Information technology — Coding of audio-visual objects — Part 4: Conformance testing — Amendment 30: Conformance testing for new profiles for professional applications

Technologies de l'information — Codage des objets audiovisuels — Partie 4: Essai de conformité — Amendement 30: Essai de conformité pour nouveaux profils pour applications professionnelles

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INTERNATIONAL ISO/IEC
STANDARD 14496-4
Second edition
2004-12-15
AMENDMENT 30
2009-02-15


Information technology — Coding
of audio-visual objects —
Part 4:
Conformance testing
AMENDMENT 30: Conformance testing
for new profiles for professional applications
Technologies de l'information — Codage des objets audiovisuels —
Partie 4: Essai de conformité
AMENDEMENT 30: Essai de conformité pour nouveaux profils pour
applications professionnelles




Reference number
ISO/IEC 14496-4:2004/Amd.30:2009(E)
©
ISO/IEC 2009

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ISO/IEC 14496-4:2004/Amd.30:2009(E)
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ii © ISO/IEC 2009 – All rights reserved

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ISO/IEC 14496-4:2004/Amd.30:2009(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 30 to ISO/IEC 14496-4:2004 was prepared by Joint Technical Committee ISO/IEC JTC 1,
Information technology, Subcommittee SC 29, Coding of audio, picture, multimedia and hypermedia
information.
This Amendment establishes conformance test requirements for conformance to ISO/IEC 14496-10.
In this Amendment, additional text to ISO/IEC 14496-10 is specified for testing the conformance of
ISO/IEC 14496-10 video decoders including in particular the AVC Professional Profiles, which consist of the
High 10 Intra, High 4:2:2 Intra, High 4:4:4 Intra, CAVLC 4:4:4 Intra, and High 4:4:4 Predictive profiles.
The following subclauses specify the normative tests for verifying conformance of
ISO/IEC 14496-10 video bitstreams and decoders. These normative tests make use of test data (bitstream
test suites) provided as an electronic annex to this document, and of the reference software decoder specified
in ISO/IEC 14496-5 with source code available in electronic format.
The numbering in this Amendment is relative to the text of ISO/IEC 14496-4. When a numbered item (i.e. a
clause, subclause, figure, table, or equation) or associated content is being replaced or modified, the same
number is used for the modified numbered item. When a numbered item is inserted between prior numbered
items, the number of the corresponding numbered item immediately preceding it is used and the letter 'a' is
appended to this number. When, after this one such inserted numbered item, another numbered item is
inserted, the letter 'a' is replaced by the letter 'b' to indicate their relative order, and so on, following ordinary
English alphabetical order. If text integrating this Amendment with ISO/IEC 14496-4 is produced, the inserted
numbered items with appended letters are to be assigned to corresponding numbers in their numerical order
without any such letters, and any subsequent numbered items are to be assigned later numbers to avoid
conflicts. The purpose of the numbering convention in this Amendment text is to avoid the renumbering of
existing numbered items in ISO/IEC 14496-4 while drafting this Amendment. Therefore, if the addition of a
numbered item does not require renumbering of numbered items in ISO/IEC 14496-4, the final number is
assigned to the numbered item herein.

© ISO/IEC 2009 – All rights reserved iii

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ISO/IEC 14496-4:2004/Amd.30:2009(E)

Information technology — Coding of audio-visual objects —
Part 4:
Conformance testing
AMENDMENT 30: Conformance testing for new profiles
for professional applications
Replace 10.6.5.7 with the following:
10.6.5.7 Decoder conformance test of a particular profile-and-level
In order for a decoder of a particular profile-and-level to claim output order conformance to
ITU-T Rec. H.264 | ISO/IEC 14496-10 as described by this Recommendation | International Standard, the
decoder shall successfully pass the static test defined in subclause 10.6.5.5 with all the bitstreams of the
normative test suite specified for testing decoders of this particular profile-and-level.
In order for a decoder of a particular profile and level to claim output timing conformance to
ITU-T Rec. H.264 | ISO/IEC 14496-10 as described by this Recommendation | International Standard, the
decoder shall successfully pass both the static test defined in subclause 10.6.5.5 and the dynamic test defined
in subclause 10.6.5.6 with all the bitstreams of the normative test suite specified for testing decoders of this
particular profile-and-level. Tables 1 and 2 define the normative test suites for each profile-and-level
combination. The test suite for a particular profile-and-level combination is the list of bitstreams that are
marked with an 'X' in the column corresponding to that profile-and-level combination.
'X' indicates that the bitstream is designed to test both the dynamic and static conformance of the decoder.
The bitstream column specifies the bitstream used for each test.
A decoder that conforms to the High, High 10, High 4:2:2, or High 4:4:4 Predictive profile shall be capable of
decoding Main profile bitstreams of the same level and lower levels. In addition to the bitstreams specified in
Table AMD9-2, a decoder that conforms to the High, High 10, or High 4:2:2 profile shall be capable of
decoding Main profile bitstreams in Table AMD6-1. In addition to the bitstreams specified in Table AMD30.1, a
decoder that conforms to the High 4:4:4 Predictive profile shall be capable of decoding the Main profile
bitstreams specified in Table AMD6-1.
A decoder that conforms to the High 10 profile shall be capable of decoding High 10 Intra profile bitstreams of
the same level and lower levels. A decoder that conforms to the High 4:2:2 profile shall be capable of
decoding High 10 Intra and High 4:2:2 Intra profile bitstreams. In addition to the bitstreams in Table AMD9-2, a
decoder that conforms to the High 10 or High 4:2:2 profile shall be capable of decoding the corresponding
bitstreams in Table AMD30.1.

