Information technology — JPEG 2000 image coding system: Core coding system — Part 1: — Amendment 5: Enhancements for digital cinema and archive profiles (additional frame rates)

Technologies de l'information — Système de codage d'images JPEG 2000: Système de codage de noyau — Partie 1: — Amendement 5: Améliorations pour le cinéma numérique et les profils d'archive (taux de trame supplémentaire)

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INTERNATIONAL ISO/IEC
STANDARD 15444-1
Second edition
2004-09-15
AMENDMENT 5
2013-05-01


Information technology — JPEG 2000
image coding system: Core coding
system
AMENDMENT 5: Enhancements for digital
cinema and archive profiles (additional frame
rates)
Technologies de l'information — Système de codage d'images
JPEG 2000: Système de codage de noyau —
AMENDEMENT 5: Améliorations pour le cinéma numérique et les
profils d'archive (taux de trame supplémentaire)





Reference number
ISO/IEC 15444-1:2004/Amd.5:2013(E)
©
 ISO/IEC 2013

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ISO/IEC 15444-1:2004/Amd.5:2013(E)

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ii © ISO/IEC 2013 – All rights reserved

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ISO/IEC 15444-1:2004/Amd.5:2013(E)
Foreword
ISO (the International Organization for Standardization) and IEC (the International Electrotechnical
Commission) form the specialized system for worldwide standardization. National bodies that are members of
ISO or IEC participate in the development of International Standards through technical committees
established by the respective organization to deal with particular fields of technical activity. ISO and IEC
technical committees collaborate in fields of mutual interest. Other international organizations, governmental
and non-governmental, in liaison with ISO and IEC, also take part in the work. In the field of information
technology, ISO and IEC have established a joint technical committee, ISO/IEC JTC 1.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of the joint technical committee is to prepare International Standards. Draft International
Standards adopted by the joint technical committee are circulated to national bodies for voting. Publication as
an International Standard requires approval by at least 75 % of the national bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO and IEC shall not be held responsible for identifying any or all such patent rights.
Amendment 5 to ISO/IEC 15444-1 was prepared by Joint Technical Committee ISO/IEC JTC 1, Information
technology, Subcommittee SC 29, Coding of audio, picture, multimedia and hypermedia information, in
collaboration with ITU-T. The identical text is published as ITU-T Rec. T.800 (08/2002)/Amd.5.

© ISO/IEC 2013 – All rights reserved iii

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ISO/IEC 15444-1:2004/Amd.5:2013 (E)
INTERNATIONAL STANDARD

RECOMMENDATION ITU-T
Information technology – JPEG 2000 image coding system: Core coding system
Amendment 5

Enhancements for digital cinema and archive profiles
(additional frame rates)
1) Annex A
a) The following material should be placed immediately after Table A.45. This replaces all text that previously
followed Table A.45 up to but not including Table A.47.
A.10.1 Codestream restrictions for digital cinema applications including archiving
In addition to the profiles defined in Table A.10, five profiles are defined for digital cinema and archiving applications
as detailed in Table A.46. The first two, in form of Profile-3 and Profile-4, are primarily intended for distribution. In
addition, the three profiles listed under profile indication numbers 5 to 7 are intended for archiving and production
purposes. The two extended scalable profiles (Profile-5 and Profile-6) are intended to be used for easily accessible
archives. The long-term storage profile (Profile-7) is intended for original camera capture or post-production
workflows.
 Rec. ITU-T T.800 (2002)/Amd.5 (01/2012) 1

