0 Introduction
0.1 Prologue
0.2 Purpose
0.3 Applications
0.4 Publication and versions of this
Specification
0.5 Profiles and levels
0.6 Overview of the design
characteristics
0.6.1 Predictive coding
0.6.2 Coding of
progressive and interlaced video
0.6.3 Picture partitioning
into macroblocks and smaller partitions
0.6.4 Spatial redundancy
reduction
0.7 How to read this Specification
1 Scope
2 Normative
references
3 Definitions
4 Abbreviations
5 Conventions
5.1 Arithmetic operators
5.2 Logical operators
5.3 Relational operators
5.4 Bit-wise operators
5.5 Assignment operators
5.6 Range notation
5.7 Mathematical functions
5.8 Order of operation precedence
5.9 Variables, syntax elements, and
tables
5.10 Text description of logical
operations
5.11 Processes
6 Source, coded,
decoded and output data formats, scanning processes, and neighbouring
relationships
6.1 Bitstream formats
6.2 Source, decoded, and output
picture formats
6.3 Spatial subdivision of pictures
and slices
6.4 Inverse scanning processes and
derivation processes for neighbours
6.4.1 Inverse macroblock
scanning process
6.4.2 Inverse macroblock
partition and sub-macroblock partition scanning process
6.4.2.1 Inverse
macroblock partition scanning process
6.4.2.2 Inverse
sub-macroblock partition scanning process
6.4.3 Inverse 4x4 luma
block scanning process
6.4.4 Inverse 4x4 Cb or Cr
block scanning process for ChromaArrayType equal to 3
6.4.5 Inverse 8x8 luma
block scanning process
6.4.6 Inverse 8x8 Cb or Cr
block scanning process for ChromaArrayType equal to 3
6.4.7 Inverse 4x4 chroma
block scanning process
6.4.8 Derivation process
of the availability for macroblock addresses
6.4.9 Derivation process
for neighbouring macroblock addresses and their availability
6.4.10 Derivation process
for neighbouring macroblock addresses and their availability in MBAFF frames
6.4.11 Derivation
processes for neighbouring macroblocks, blocks, and partitions
6.4.11.1 Derivation
process for neighbouring macroblocks
6.4.11.2 Derivation
process for neighbouring 8x8 luma block
6.4.11.3 Derivation
process for neighbouring 8x8 chroma blocks for ChromaArrayType equal to 3
6.4.11.4 Derivation
process for neighbouring 4x4 luma blocks
6.4.11.5 Derivation
process for neighbouring 4x4 chroma blocks
6.4.11.6 Derivation
process for neighbouring 4x4 chroma blocks for ChromaArrayType equal to 3
6.4.11.7 Derivation
process for neighbouring partitions
6.4.12 Derivation process
for neighbouring locations
6.4.12.1 Specification
for neighbouring locations in fields and non-MBAFF frames
6.4.12.2 Specification
for neighbouring locations in MBAFF frames
6.4.13 Derivation
processes for block and partition indices
6.4.13.1 Derivation
process for 4x4 luma block indices
6.4.13.2 Derivation
process for 4x4 chroma block indices
6.4.13.3 Derivation
process for 8x8 luma block indices
6.4.13.4 Derivation
process for macroblock and sub-macroblock partition indices
7 Syntax and
semantics
7.1 Method of specifying syntax in
tabular form
7.2 Specification of syntax
functions, categories, and descriptors
7.3 Syntax in tabular form
7.3.1 NAL unit syntax
7.3.2 Raw byte sequence
payloads and RBSP trailing bits syntax
7.3.2.1 Sequence
parameter set RBSP syntax
7.3.2.2 Picture
parameter set RBSP syntax
7.3.2.3 Supplemental
enhancement information RBSP syntax
7.3.2.4 Access
unit delimiter RBSP syntax
7.3.2.5 End
of sequence RBSP syntax
7.3.2.6 End
of stream RBSP syntax
7.3.2.7 Filler
data RBSP syntax
7.3.2.8 Slice
layer without partitioning RBSP syntax
7.3.2.9 Slice
data partition RBSP syntax
7.3.2.10 RBSP
slice trailing bits syntax
7.3.2.11 RBSP
trailing bits syntax
7.3.2.12 Prefix
NAL unit RBSP syntax
7.3.2.13 Slice
layer extension RBSP syntax
7.3.3 Slice header syntax
7.3.3.1 Reference
picture list modification syntax
7.3.3.2 Prediction
weight table syntax
7.3.3.3 Decoded
reference picture marking syntax
7.3.4 Slice data syntax
7.3.5 Macroblock layer
syntax
7.3.5.1 Macroblock
prediction syntax
7.3.5.2 Sub-macroblock
prediction syntax
7.3.5.3 Residual
data syntax
7.4 Semantics
7.4.1 NAL unit semantics
7.4.1.1 Encapsulation
of an SODB within an RBSP (informative)
7.4.1.2 Order