Add the following sentence immediately before 10.6.6.1:
In Table AMD30.1, the value “59.94” shall be interpreted as an approximation of an exact value of
60000 + 1001.
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ISO/IEC 14496-4:2004/Amd.30:2009(E)
Add the following subclauses after 10.6.6.24.1:
10.6.6.25 Test bitstreams – Professional Profiles: High 4:4:4 Predictive Profile
10.6.6.25.1 Test bitstream #PPH444P-1
Specification: All slices are coded as I or P slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 0.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of I and P slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal
to 0, using CAVLC.
Purpose: Check that a decoder can properly decode I and P slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 0, using CAVLC.
10.6.6.25.2 Test bitstream #PPH444P-2
Specification: All slices are coded as I or P slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 0.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of I and P slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal
to 0, using CABAC.
Purpose: Check that a decoder can properly decode I and P slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 0, using CABAC.
10.6.6.25.3 Test bitstream #PPH444P-3
Specification: All slices are coded as I, P or B slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 0.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of I, P and B slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal
to 0, using CAVLC.
Purpose: Check that a decoder can properly decode I, P and B slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 0, using CAVLC.
10.6.6.25.4 Test bitstream #PPH444P-4
Specification: All slices are coded as I, P or B slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 0.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
2 © ISO/IEC 2009 – All rights reserved

