Information technology — Coded representation of immersive media — Part 3: Versatile video coding

This document specifies a video coding technology known as versatile video coding (VVC), comprising a video coding technology with a compression capability that is substantially beyond that of the prior generations of such standards and with sufficient versatility for effective use in a broad range of applications. Only the syntax format, semantics, and associated decoding process requirements are specified, while other matters such as pre-processing, the encoding process, system signalling and multiplexing, data loss recovery, post-processing, and video display are considered to be outside the scope of this document. Additionally, the internal processing steps performed within a decoder are also considered to be outside the scope of this document; only the externally observable output behaviour is required to conform to the specifications of this document. This document is designed to be generic in the sense that it serves a wide range of applications, bit rates, resolutions, qualities and services. Applications include, but are not limited to, video coding for digital storage media, television broadcasting and real-time communication. In the course of creating This document, various requirements from typical applications have been considered, necessary algorithmic elements have been developed, and these have been integrated into a single syntax. Hence, this document is designed to facilitate video data interchange among different applications.

Technologies de l'information — Représentation codée de média immersifs — Partie 3: Codage vidéo polyvalent

General Information

Status
Published
Publication Date
17-Jul-2024
Current Stage
6060 - International Standard published
Start Date
18-Jul-2024
Due Date
09-Aug-2024
Completion Date
18-Jul-2024
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ISO/IEC 23090-3:2024 - Information technology — Coded representation of immersive media — Part 3: Versatile video coding Released:18. 07. 2024
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International
Standard
ISO/IEC 23090-3
Third edition
Information technology — Coded
2024-07
representation of immersive media —
Part 3:
Versatile video coding
Technologies de l'information — Représentation codée de média
immersifs —
Partie 3: Codage vidéo polyvalent
Reference number
© ISO/IEC 2024
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting on
the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address below
or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
© ISO/IEC 2024 – All rights reserved
ii
Contents
Foreword . vi
Introduction .vi i
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Abbreviated terms . 17
5 Conventions . 19
5.1 General . 19
5.2 Arithmetic operators . 19
5.3 Logical operators . 20
5.4 Relational operators . 20
5.5 Bit-wise operators . 20
5.6 Assignment operators . 21
5.7 Range notation . 21
5.8 Mathematical functions . 21
5.9 Order of operation precedence . 22
5.10 Variables, syntax elements and tables . 22
5.11 Text description of logical operations . 24
5.12 Processes . 25
6 Bitstream and picture formats, partitionings, scanning processes and
neighbouring relationships . 25
6.1 Bitstream formats . 25
6.2 Source, decoded and output picture formats . 26
6.3 Partitioning of pictures, subpictures, slices, tiles, and CTUs . 28
6.3.1 Partitioning of pictures into subpictures, slices, and tiles . 28
6.3.2 Block, quadtree and multi-type tree structures . 30
6.3.3 Spatial or component-wise partitionings . 31
6.4 Availability processes . 32
6.4.1 Allowed quad split process . 32
6.4.2 Allowed binary split process . 33
6.4.3 Allowed ternary split process . 35
6.4.4 Derivation process for neighbouring block availability . 36
6.5 Scanning processes. 36
6.5.1 CTB raster scanning, tile scanning, and subpicture scanning processes . 36
6.5.2 Up-right diagonal scan order array initialization process . 41
6.5.3 Horizontal and vertical traverse scan order array initialization process. 41
7 Syntax and semantics . 42
7.1 Method of specifying syntax in tabular form . 42
7.2 Specification of syntax functions and descriptors . 43
7.3 Syntax in tabular form . 45
7.3.1 NAL unit syntax . 45
7.3.2 Raw byte sequence payloads, trailing bits and byte alignment syntax . 46
7.3.3 Profile, tier, and level syntax . 65
7.3.4 DPB parameters syntax . 68
7.3.5 Timing and HRD parameters syntax . 68
7.3.6 Supplemental enhancement information message syntax . 69
7.3.7 Slice header syntax . 70
© ISO/IEC 2024 – All rights reserved
iii
7.3.8 Weighted prediction parameters syntax .72
7.3.9 Reference picture lists syntax .73
7.3.10 Reference picture list structure syntax .74
7.3.11 Slice data syntax .74
7.4 Semantics. 97
7.4.1 General .97
7.4.2 NAL unit semantics .97
7.4.3 Raw byte sequence payloads, trailing bits and byte alignment semantics . 106
7.4.4 Profile, tier, and level semantics . 166
7.4.5 DPB parameters semantics . 173
7.4.6 Timing and HRD parameters semantics . 174
7.4.7 Supplemental enhancement information message semantics . 178
7.4.8 Slice header semantics . 178
7.4.9 Weighted prediction parameters semantics . 189
7.4.10 Reference picture lists semantics . 191
7.4.11 Reference picture list structure semantics . 192
7.4.12 Slice data semantics . 193
8 Decoding process .22 0
8.1 General decoding process .22 0
8.2 NAL unit decoding process .22 3
8.3 Slice decoding process .22 4
8.3.1 Decoding process for picture order count. 224
8.3.2 Decoding process for reference picture lists construction . 225
8.3.3 Decoding process for reference picture marking . 231
8.3.4 Decoding process for generating unavailable reference pictures . 232
8.3.5 Decoding process for symmetric motion vector difference reference indices . 233
8.3.6 Decoding process for collocated picture and no backward prediction . 234
8.4 Decoding process for coding units coded in intra prediction mode . 234
8.4.1 General decoding process for coding units coded in intra prediction mode . 234
8.4.2 Derivation process for luma intra prediction mode . 236
8.4.3 Derivation process for chroma intra prediction mode . 239
8.4.4 Cross-component chroma intra prediction mode checking process . 241
8.4.5 Decoding process for intra blocks . 243
8.5 Decoding process for coding units coded in inter prediction mode . 278
8.5.1 General decoding process for coding units coded in inter prediction mode . 278
8.5.2 Derivation process for motion vector components and reference indices . 284
8.5.3 Decoder-side motion vector refinement process . 306
8.5.4 Derivation process for geometric partitioning mode motion vector
components and reference indices . 312
8.5.5 Derivation process for subblock motion vector components and reference
indices. 314
8.5.6 Decoding process for inter blocks . 345
8.5.7 Decoding process for geometric partitioning mode inter blocks . 370
8.5.8 Decoding process for the residual signal of coding blocks coded in inter
prediction mode . 376
8.5.9 Decoding process for the reconstructed signal of chroma coding blocks
coded in inter prediction mode . 378
8.6 Decoding process for coding units coded in IBC prediction mode . 380
8.6.1 General decoding process for coding units coded in IBC prediction mode . 380
8.6.2 Derivation process for block vector components for IBC blocks . 383
8.6.3 Decoding process for IBC blocks . 387
8.7 Scaling, transformation and array construction process . 388
8.7.1 Derivation process for quantization parameters . 388
8.7.2 Scaling and transformation process. 390
8.7.3 Scaling process for transform coefficients .
...

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