of NAL units and association to coded pictures, access units, and video
sequences
7.4.2 Raw byte sequence
payloads and RBSP trailing bits semantics
7.4.2.1 Sequence
parameter set RBSP semantics
7.4.2.2 Picture
parameter set RBSP semantics
7.4.2.3 Supplemental
enhancement information RBSP semantics
7.4.2.4 Access
unit delimiter RBSP semantics
7.4.2.5 End
of sequence RBSP semantics
7.4.2.6 End
of stream RBSP semantics
7.4.2.7 Filler
data RBSP semantics
7.4.2.8 Slice
layer without partitioning RBSP semantics
7.4.2.9 Slice
data partition RBSP semantics
7.4.2.10 RBSP
slice trailing bits semantics
7.4.2.11 RBSP
trailing bits semantics
7.4.2.12 Prefix
NAL unit RBSP semantics
7.4.2.13 Slice
layer extension RBSP semantics
7.4.3 Slice header
semantics
7.4.3.1 Reference
picture list modification semantics
7.4.3.2 Prediction
weight table semantics
7.4.3.3 Decoded
reference picture marking semantics
7.4.4 Slice data semantics
7.4.5 Macroblock layer
semantics
7.4.5.1 Macroblock
prediction semantics
7.4.5.2 Sub-macroblock
prediction semantics
7.4.5.3 Residual
data semantics
8 Decoding process
8.1 NAL unit decoding process
8.2 Slice decoding process
8.2.1 Decoding process for
picture order count
8.2.1.1 Decoding
process for picture order count type 0
8.2.1.2 Decoding
process for picture order count type 1
8.2.1.3 Decoding
process for picture order count type 2
8.2.2 Decoding process for
macroblock to slice group map
8.2.2.1 Specification
for interleaved slice group map type
8.2.2.2 Specification
for dispersed slice group map type
8.2.2.3 Specification
for foreground with left-over slice group map type
8.2.2.4 Specification
for box-out slice group map types
8.2.2.5 Specification
for raster scan slice group map types
8.2.2.6 Specification
for wipe slice group map types
8.2.2.7 Specification
for explicit slice group map type
8.2.2.8 Specification
for conversion of map unit to slice group map to macroblock to slice group map
8.2.3 Decoding process for
slice data partitions
8.2.4 Decoding process for
reference picture lists construction
8.2.4.1 Decoding
process for picture numbers
8.2.4.2 Initialisation
process for reference picture lists
8.2.4.3 Modification
process for reference picture lists
8.2.5 Decoded reference
picture marking process
8.2.5.1 Sequence
of operations for decoded reference picture marking process
8.2.5.2 Decoding
process for gaps in frame_num
8.2.5.3 Sliding
window decoded reference picture marking process
8.2.5.4 Adaptive
memory control decoded reference picture marking process
8.3 Intra prediction process
8.3.1 Intra_4x4 prediction
process for luma samples
8.3.1.1 Derivation
process for Intra4x4PredMode
8.3.1.2 Intra_4x4
sample prediction
8.3.2 Intra_8x8 prediction
process for luma samples
8.3.2.1 Derivation
process for Intra8x8PredMode
8.3.2.2 Intra_8x8
sample prediction
8.3.3 Intra_16x16
prediction process for luma samples
8.3.3.1 Specification
of Intra_16x16_Vertical prediction mode
8.3.3.2 Specification
of Intra_16x16_Horizontal prediction mode
8.3.3.3 Specification
of Intra_16x16_DC prediction mode
8.3.3.4 Specification
of Intra_16x16_Plane prediction mode
8.3.4 Intra prediction
process for chroma samples
8.3.4.1 Specification
of Intra_Chroma_DC prediction mode
8.3.4.2 Specification
of Intra_Chroma_Horizontal prediction mode
8.3.4.3 Specification
of Intra_Chroma_Vertical prediction mode
8.3.4.4 Specification
of Intra_Chroma_Plane prediction mode
8.3.4.5 Intra
prediction for chroma samples with ChromaArrayType equal to 3
8.3.5 Sample construction
process for I_PCM macroblocks
8.4 Inter prediction process
8.4.1 Derivation process
for motion vector components and reference indices
8.4.1.1 Derivation
process for luma motion vectors for skipped macroblocks in P and SP slices
8.4.1.2 Derivation
process for luma motion vectors for B_Skip, B_Direct_16x16, and B_Direct_8x8
8.4.1.3 Derivation
process for luma motion vector prediction
8.4.1.4 Derivation
process for chroma motion vectors
8.4.2 Decoding process for
Inter prediction samples
8.4.2.1 Reference
picture selection process
8.4.2.2 Fractional
sample interpolation process
8.4.2.3 Weighted
sample prediction process
8.4.3 Derivation process
for prediction weights