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ISO/IEC 14496-4:2004/Amd.30:2009(E)
Functional stage: Decoding of I, P and B slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal
to 0, using CABAC.
Purpose: Check that a decoder can properly decode I, P and B slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 0, using CABAC.
10.6.6.25.5 Test bitstream #PPH444P-5
Specification: All slices are coded as I, P or B slices. Each picture contains more than one slice.
disable_deblocking_filter_idc is equal to 1, specifying disabling of the deblocking filter process.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 0.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of I, P and B slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal
to 0, without deblocking filter.
Purpose: Check that a decoder can properly decode I, P and B slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 0, without deblocking filter.
10.6.6.25.6 Test bitstream #PPH444P-6
Specification: All slices are coded as I or P slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 1.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of I and P slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal to
1, using CAVLC.
Purpose: Check that a decoder can properly decode I and P slices of coded frames for 14 bit 4:4:4 coded
frames with separate_colour_plane_flag equal to 1, using CAVLC.
10.6.6.25.7 Test bitstream #PPH444P-7
Specification: All slices are coded as I or P slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 1.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of I and P slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal to
1, using CABAC.
Purpose: Check that a decoder can properly decode I and P slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 1, using CABAC.
10.6.6.25.8 Test bitstream #PPH444P-8
Specification: All slices are coded as I, P or B slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 1.
Each picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B
of ITU-T Rec. H.264 | ISO/IEC 14496-10.
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ISO/IEC 14496-4:2004/Amd.30:2009(E)
Functional stage: Decoding of I, P and B slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal
to 1, using CAVLC.
Purpose: Check that a decoder can properly decode I, P and B slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 1, using CAVLC.
10.6.6.25.9 Test bitstream #PPH444P-9
Specification: All slices are coded as I, P or B slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. separate_colour_plane_flag is equal to 1.
pic_order_cnt_type is equal to 0. direct_8x8_inference_flag is equal to 1. Each picture is a coded frame. The
NAL units are encapsulated in the byte stream format specified in Annex B of ITU-T Rec. H.264 |
ISO/IEC 14496-10.
Functional stage: Decoding of I, P and B slices for 4:4:4 14 bit frames with separate_colour_plane_flag equal
to 1, using CABAC.
Purpose: Check that a decoder can properly decode I, P and B slices of 4:4:4 14 bit coded frames with
separate_colour_plane_flag equal to 1, using CABAC.
10.6.6.25.10 Test bitstream #PPH444P-10
Specification: All slices are coded as I, P or B slices. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 3, specifying the 4:4:4 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 6, specifying 14 bit luma and chroma sample bit depths. qpprime_y_zero_transform_bypass_flag is
equal to 1, specifying lossless coding. Each picture is a coded frame. The NAL units are encapsulated in the
byte stream format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of I, P and B slices for 4:4:4 14 bit frames with
qpprime_y_zero_transform_bypass_flag equal to 1.
Purpose: Check that a decoder can properly decode I, P and B slices of 4:4:4 14 bit coded frames with
qpprime_y_zero_transform_bypass_flag equal to 1.
10.6.6.26 Test bitstreams – Professional Profiles: High 10 Intra Profile
10.6.6.26.1 Test bitstream #PPH10I-1
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 1, specifying the 4:2:0 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Each
picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B of
ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:0 10 bit IDR frames with separate_colour_plane_flag equal to 0, using
CAVLC.
Purpose: Check that a decoder can properly decode 4:2:0 10 bit IDR frames with separate_colour_plane_flag
equal to 0, using CAVLC.
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ISO/IEC 14496-4:2004/Amd.30:2009(E)
10.6.6.26.2 Test bitstream #PPH10I-2
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 1, specifying the 4:2:0 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Each
picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B of
ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:0 10 bit IDR frames with separate_colour_plane_flag equal to 0, using
CABAC.
Purpose: Check that a decoder can properly decode 4:2:0 10 bit IDR frames with separate_colour_plane_flag
equal to 0, using CABAC.
10.6.6.26.3 Test bitstream #PPH10I-3
Specification: All pictures are IDR pictures. deblocking_filter_idc is equal to 1, specifying disabling of the
deblocking filter process. Each picture contains more than one slice. entropy_coding_mode_flag is equal to 1,
specifying the CABAC parsing process. chroma_format_idc is equal to 1, specifying the 4:2:0 chroma format.
Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are equal to 2, specifying 10 bit luma and
chroma bit depths. separate_colour_plane_flag is equal to 0. Each picture is a coded frame. The NAL units
are encapsulated in the byte stream format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:0 10 bit IDR frames with separate_colour_plane_flag equal to 0, using
CABAC.
Purpose: Check that a decoder can properly decode 4:2:0 10 bit IDR frames with separate_colour_plane_flag
equal to 0, using CABAC.
10.6.6.26.4 Test bitstream #PPH10I-4
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 1, specifying the 4:2:0 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Some
pictures are coded frames and some are coded fields. The NAL units are encapsulated in the byte stream
format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:0 10 bit IDR frames and fields with separate_colour_plane_flag equal to 0,
using CAVLC.
