Macroblock

Macroblock is a processing unit in image and video compression formats based on linear block transforms, such as the discrete cosine transform (DCT). A macroblock typically consists of 16×16 samples, and is further subdivided into transform blocks, and may be further subdivided into prediction blocks. Formats which are based on macroblocks include JPEG, where they are called MCU blocks, H.261, MPEG-1 Part 2, H.262/MPEG-2 Part 2, H.263, MPEG-4 Part 2, and H.264/MPEG-4 AVC.[1][2][3][4] In H.265/HEVC, the macroblock as a basic processing unit has been replaced by the coding tree unit.[5]

Technical details

Transform blocks

A macroblock is divided into transform blocks, which serve as input to the linear block transform, e.g. the DCT. In H.261, the first video codec to use macroblocks, transform blocks have a fixed size of 8×8 samples.[1] In the YCbCr color space with 4:2:0 chroma subsampling, a 16×16 macroblock consists of 16×16 luma (Y) samples and 8×8 chroma (Cb and Cr) samples. These samples are split into four Y blocks, one Cb block and one Cr block. This design is also used in JPEG and most other macroblock-based video codecs with a fixed transform block size, such as MPEG-1 Part 2 and H.262/MPEG-2 Part 2. In other chroma subsampling formats, e.g. 4:0:0, 4:2:2, or 4:4:4, the number of chroma samples in a macroblock will be smaller or larger, and the grouping of chroma samples into blocks will differ accordingly.

In more modern macroblock-based video coding standards such as H.263 and H.264/AVC, transform blocks can be of sizes other than 8×8 samples. For instance, in H.264/AVC main profile, the transform block size is 4×4.[4] In H.264/AVC High profile, the transform block size can be either 4×4 or 8×8, adapted on a per-macroblock basis.[4]

Prediction blocks

Distinct from the division into transform blocks, a macroblock can be split into prediction blocks. In early standards such as H.261, MPEG-1 Part 2, and H.262/MPEG-2 Part 2, motion compensation is performed with one motion vector per macroblock.[1][2] In more modern standards such as H.264/AVC, a macroblock can be split into multiple variable-sized prediction blocks, called partitions.[4] In an inter-predicted macroblock in H.264/AVC, a separate motion vector is specified for each partition.[4] Correspondingly, in an intra-predicted macroblock, where samples are predicted by extrapolating from the edges of neighboring blocks, the prediction direction that is specified on a per-partition basis.[4] In H.264/AVC, prediction partition size ranges from 4×4 to 16×16 samples for both inter-prediction (motion compensation) and intra-prediction.[4]

Bitstream representation

A possible bitstream representation of a macroblock in a video codec which uses motion compensation and transform coding is given below.[6] It is similar to the format used in H.261.[1]

+------+------+-------+--------+-----+----+----+--------+
| ADDR | TYPE | QUANT | VECTOR | CBP | b0 | b1 | ... b5 |
+------+------+-------+--------+-----+----+----+--------+

Macroblocking

Main article: Compression artifact

The term macroblocking is commonly used to refer to block coding artifacts.

See also

References

  1. 1 2 3 4 ITU-T (March 1993). "Video codec for audiovisual services at p x 64 kbit/s". Retrieved 2013-04-28.
  2. 1 2 ITU-T (February 2012). "Advanced video coding for generic audiovisual services". Retrieved 2013-04-28.
  3. ITU-T (January 2005). "Video coding for low bit rate communication". Retrieved 2013-04-28.
  4. 1 2 3 4 5 6 7 ITU-T (April 2013). "Information technology — Generic coding of moving pictures and associated audio information: Video". Retrieved 2013-04-28.
  5. G.J. Sullivan; J.-R. Ohm; W.-J. Han; T. Wiegand (2012-05-25). "Overview of the High Efficiency Video Coding (HEVC) Standard" (PDF). IEEE Transactions on Circuits and Systems for Video Technology. Retrieved 2013-04-26.
  6. Marshall, Dave (2001-04-10). "Intra Frame Coding". Multimedia Module No: CM0340. Retrieved 2014-02-13.
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