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Sci-Tech Dictionary:

codec

(′kō′dek)

(electronics) A device that converts analog signals to digital form for transmission and converts signals traveling in the opposite direction from digital to analog form. Derived from coder-decoder.

 
 
Computer Desktop Encyclopedia: codec

(1) (enCOder/DECoder) A hardware circuit that performs analog-to-digital conversion (ADC) and digital-to-analog (DAC) conversion. When analog signals are entered into a computer, cellphone or other device via a microphone or video source such as VHS tape or analog TV, an ADC creates the raw digital audio or video samples. Quite often, the results are then further compressed to save bandwidth (see definition #2).

(2) (enCOder/DECoder or COmpressor/DECompressor) Software or hardware that compresses and decompresses audio and video data streams. The purpose of this type of codec is to reduce the size of digital audio samples and video frames in order to speed up transmission and save storage space.

The goal of codec designers is to maintain audio and video quality while compressing the binary data further. Lossy methods are widely used, which actually discard bits that most people cannot hear or see. The algorithms may be implemented entirely in software, in which case the PC does all of the processing. In handheld devices, the codecs are chips.

Codecs Are Specialized

Speech codecs are specialized audio codecs that look for voice patterns and characteristics. Since the human voice falls into a much more limited audio range than music, a speech codec is able to compress voice conversations even further. For a list of popular codecs, see codec examples. See companding, codec switching and lossy compression.


 
Abbreviations: CODEC
is short for:

Meaning Category
CODer- DECoderAcademic & Science->Electronics
Computing->Networking
COder-DECoderComputing->Telecom
Coder/DecoderComputing->General

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Wikipedia: codec
This article is on the compression/decompression algorithms used in digital media. For other uses of codec, see Codec (disambiguation).

A codec is a device or program capable of performing encoding and decoding on a digital data stream or signal. The word codec may be a combination of any of the following: 'Compressor-Decompressor', 'Coder-Decoder', or 'Compression/Decompression algorithm'.

Description

Related concepts

An endec is a similar (but different) concept for hardware. In the mid 20th century, a "codec" was hardware that coded analog signals into Pulse-code modulation (PCM) and decoded them back. Late in the century the name came to be applied to a class of software for converting among digital signal formats, and including compander functions.

Codecs (in the modern, software sense) encode a stream or signal for transmission, storage or encryption and decode it for viewing or editing. Codecs are often used in videoconferencing and streaming media applications. A video camera's analogue-to-digital converter (ADC) converts its analogue signals into digital signals, which are then passed through a video compressor for digital transmission or storage. A receiving device then runs the signal through a video decompressor, then a digital-to-analogue converter (DAC) for analogue display. A "codec" is a generic name for a video conferencing unit.

An audio compressor converts analogue audio signals into digital signals for transmission or storage. A receiving device then converts the digital signals back to analogue using an audio decompressor, for playback.

The raw encoded form of audio and video data is often called essence, to distinguish it from the metadata information that together make up the information content of the stream and any "wrapper" data that is then added to aid access to or improve the robustness of the stream.

Compression quality

Most codecs are lossy. Originally this was in order to make the compressed files small enough to be readily transmitted across non-broadband networks and stored on relatively expensive media, such as non-volatile memory and hard disk as opposed to write-once read-many formats such as CD-ROM and DVD.

There are lossless codecs but for most purposes the slight increase in quality is not worth the increase in data size, which is often considerable. The main exception to this is if the data is to undergo further processing (for example editing) in which case the repeated application of lossy codecs (repeated encoding and subsequent decoding) will almost certainly degrade the quality of the edited file such that it is readily identifiable (visually or audibly or both). Using more than one codec or encoding scheme whilst creating a finished product can also degrade quality significantly (however there are many situations where this is all but unavoidable). The decreasing cost of storage capacity and network bandwidth may obviate the need for lossy codecs for some media over time.

Many codecs are designed to emphasise certain aspects of the media to be encoded. For example, a digital video (using a DV codec) of a sports event, such as baseball or soccer, needs to encode motion well but not necessarily exact colours, while a video of an art exhibit needs to perform well encoding colour and surface texture. There are hundreds or even thousands of codecs ranging from those downloadable for free to ones costing hundreds of dollars or more. This can create compatibility and obsolescence issues. By contrast, lossless PCM audio (44.1 Khz, 16 bit stereo, as represented on an audio CD or in a .wav or .aiff file) offers more of a persistent standard across multiple platforms and over time.

Many multimedia data streams need to contain both audio and video data, and often some form of metadata that permits synchronisation of the audio and video. Each of these three streams may be handled by different programs, processes, or hardware; but for the multimedia data stream to be useful in stored or transmitted form, they must be encapsulated together in a container format.

While many people explain that AVI is a codec, they are incorrect. AVI (nowadays) is a container format, which many codecs might use (although not to ISO standard). There are other well known alternative containers such as Ogg, ASF, QuickTime, RealMedia, Matroska, DivX, and MP4.

See also

Comparisons

External links

Data compression methods
Lossless compression methods
Theory Entropy · Complexity · Redundancy
Entropy encoding Huffman · Adaptive Huffman · Arithmetic (Shannon-Fano · Range) · Golomb · Exp-Golomb · Universal (Elias · Fibonacci)
Dictionary RLE · LZ77/78 · LZW · LZWL · LZO · DEFLATE · LZMA · LZX
Others BWT · PPM · DMC
Audio compression methods
Theory Convolution · Sampling · Nyquist–Shannon theorem
Audio codec parts LPC (LAR · LSP) · WLPC · CELP · ACELP · A-law · μ-law · MDCT · Fourier transform · Psychoacoustic model
Others Dynamic range compression · Speech compression · Sub-band coding
Image compression methods
Terms Color space · Pixel · Chroma subsampling · Compression artifact
Methods RLE · Fractal · Wavelet · SPIHT · DCT · KLT
Others Bit rate · Test images · PSNR quality measure · Quantization
Video compression
Terms Video Characteristics · Frame · Frame types · Video quality
Video codec parts Motion compensation · DCT · Quantization
Others Video codecs · Rate distortion theory (CBR · ABR · VBR)
Timeline of information theory, data compression, and error-correcting codes
See Compression Formats and Standards for formats and Compression Software Implementations for codecs

This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)

 
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