Purpose: Check that a decoder can properly decode 4:2:0 10 bit IDR frames and fields with
separate_colour_plane_flag equal to 0, using CAVLC.
10.6.6.26.5 Test bitstream #PPH10I-5
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 1, specifying the 4:2:0 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Some
pictures are coded frames and some are coded fields. The NAL units are encapsulated in the byte stream
format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:0 10 bit IDR frames and fields with separate_colour_plane_flag equal to 0,
using CABAC.
Purpose: Check that a decoder can properly decode 4:2:0 10 bit IDR frames and fields with
separate_colour_plane_flag equal to 0, using CABAC.
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ISO/IEC 14496-4:2004/Amd.30:2009(E)
10.6.6.26.6 Test bitstream #PPH10I-6
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 1, specifying the 4:2:0 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Each
picture is a coded frame with mb_adaptive_frame_field_flag equal to 1. The NAL units are encapsulated in the
byte stream format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:0 10 bit IDR frames with macroblock adaptive frame/field coding.
Purpose: Check that a decoder can properly decode 4:2:0 10 bit IDR frames with macroblock adaptive
frame/field coding.
10.6.6.26.7 Test bitstream #PPH10I-7
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 1, specifying the 4:2:0 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Each
picture is a coded frame with mb_adaptive_frame_field_flag equal to 1. The NAL units are encapsulated in the
byte stream format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:0 10 bit IDR frames with macroblock adaptive frame/field coding.
Purpose: Check that a decoder can properly decode 4:2:0 10 bit IDR frames with macroblock adaptive
frame/field coding.
10.6.6.27 Test bitstreams – Professional Profiles: High 4:2:2 Intra Profile
10.6.6.27.1 Test bitstream #PPH422I-1
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 2, specifying the 4:2:2 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Each
picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B of
ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:2 10 bit IDR frames with separate_colour_plane_flag equal to 0, using
CAVLC.
Purpose: Check that a decoder can properly decode 4:2:2 10 bit IDR frames with separate_colour_plane_flag
equal to 0, using CAVLC.
10.6.6.27.2 Test bitstream #PPH422I-2
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 2, specifying the 4:2:2 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Each
picture is a coded frame. The NAL units are encapsulated in the byte stream format specified in Annex B of
ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:2 10 bit IDR frames with separate_colour_plane_flag equal to 0, using
CABAC.
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ISO/IEC 14496-4:2004/Amd.30:2009(E)
Purpose: Check that a decoder can properly decode 4:2:2 10 bit IDR frames with separate_colour_plane_flag
equal to 0, using CABAC.
10.6.6.27.3 Test bitstream #PPH422I-3
Specification: All pictures are IDR pictures. deblocking_filter_idc is equal to 1, specifying disabling of the
deblocking filter process. Each picture contains more than one slice. entropy_coding_mode_flag is equal to 1,
specifying the CABAC parsing process. chroma_format_idc is equal to 2, specifying the 4:2:2 chroma format.
Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are equal to 2, specifying 10 bit luma and
chroma bit depths. separate_colour_plane_flag is equal to 0. Each picture is a coded frame. The NAL units
are encapsulated in the byte stream format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:2 10 bit IDR frames with separate_colour_plane_flag equal to 0, using
CABAC.
Purpose: Check that a decoder can properly decode 4:2:2 10 bit IDR frames with separate_colour_plane_flag
equal to 0, using CABAC.
10.6.6.27.4 Test bitstream #PPH422I-4
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 2, specifying the 4:2:2 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Some
pictures are coded frames and some are coded fields. The NAL units are encapsulated in the byte stream
format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:2 10 bit IDR frames and fields with separate_colour_plane_flag equal to 0,
using CAVLC.
Purpose: Check that a decoder can properly decode 4:2:2 10 bit IDR frames and fields with
separate_colour_plane_flag equal to 0, using CAVLC.
10.6.6.27.5 Test bitstream #PPH422I-5
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 1, specifying the CABAC parsing process. chroma_format_idc is equal
to 2, specifying the 4:2:2 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Some
pictures are coded frames and some are coded fields. The NAL units are encapsulated in the byte stream
format specified in Annex B of ITU-T Rec. H.264 | ISO/IEC 14496-10.
Functional stage: Decoding of 4:2:2 10 bit IDR frames and fields with separate_colour_plane_flag equal to 0,
using CABAC.
Purpose: Check that a decoder can properly decode 4:2:2 10 bit IDR frames and fields with
separate_colour_plane_flag equal to 0, using CABAC.
10.6.6.27.6 Test bitstream #PPH422I-6
Specification: All pictures are IDR pictures. Each picture contains more than one slice.
entropy_coding_mode_flag is equal to 0, specifying the CAVLC parsing process. chroma_format_idc is equal
to 2, specifying the 4:2:2 chroma format. Both bit_depth_luma_minus8 and bit_depth_chroma_minus8 are
equal to 2, specifying 10 bit luma and chroma bit depths. separate_colour_plane_flag is equal to 0. Each
picture is a c
...

INTERNATIONAL ISO/IEC
STANDARD 14496-4
Second edition
2004-12-15
AMENDMENT 30
2009-02-15

Information technology — Coding
of audio-visual objects —
Part 4:
Conformance testing
AMENDMENT 30: Conformance testing
for new profiles for professional applications
Technologies de l'information — Codage des objets audiovisuels —
Partie 4: Essai de conformité
AMENDEMENT 30: Essai de conformité pour nouveaux profils pour
applications professionnelles




Reference number
ISO/IEC 14496-4:2004/Amd.30:2009(E)
©
ISO/IEC 2009

---------------------- Page: 1 ----------------------
ISO/IEC 14496-4:2004/Amd.30:2009(E)

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