8.5 Transform coefficient decoding
process and picture construction process prior to deblocking filter process
8.5.1 Specification of
transform decoding process for 4x4 luma residual blocks
8.5.2 Specification of
transform decoding process for luma samples of Intra_16x16 macroblock
prediction mode
8.5.3 Specification of
transform decoding process for 8x8 luma residual blocks
8.5.4 Specification of
transform decoding process for chroma samples
8.5.5 Specification of
transform decoding process for chroma samples with ChromaArrayType equal
to 3
8.5.6 Inverse scanning
process for 4x4 transform coefficients and scaling lists
8.5.7 Inverse scanning
process for 8x8 transform coefficients and scaling lists
8.5.8 Derivation process
for chroma quantisation parameters
8.5.9 Derivation process
for scaling functions
8.5.10 Scaling and
transformation process for DC transform coefficients for Intra_16x16 macroblock
type
8.5.11 Scaling and
transformation process for chroma DC transform coefficients
8.5.11.1 Transformation
process for chroma DC transform coefficients
8.5.11.2 Scaling
process for chroma DC transform coefficients
8.5.12 Scaling and
transformation process for residual 4x4 blocks
8.5.12.1 Scaling
process for residual 4x4 blocks
8.5.12.2 Transformation
process for residual 4x4 blocks
8.5.13 Scaling and
transformation process for residual 8x8 blocks
8.5.13.1 Scaling
process for residual 8x8 blocks
8.5.13.2 Transformation
process for residual 8x8 blocks
8.5.14 Picture
construction process prior to deblocking filter process
8.5.15 Intra residual
transform-bypass decoding process
8.6 Decoding process for P
macroblocks in SP slices or SI macroblocks
8.6.1 SP decoding process
for non-switching pictures
8.6.1.1 Luma
transform coefficient decoding process
8.6.1.2 Chroma
transform coefficient decoding process
8.6.2 SP and SI slice
decoding process for switching pictures
8.6.2.1 Luma
transform coefficient decoding process
8.6.2.2 Chroma
transform coefficient decoding process
8.7 Deblocking filter process
8.7.1 Filtering process
for block edges
8.7.2 Filtering process
for a set of samples across a horizontal or vertical block edge
8.7.2.1 Derivation
process for the luma content dependent boundary filtering strength
8.7.2.2 Derivation process for the thresholds for each block
edge
8.7.2.3 Filtering
process for edges with bS less than 4
8.7.2.4 Filtering
process for edges for bS equal to 4
9 Parsing process
9.1 Parsing process for Exp-Golomb
codes
9.1.1 Mapping process for
signed Exp-Golomb codes
9.1.2 Mapping process for
coded block pattern
9.2 CAVLC parsing process for
transform coefficient levels
9.2.1 Parsing process for
total number of non-zero transform coefficient levels and number of trailing
ones
9.2.2 Parsing process for
level information
9.2.2.1 Parsing
process for level_prefix
9.2.3 Parsing process for
run information
9.2.4 Combining level and
run information
9.3 CABAC parsing process for slice
data
9.3.1 Initialisation
process
9.3.1.1 Initialisation
process for context variables
9.3.1.2 Initialisation
process for the arithmetic decoding engine
9.3.2 Binarization process
9.3.2.1 Unary
(U) binarization process
9.3.2.2 Truncated
unary (TU) binarization process
9.3.2.3 Concatenated
unary/ k-th order Exp-Golomb (UEGk) binarization process
9.3.2.4 Fixed-length
(FL) binarization process
9.3.2.5 Binarization
process for macroblock type and sub-macroblock type
9.3.2.6 Binarization
process for coded block pattern
9.3.2.7 Binarization
process for mb_qp_delta
9.3.3 Decoding process
flow
9.3.3.1 Derivation
process for ctxIdx
9.3.3.2 Arithmetic
decoding process
9.3.4 Arithmetic encoding
process (informative)
9.3.4.1 Initialisation
process for the arithmetic encoding engine (informative)
9.3.4.2 Encoding
process for a binary decision (informative)
9.3.4.3 Renormalization
process in the arithmetic encoding engine (informative)
9.3.4.4 Bypass
encoding process for binary decisions (informative)
9.3.4.5 Encoding
process for a binary decision before termination (informative)
9.3.4.6 Byte
stuffing process (informative)
Annex A Profiles and levels
A.1 Requirements on video decoder
capability
A.2 Profiles