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ISO/IEC 15444-1:2004/Amd.5:2013 (E)
2 Rec. ITU-T T.800 (2002)/Amd.5 (01/2012)
Table A.46 – Codestream restrictions for digital cinema applications
Scalable 2K digital cinema Scalable 4K digital cinema
2K digital cinema profile 4K digital cinema profile Long-term storage profile
profile profile
SIZ marker segment
Profile Indication Rsiz=3 Rsiz=4 Rsiz=5 Rsiz=6 Rsiz=7
Image size Xsiz <= 2048, Ysiz <= 1080 Xsiz <= 4096, Ysiz <= 2160 Xsiz <= 2048, Ysiz <= 1080 Xsiz <= 4096, Ysiz <= 2160 Xsiz <= 16384, Ysiz <= 8640
Tiles one tile for the whole image: one tile for the whole image: one tile for the whole image: one tile for the whole image: One tile for the whole image
or minimum tile size:
YTsiz + YTOsiz >= Ysiz YTsiz + YTOsiz >= Ysiz YTsiz + YTOsiz >= Ysiz YTsiz + YTOsiz >= Ysiz
YTsiz + YTOsiz >= 512
XTsiz + XTOsiz >= Xsiz XTsiz + XTOsiz >= Xsiz XTsiz + XTOsiz >= Xsiz XTsiz + XTOsiz >= Xsiz
XTsiz + XTOsiz >= 1024
Image and tile origin XOsiz = YOsiz = XTOsiz = XOsiz = YOsiz = XTOsiz = XOsiz = YOsiz = XTOsiz = XOsiz = YOsiz = XTOsiz = XOsiz = YOsiz = XTOsiz =
YTOsiz = 0 YTOsiz = 0 YTOsiz = 0 YTOsiz = 0 YTOsiz = 0
i i i i i i i i
Sub-sampling XRsiz = YRsiz = 1 XRsiz = YRsiz = 1 XRsiz = YRsiz = 1 XRsiz = YRsiz = 1 No restriction
Number of components Csiz = 3 Csiz = 3 Csiz = 3 Csiz = 3 Csiz<=8
i i
Bitdepth Ssizi = 11 (i.e., 12 bit Ssizi = 11 (i.e., 12 bit Ssiz = 11 (i.e., 12 bit Ssiz = 11 (i.e., 12 bit No restriction
unsigned) unsigned) unsigned) unsigned)
RGN marker segment Disallowed, i.e., no region of Disallowed, i.e., no region of Disallowed, i.e., no region of Disallowed, i.e., no region of Disallowed, i.e., no region of
interest interest interest interest interest
COD/COC marker segments Main header only Main header only Main header only Main header only Main header only
Coding style Scod, Scoc = 0000 0esp, Scod, Scoc = 0000 0esp, Scod, Scoc = 0000 0esp, Scod, Scoc = 0000 0esp, where Scod, Scoc = 0000 0esp, where
where p=1, e=0 or e=1, s=0 where p=1, e=0 or e=1, s=0 where e=s=0, and p=1 e=s=0, and p=1 e=s=1, and p=0 or 1
or s=1 or s=1
NOTE – NOTE – NOTE –
NOTE – NOTE –
e=0: EPH marker shall not e=0: EPH marker shall not be e: EPH marker shall be used
p=1: precincts defined in p=1: precincts defined in be used used
s: SOP marker may be used
SPcodIi/SPcocI SPcodIi/SPcocI
s=0: SOP marker shall not be s=0: SOP marker shall not be
p: precincts with PPx=15 and
used used
PPy=15 or defined in
i i
p=1: precincts defined in p=1: precincts defined in SPcodI /SPcocI
i i i i
SPcodI /SPcocI SPcodI /SPcocI
Progression order CPRL CPRL CPRL CPRL CPRL
Number of layers L=1 L=1 L=2 L=2 L<=5
Multiple component transform All component transforms All component transforms All component transforms All component transforms All component transforms
defined in ITU-T Rec. T.800 defined in ITU-T Rec. T.800 defined in ITU-T Rec. T.800 defined in ITU-T Rec. T.800 | defined in ITU-T Rec. T.800 |
| ISO/IEC 15444-1 may be | ISO/IEC 15444-1 may be | ISO/IEC 15444-1 may be ISO/IEC 15444-1 may be used. ISO/IEC 15444-1 may be
used. used. used. used.

