss. For example, JPEG has a variable quality setting. Poor quality makes the JPEG image file smaller, but the image quality is noticeably worse. Here’s a great example of a lossy JPEG – you can see various “compression artifacts”.

Lossless and lossy formats
We call RAW a “lossless” format because it retains all the data in the original file, while we call JPEG a “lossy” format because some data is lost when the image is converted to JPEG. However, these are not the only lossy and lossless formats.

Images: RAW, BMP, and PNG are all lossless image formats. JPEG and WebP are lossy image formats.
Audio: WAV is a container file often used for storing lossless audio, although it can also contain lossy audio. FLAC is a lossless audio format and MP3 is a lossy audio format.
Video . Some lossless video formats are widely used by consumers as they make video files take up a large amount of space. Common formats like H.264 and H.265 are lossy. H.264 and H.265 can provide smaller files with higher quality than previous generations of video codecs because it has a “smarter” algorithm that better chooses the data to discard.

What are the benefits of the MKV format?

What are the benefits of the MKV format?

MKV

The Matroska format is a multimedia container envelope for video, audio, and subtitle files.

Matroska

A complete CD or DVD can fit in one file. The extension of a Matroska video file is MKV; only for MKA audio, and only for subtitles, MKS. The MKV format has many advantages over competing containers such as Microsoft® Audio Video Interleave (AVI), Apple® Quicktime® MOV, Moving Picture Experts Group (MPEG) and others.

While each of the container formats currently in use fulfills some or even many of the functions that the container format requires, Matroska aims to be the standard that meets all of them, standing out from almost all the others. Built in EBML (Extensible Binary Meta-Language), it is very flexible to meet future needs.

The first advantage of the MKV format is that it is open source, which makes the code freely available to developers around the world and to the general public. Most other container formats contain mostly proprietary code developed exclusively by the originating company and authorized parties. Open source software has the most potential for more creative solutions and wider implementation.

The MKV format supports menus such as DVDs, chapters, and multiple audio streams to include audio tracks in different languages. As with the DVD, you can choose the language of your choice, provided the creator has included several options.

Soft subtitles are also supported in MKV format. Soft captions are a separate subtitle track in a container that can be disabled or enabled by the user. If you ever downloaded an AVI file with unnecessary subtitles and couldn’t turn them off, you will appreciate this feature.

MKV can contain variable bit rate audio and variable frame rate video, as well as B-frame compression. But unlike most other containers, it also supports almost any video format, including MPEG-1, MPEG- 2, MPEG-4, MPEG-4 Part 2 (H.263), MPEG-4 Part 10 / Enhanced Encoding video (AVC). /H.264, Windows® Media Video (WMV), RealVideo and more.

The MKV format also supports almost any audio format, including lossless audio like FLAC and audio container formats like Ogg. It is also compatible with Speex, a lossy audio compression format for speech. The Matroska development team is confident that future video and audio formats will also be supported, thanks to the core EBML MKV format.

Not all audio players support MKV files. VLC Player, an open source and open source cross-platform audio and video player, supports MKV format without using any special plugins or codecs. Mastroska’s CorePlayer Pro and Mobile are other options. DirectShow® based Microsoft® players can play MKV files with the Community Combined Codec Pack (CCCP) installed. A full list of players, codecs, and plugins that support MKV is available on the Matroska website at the download link.

MKV support also extends offline. Manufacturers such as Samsung® and LG® already have dedicated HDTVs and Bluray® players that support MKV streaming.