A.2.1 Baseline profile
A.2.1.1 Constrained
Baseline profile
A.2.2 Main profile
A.2.3 Extended profile
A.2.4 High profile
A.2.4.1 Progressive
High profile
A.2.4.2 Constrained
High profile
A.2.5 High 10 profile
A.2.5.1 Progressive
High 10 profile
A.2.6 High 4:2:2 profile
A.2.7 High
4:4:4 Predictive profile
A.2.8 High 10 Intra
profile
A.2.9 High
4:2:2 Intra profile
A.2.10 High
4:4:4 Intra profile
A.2.11 CAVLC
4:4:4 Intra profile
A.3 Levels
A.3.1 Level limits common
to the Baseline, Constrained Baseline, Main, and Extended profiles
A.3.2 Level limits common
to the High, Progressive High, Constrained High, High 10,
Progressive High 10, High 4:2:2, High 4:4:4 Predictive,
High 10 Intra, High 4:2:2 Intra,
High 4:4:4 Intra, and CAVLC 4:4:4 Intra profiles
A.3.3 Profile-specific
level limits
A.3.3.1 Level
limits of the Baseline and Constrained Baseline profile
A.3.3.2 Level
limits of the Main, High, Progressive High, Constrained High,
High 10, Progressive High 10, High 4:2:2,
High 4:4:4 Predictive, High 10 Intra,
High 4:2:2 Intra, High 4:4:4 Intra, and
CAVLC 4:4:4 Intra profile
A.3.3.3 Level
limits of the Extended profile
A.3.4 Effect of level
limits on frame rate (informative)
A.3.5 Effect of level
limits on maximum DPB size in units of frames (informative)
Annex B Byte stream format
B.1 Byte stream NAL unit syntax and
semantics
B.1.1 Byte stream NAL unit
syntax
B.1.2 Byte stream NAL unit
semantics
B.2 Byte stream NAL unit decoding
process
B.3 Decoder byte-alignment recovery
(informative)
Annex C Hypothetical reference decoder
C.1 Operation of coded picture
buffer (CPB)
C.1.1 Timing of bitstream
arrival
C.1.2 Timing of coded
picture removal
C.2 Operation of the decoded picture
buffer (DPB)
C.2.1 Decoding of gaps in
frame_num and storage of "non-existing" frames
C.2.2 Picture decoding and
output
C.2.3 Removal of pictures
from the DPB before possible insertion of the current picture
C.2.4 Current decoded
picture marking and storage
C.2.4.1 Marking
and storage of a reference picture into the DPB
C.2.4.2 Storage
of a non-reference picture into the DPB
C.3 Bitstream conformance
C.4 Decoder conformance
C.4.1 Operation of the
output order DPB
C.4.2 Decoding of gaps in
frame_num and storage of "non-existing" pictures
C.4.3 Picture decoding
C.4.4 Removal of pictures
from the DPB before possible insertion of the current picture
C.4.5 Current decoded
picture marking and storage
C.4.5.1 Storage
and marking of a reference decoded picture into the DPB
C.4.5.2 Storage
and marking of a non-reference decoded picture into the DPB
C.4.5.3 "Bumping"
process
Annex D Supplemental enhancement information
D.1 SEI payload syntax
D.1.1 General
SEI message syntax
D.1.2 Buffering period SEI
message syntax
D.1.3 Picture timing SEI
message syntax
D.1.4 Pan-scan rectangle SEI message syntax
D.1.5 Filler payload SEI
message syntax
D.1.6 User
data registered by Rec. ITU‑T T.35 SEI message syntax
D.1.7 User data unregistered SEI message syntax
D.1.8 Recovery point SEI
message syntax
D.1.9 Decoded reference
picture marking repetition SEI message syntax
D.1.10 Spare picture SEI
message syntax
D.1.11 Scene information
SEI message syntax
D.1.12 Sub-sequence information SEI message syntax
D.1.13 Sub-sequence layer
characteristics SEI message syntax
D.1.14 Sub-sequence
characteristics SEI message syntax
D.1.15 Full-frame freeze
SEI message syntax
D.1.16 Full-frame freeze
release SEI message syntax
D.1.17 Full-frame snapshot
SEI message syntax
D.1.18 Progressive refinement segment start SEI message syntax
D.1.19 Progressive refinement segment end SEI message syntax
D.1.20 Motion-constrained
slice group set SEI message syntax
D.1.21 Film grain
characteristics SEI message syntax
D.1.22 Deblocking filter
display preference SEI message syntax
D.1.23 Stereo video information SEI message syntax
D.1.24 Post-filter hint SEI message syntax
D.1.25 Tone mapping
information SEI message syntax
D.1.26 Frame packing
arrangement SEI message syntax
D.1.27 Display orientation
SEI message syntax
D.1.28 Green
metadata SEI message syntax
D.1.29 Mastering display
colour volume SEI message syntax
D.1.30 Colour remapping
information SEI message syntax
D.1.31 Alternative