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ISO/IEC 15444-1:2004/Amd.5:2013 (E)
Rec. ITU-T T.800 (2002)/Amd.5 (01/2012) 3
Table A.46 – Codestream restrictions for digital cinema applications
Scalable 2K digital cinema Scalable 4K digital cinema
2K digital cinema profile 4K digital cinema profile Long-term storage profile
profile profile
Number of decomposition NL <= 5 1<= NL <= 6 NL <= 5 1<= NL <= 6 No restriction, with respect to:
levels
Every component of every Every component of every (Xsiz-XOsiz)/D(I) <= 64
Every component of every Every component of every
image of a distribution shall image of a distribution shall image of a codestream shall image of a codestream shall
(Ysiz-YOsiz)/D(I) <= 64
have the same number of have the same number of have the same number of have the same number of
and D(I)=pow(2,NL) for each
wavelet transform levels. wavelet transform levels. wavelet transform levels. wavelet transform levels.
component I
The number of deployed The number of deployed The number of deployed The number of deployed
Every component of every
decomposition levels shall decomposition levels shall decomposition levels shall decomposition levels shall be
image of a codestream shall
be set accordingly in all be set accordingly in all be set accordingly in all set accordingly in all COD and
have the same number of
COD and COC markers. COD and COC markers. COD and COC markers. COC markers.
wavelet transform levels.
The number of deployed
decomposition levels shall be
set accordingly in all COD and
COC markers.
Code-block size xcb=ycb=5 xcb=ycb=5 xcb = ycb = 5 xcb = ycb = 5 xcb <= 6, ycb <= 6
The corresponding values The corresponding values The corresponding values The corresponding values shall The corresponding values shall
shall be set accordingly in all shall be set accordingly in all shall be set accordingly in all be set accordingly in all be set accordingly in all
deployed COD and COC deployed COD and COC deployed COD and COC deployed COD and COC deployed COD and COC
markers. markers. markers. markers. markers. Note that codeblock
sizes might differ between the
existing components.
Code-block style SPcod, SPcoc = 0000 0000 SPcod, SPcoc = 0000 0000 SPcod, SPcoc = 0000 0000 SPcod, SPcoc = 0000 0000 SPcod, SPcoc = 00sp vtra
where r = v = 0, and a, t, p, s =
0 or 1
NOTE –
a = 1 for selective arithmetic
coding bypass
t = 1 for termination on each
coding pass,
p = 1 for predictive
termination
s = 1 for segmentation symbols

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ISO/IEC 15444-1:2004/Amd.5:2013 (E)
4 Rec. ITU-T T.800 (2002)/Amd.5 (01/2012)
Table A.46 – Codestream restrictions for digital cinema applications
Scalable 2K digital cinema Scalable 4K digital cinema
2K digital cinema profile 4K digital cinema profile Long-term storage profile
profile profile
Transformation 5-3 reversible filter or 9-7 5-3 reversible filter or 9-7 9-7 irreversible filter 9-7 irreversible filter 9-7 irreversible filter
1
irreversible filter irreversible filter1

The corresponding filter The corresponding filter shall 5-3 reversible filter
The corresponding filter The corresponding filter shall be set accordingly in all be set accordingly in all COD
The corresponding filter shall
shall be set accordingly in all shall be set accordingly in all COD and COC markers. and COC markers.
be set accordingly in all COD
COD and COC markers. COD and COC markers.
and COC markers.
Precinct size PPx = PPy = 7 for NLLL PPx = PPy = 7 for NLLL PPx = PPy = 7 for NLLL PPx = PPy = 7 for NLLL band, PPx >= xcb, PPy >= ycb
band, else 8 band, else 8 band, else 8 else 8
The corresponding values shall
The corresponding values The corresponding values The corresponding values The corresponding values shall be set accordingly in all COD
and COC markers. Note that
shall be set accordingly in all shall be set accordingly in all shall be set accordingly in all be set accordingly in all COD
COD and COC markers. COD and COC markers. COD and COC markers. and COC markers. the precinct sizes might differ
between existing components.
Each compressed image Each compressed image Each compressed image Each compressed image shall Each compressed image tile
Tile-parts
shall have exactly 3 tile shall have exactly 6 tile parts shall have exactly 6 tile parts have exactly 12 tile parts as shall consist of exactly Csiz
parts. Each tile part shall as depicted in Figure A.25 as depicted in Figure A.29. depicted in Figures A.28, A.27 tile parts. Each tile part shall
contain all data from one and Figure A.26. Each of the Each of the fi
...

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