transfer characteristics SEI message syntax
D.1.32 Reserved SEI
message syntax
D.2 SEI payload semantics
D.2.1 General SEI payload
semantics
D.2.2 Buffering period SEI
message semantics
D.2.3 Picture timing SEI
message semantics
D.2.4 Pan-scan
rectangle SEI message semantics
D.2.5 Filler payload SEI
message semantics
D.2.6 User
data registered by Rec. ITU‑T T.35 SEI message semantics
D.2.7 User data
unregistered SEI message semantics
D.2.8 Recovery point SEI
message semantics
D.2.9 Decoded reference
picture marking repetition SEI message semantics
D.2.10 Spare picture SEI
message semantics
D.2.11 Scene information
SEI message semantics
D.2.12 Sub-sequence information SEI message semantics
D.2.13 Sub-sequence layer
characteristics SEI message semantics
D.2.14 Sub-sequence
characteristics SEI message semantics
D.2.15 Full-frame freeze
SEI message semantics
D.2.16 Full-frame freeze
release SEI message semantics
D.2.17 Full-frame snapshot
SEI message semantics
D.2.18 Progressive
refinement segment start SEI message semantics
D.2.19 Progressive
refinement segment end SEI message semantics
D.2.20 Motion-constrained
slice group set SEI message semantics
D.2.21 Film grain
characteristics SEI message semantics
D.2.22 Deblocking filter
display preference SEI message semantics
D.2.23 Stereo video
information SEI message semantics
D.2.24 Post-filter hint
SEI message semantics
D.2.25 Tone mapping
information SEI message semantics
D.2.26 Frame packing
arrangement SEI message semantics
D.2.27 Display orientation
SEI message semantics
D.2.28 Green metadata SEI message semantics
D.2.29 Mastering display
colour volume SEI message semantics
D.2.30 Colour remapping
information SEI message semantics
D.2.31 Alternative
transfer characteristics SEI message semantics
D.2.32 Reserved SEI
message semantics
Annex E Video usability information
E.1 VUI syntax
E.1.1 VUI parameters
syntax
E.1.2 HRD parameters
syntax
E.2 VUI semantics
E.2.1 VUI parameters
semantics
E.2.2 HRD parameters
semantics
Annex F Intellectual property rights information
Annex G Scalable video coding
G.1 Scope
G.2 Normative references
G.3 Definitions
G.4 Abbreviations
G.5 Conventions
G.6 Source, coded, decoded and
output data formats, scanning processes, neighbouring and reference layer
relationships
G.6.1 Derivation process
for reference layer macroblocks
G.6.1.1 Field-to-frame
reference layer macroblock conversion process
G.6.1.2 Frame-to-field
reference layer macroblock conversion process
G.6.2 Derivation process
for reference layer partitions
G.6.3 Derivation process
for reference layer sample locations in resampling
G.6.4 SVC derivation
process for macroblock and sub-macroblock partition indices
G.7 Syntax and semantics
G.7.1 Method of specifying
syntax in tabular form
G.7.2 Specification of
syntax functions, categories, and descriptors
G.7.3 Syntax in tabular
form
G.7.3.1 NAL
unit syntax
G.7.3.2 Raw byte sequence payloads and RBSP trailing bits syntax
G.7.3.3 Slice
header syntax
G.7.3.4 Slice
data syntax
G.7.3.5 Macroblock
layer syntax
G.7.3.6 Macroblock
layer in scalable extension syntax
G.7.4 Semantics
G.7.4.1 NAL
unit semantics
G.7.4.2 Raw
byte sequence payloads and RBSP trailing bits semantics
G.7.4.3 Slice
header semantics
G.7.4.4 Slice
data semantics
G.7.4.5 Macroblock
layer semantics
G.7.4.6 Macroblock
layer in scalable extension semantics
G.8 SVC decoding process
G.8.1 SVC initialisation
and decoding processes
G.8.1.1 Derivation
process for the set of layer representations required for decoding
G.8.1.2 Array
assignment, initialisation, and restructuring processes
G.8.1.3 Layer
representation decoding processes
G.8.1.4 Slice
decoding processes
G.8.1.5 Macroblock
initialisation and decoding processes
G.8.2 SVC reference
picture lists construction and decoded reference picture marking process
G.8.2.1 SVC
decoding process for picture order count
G.8.2.2 SVC
decoding process for picture numbers
G.8.2.3 SVC
decoding process for reference picture lists construction
G.8.2.4 SVC
decoded reference picture marking process
G.8.2.5 SVC
decoding process for gaps in frame_num
G.8.3 SVC intra decoding
processes
G.8.3.1 SVC
derivation process for intra prediction modes
G.8.3.2 SVC
intra sample prediction and construction process
G.8.4 SVC Inter prediction
process
G.8.4.1 SVC
derivation process for motion vector components and reference indices
G.8.4.2 SVC
decoding process for Inter prediction samples
G.8.5 SVC transform
coefficient decoding and sample array construction processes
G.8.5.1 Transform
coefficient scaling and refinement process
G.8.5.2 Transform
coefficient level scaling process prior to transform coefficient refinement
G.8.5.3 Residual
construction and accumulation process
G.8.5.4 Sample
array accumulation process
G.8.5.5 Sample
array re-initialisation process
G.8.6 Resampling processes
for prediction data, intra samples, and residual samples
G.8.6.1 Derivation
process for inter-layer predictors for macroblock type, sub-macroblock type,
reference indices, and motion vectors
G.8.6.2 Resampling
process for intra samples
G.8.6.3 Resampling
process for residual samples
G.8.7 SVC deblocking
filter processes
G.8.7.1 Deblocking
filter process for Intra_Base prediction
G.8.7.2 Deblocking
filter process for target representations
G.8.7.3 Derivation
process for quantisation parameters used in the deblocking filter process
G.8.7.4 Macroblock
deblocking filter process
G.8.8 Specification of
bitstream subsets
G.8.8.1 Sub-bitstream
extraction process
G.8.8.2 Specification
of the base layer bitstream
G.9 Parsing process
G.9.1 Alternative parsing
process for coded block pattern
G.9.2 Alternative CAVLC
parsing process for transform coefficient levels
G.9.2.1 Additional
parsing process for total number of non-zero transform coefficient levels and
number of trailing ones
G.9.2.2 Alternative
parsing process for run information
G.9.3 Alternative CABAC
parsing process for slice data in scalable extension
G.9.3.1 Initialisation
process
G.9.3.2 Binarization
process
G.9.3.3 Decoding
process flow
G.10 Profiles and levels
G.10.1 Profiles
G.10.1.1 Scalable
Baseline profile
G.10.1.2 Scalable
High profile
G.10.1.3 Scalable
High Intra profile
G.10.2 Levels
G.10.2.1 Level
limits common to Scalable Baseline, Scalable Constrained Baseline, Scalable
High, Scalable Constrained High, and Scalable High Intra profiles
G.10.2.2 Profile
specific level limits
G.11 Byte stream format
G.12 Hypothetical reference decoder
G.13 Supplemental enhancement
information
G.13.1 SEI payload syntax
G.13.1.1 Scalability
information SEI message syntax
G.13.1.2 Sub-picture
scalable layer SEI message syntax
G.13.1.3 Non-required
layer representation SEI message syntax
G.13.1.4 Priority
layer information SEI message syntax
G.13.1.5 Layers
not present SEI message syntax
G.13.1.6 Layer
dependency change SEI message syntax
G.13.1.7 Scalable
nesting SEI message syntax
G.13.1.8 Base layer temporal HRD SEI message syntax
G.13.1.9 Quality
layer integrity check SEI message syntax
G.13.1.10 Redundant
picture property SEI message syntax
G.13.1.11 Temporal
level zero dependency representation index SEI message syntax
G.13.1.12 Temporal
level switching point SEI message syntax
G.13.2 SEI payload
semantics
G.13.2.1 Scalability
information SEI message semantics
G.13.2.2 Sub-picture
scalable layer SEI message semantics
G.13.2.3 Non-required
layer representation SEI message semantics
G.13.2.4 Priority
layer information SEI message semantics
G.13.2.5 Layers
not present SEI message semantics
G.13.2.6 Layer
dependency change SEI message semantics
G.13.2.7 Scalable
nesting SEI message semantics
G.13.2.8 Base
layer temporal HRD SEI message semantics
G.13.2.9 Quality
layer integrity check SEI message semantics
G.13.2.10 Redundant
picture property SEI message semantics
G.13.2.11 Temporal
level zero dependency representation index SEI message semantics
G.13.2.12 Temporal
level switching point SEI message semantics
G.14 Video usability information
G.14.1 SVC VUI parameters
extension syntax
G.14.2 SVC VUI parameters
extension semantics
Annex H Multiview video coding
H.1 Scope
H.2 Normative references
H.3 Definitions
H.4 Abbreviations
H.5 Conventions
H.6 Source, coded, decoded and
output data formats, scanning processes, and neighbouring relationships
H.7 Syntax and semantics
H.7.1 Method of specifying
syntax in tabular form
H.7.2 Specification of
syntax functions, categories, and descriptors
H.7.3 Syntax in tabular
form
H.7.3.1 NAL
unit syntax
H.7.3.2 Raw
byte sequence payloads and RBSP trailing bits syntax
H.7.3.3 Slice
header syntax
H.7.3.4 Slice
data syntax
H.7.3.5 Macroblock
layer syntax
H.7.4 Semantics
H.7.4.1 NAL
unit semantics
H.7.4.2 Raw
byte sequence payloads and RBSP trailing bits semantics
H.7.4.3 Slice
header semantics
H.7.4.4 Slice
data semantics
H.7.4.5 Macroblock
layer semantics
H.8 MVC decoding process
H.8.1 MVC decoding process
for picture order count
H.8.2 MVC decoding process
for reference picture lists construction
H.8.2.1 Initialisation
process for reference picture list for inter-view prediction references
H.8.2.2 Modification
process for reference picture lists
H.8.3 MVC decoded
reference picture marking process
H.8.4 MVC inter prediction
and inter-view prediction process
H.8.4.1 Additional
processing for an inter-view prediction reference
H.8.5 Specification of
bitstream subsets
H.8.5.1 Derivation
process for required anchor view components
H.8.5.2 Derivation
process for required non-anchor view components
H.8.5.3 Sub-bitstream
extraction process
H.8.5.4 Specification
of the base view bitstream
H.8.5.5 Creation
of a base view during sub-bitstream extraction (informative)
H.8.6 MFC enhanced
resolution picture reconstruction
H.9 Parsing
process
H.10 Profiles
and levels
H.10.1 Profiles
H.10.1.1 Multiview
High profile
H.10.1.2 Stereo
High profile
H.10.1.3 MFC
High profile
H.10.2 Levels
H.10.2.1 Level
limits common to Multiview High, Stereo High, and MFC High profiles
H.10.2.2 Profile
specific level limits
H.11 Byte stream format
H.12 MVC hypothetical reference
decoder
H.13 MVC SEI messages
H.13.1 SEI message syntax
H.13.1.1 Parallel
decoding information SEI message syntax
H.13.1.2 MVC scalable nesting SEI message syntax
H.13.1.3 View
scalability information SEI message syntax
H.13.1.4 Multiview scene information SEI message syntax
H.13.1.5 Multiview acquisition information SEI message syntax
H.13.1.6 Non-required
view component SEI message syntax
H.13.1.7 View
dependency change SEI message syntax
H.13.1.8 Operation
point not present SEI message syntax
H.13.1.9 Base
view temporal HRD SEI message syntax
H.13.1.10 Multiview
view position SEI message syntax
H.13.2 SEI message
semantics
H.13.2.1 Parallel
decoding information SEI message semantics
H.13.2.2 MVC
scalable nesting SEI message semantics
H.13.2.3 View
scalability information SEI message semantics
H.13.2.4 Multiview
scene information SEI message semantics
H.13.2.5 Multiview acquisition information SEI
message semantics
H.13.2.6 Non-required
view component SEI message semantics
H.13.2.7 View
dependency change SEI message semantics
H.13.2.8 Operation
point not present SEI message semantics
H.13.2.9 Base
view temporal HRD SEI message semantics
H.13.2.10 Multiview
view position SEI message semantics
H.14 Video usability information
H.14.1 MVC VUI parameters
extension syntax
H.14.2 MVC VUI parameters
extension semantics
Annex I Multiview and depth video coding
I.1 Scope
I.2 Normative references
I.3 Definitions
I.4 Abbreviations
I.5 Conventions
I.6 Source, coded, decoded and
output data formats, scanning processes, and neighbouring relationships
I.7 Syntax and semantics
I.7.1 Method of specifying
syntax in tabular form
I.7.2 Specification of
syntax functions, categories, and descriptors
I.7.3 Syntax in tabular
form
I.7.3.1 NAL
unit syntax
I.7.3.2 Raw
byte sequence payloads and RBSP trailing bits syntax
I.7.3.3 Slice
header syntax
I.7.3.4 Slice
data syntax
I.7.3.5 Macroblock
layer syntax
I.7.4 Semantics
I.7.4.1 NAL
unit semantics
I.7.4.2 Raw
byte sequence payloads and RBSP trailing bits semantics
I.7.4.3 Slice
header semantics
I.7.4.4 Slice
data semantics
I.7.4.5 Macroblock
layer semantics
I.8 MVCD decoding process
I.8.1 MVCD decoding
process for picture order count
I.8.2 MVC decoding process
for reference picture lists construction
I.8.2.1 Initialisation
process for reference picture list for inter-view prediction references
I.8.2.2 Modification
process for reference picture lists
I.8.3 MVCD decoded
reference picture marking process
I.8.4 MVCD inter
prediction and inter-view prediction process
I.8.5 Specification of bitstream
subsets
I.8.5.1 Derivation
process for required anchor view components
I.8.5.2 Derivation
process for required non-anchor view components
I.8.5.3 Sub-bitstream
extraction process
I.8.5.4 Specification
of the base view bitstream
I.8.5.5 Specification
of the stereoscopic texture bitstream
I.9 Parsing process
I.10 Profiles and levels
I.10.1 Profiles
I.10.1.1 Multiview
Depth High profile
I.10.1.2 MFC
Depth High profile
I.10.2 Levels
I.10.2.1 Level
limits common to Multiview Depth High profiles
I.10.2.2 Profile
specific level limits
I.11 Byte stream format
I.12 MVCD hypothetical reference
decoder
I.13 MVCD SEI messages
I.13.1 SEI message syntax
I.13.1.1 MVCD
view scalability information SEI message syntax
I.13.1.2 MVCD
scalable nesting SEI message syntax
I.13.1.3 Depth representation information SEI message syntax
I.13.1.4 Depth representation SEI element syntax
I.13.1.5 3D reference displays information SEI message syntax
I.13.1.6 Depth timing SEI message syntax
I.13.1.7 Alternative depth information SEI
message syntax
I.13.1.8 Depth sampling information SEI message syntax
I.13.2 SEI message semantics
I.13.2.1 MVCD view scalability information SEI
message semantics
I.13.2.2 MVCD scalable
nesting SEI message semantics
I.13.2.3 Depth representation information SEI message semantics
I.13.2.4 Depth representation SEI element semantics
I.13.2.5 3D reference
displays information SEI
message semantics
I.13.2.6 Depth
timing SEI message semantics
I.13.2.7 Alternative depth
information SEI message
semantics
I.13.2.8 Depth sampling information SEI message semantics
I.14 Video usability information
I.14.1 MVCD VUI parameters
extension syntax
I.14.2 MVCD VUI parameters
extension semantics
Annex J Multiview and depth video with enhanced non-base view coding
J.1 Scope
J.2 Normative references
J.3 Definitions
J.4 Abbreviations
J.5 Conventions
J.6 Source, coded, decoded and
output data formats, scanning processes, and neighbouring relationships
J.6.1 Inverse
sub-macroblock partition scanning process
J.7 Syntax and semantics
J.7.1 Method of specifying
syntax in tabular form
J.7.2 Specification of
syntax functions, categories, and descriptors
J.7.3 Syntax in tabular
form
J.7.3.1 NAL
unit syntax
J.7.3.2 Raw
byte sequence payloads and RBSP trailing bits syntax
J.7.3.3 Slice
header syntax
J.7.3.4 Slice
data syntax
J.7.3.5 Macroblock
layer syntax
J.7.3.6 Macroblock
layer in 3D-AVC extension syntax
J.7.4 Semantics
J.7.4.1 NAL
unit semantics
J.7.4.2 Raw
byte sequence payloads and RBSP trailing bits semantics
J.7.4.3 Slice
header semantics
J.7.4.4 Slice
data semantics
J.7.4.5 Macroblock
layer semantics
J.7.4.6 Macroblock
layer in 3D-AVC extension semantics
J.8 3D-AVC decoding process
J.8.1 3D-AVC decoding
process for reference picture lists construction
J.8.2 3D-AVC inter
prediction, inter-view prediction, view synthesis prediction and adaptive
luminance compensation
J.8.2.1 Derivation
process for motion vector components and reference indices
J.8.2.2 Derivation
of prediction weights in depth-range-based weighted prediction
J.8.2.3 Derivation
process for motion vectors and reference indices for adaptive luminance
compensation
J.8.2.4 Derivation
process for prediction weights in adaptive luminance compensation
J.8.3 Specification of
bitstream subsets
J.8.4 Decoding process for
depth range parameters
J.9 Parsing process
J.9.1 Alternative CABAC
parsing process for slice data and macroblock layer in depth extension
J.9.1.1 Initialisation
process
J.9.1.2 Binarization
process
J.9.1.3 Decoding
process flow
J.10 Profiles and levels
J.10.1 Profiles
J.10.1.1 Enhanced
Multiview Depth High profile
J.10.2 Levels
J.10.2.1 Level
limits for Enhanced Multiview Depth High profile
J.10.2.2 Profile
specific level limits
J.11 Byte stream format
J.12 3D-AVC hypothetical reference
decoder
J.13 3D-AVC SEI messages
J.13.1 SEI message syntax
J.13.1.1 Constrained
depth parameter set identifier SEI message syntax
J.13.2 SEI message
semantics
J.13.2.1 Constrained
depth parameter set identifier SEI message semantics
J.14 Video usability information