DVB-I masterclass introductions-packaging-encoding-v2
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CMAF 101 by Cyril Concolato
- 1. Institut Mines-Télécom CMAF 101 Cyril Concolato Paris Video Tech Meetup #3 01/02/2017 GPAC
- 2. Institut Mines-Télécom Disclaimer These are my views/understanding (based on Jan. 2017 version), not necessarily the views of the CMAF group or of the other chairs or the final standard Cyril Concolato - Paris Video Tech #32
- 3. Institut Mines-Télécom Adaptive Streaming Market Fragmentation Cyril Concolato - Paris Video Tech #33
- 4. Institut Mines-Télécom CMAF Specification mainly proposed by • Apple • Microsoft Defines a Format for Segmented Delivery • To improve cacheability, to reduce CDN costs • To reduce deployment complexity, to remove the need for gateways/transformatters Cyril Concolato - Paris Video Tech #34
- 5. Institut Mines-Télécom C-MAF: What is a MAF ? MPEG usually makes wide, general-purpose, application-agnostic formats • Ex: Codecs (AVC, HEVC …) can be used for ─ Broadcast, on-demand, video conferencing systems … • Ex: Containers can be used in many application types ─ MPEG-2 TS is used in DVB, ATSC, HLS, … ─ MP4 is used as camera files, web streams … MAF = MPEG Application Format (ISO/IEC 23000, a.k.a. MPEG-A) • Interesting combinations of MPEG standards for dedicated applications Cyril Concolato - Paris Video Tech #35
- 6. Institut Mines-Télécom Lots of MAFs ISO/IEC 23000-2: Music player application format ISO/IEC 23000-3: Photo player application format ISO/IEC 23000-4: Musical slide show application format ISO/IEC 23000-5: Media streaming application format ISO/IEC 23000-6: Professional archival application format ISO/IEC 23000-7: Open release access application format ISO/IEC 23000-8: Portable video player application format ISO/IEC 23000-9: Digital Multimedia Broadcasting application format ISO/IEC 23000-10: Video surveillance application format ISO/IEC 23000-11: Stereoscopic video application format ISO/IEC 23000-12: Interactive music application format ISO/IEC 23000-13: Augmented reality application format ISO/IEC 23000-15: Multimedia preservation application format ISO/IEC 23000-16: Publish/Subscribe application format ISO/IEC 23000-17: Multiple Sensorial Media application format ISO/IEC 23000-18: Media Linking application format ISO/IEC 23000-19: Common media application format ISO/IEC 23000-20: Omni-directional Media application format Cyril Concolato - Paris Video Tech #36
- 7. Institut Mines-Télécom CMAF Development Timeline A very fast standardization pace Feb. 2016 Working Draft June 2016 Committee Draft Nov. 2016 Draft International Standard Jan. 2017 Study of Draft International Standard Apr. 2017 Final Draft International Standard July 2017 Approved International Standard Cyril Concolato - Paris Video Tech #37
- 8. Institut Mines-Télécom The CMAF Specification Covered • Media Format: choice of MP4 / CENC & constraints • Media Profiles: choice of codecs (AAC, AVC, HEVC) & constraints • Presentation Profiles: set of Media Profiles Not covered • No new ISOBMFF features, no new boxes ─ Content should play in existing players • No new manifest format • No specific player behavior Not completed • Encryption modes: CBC vs. CTR ─ CMAF only fully useful today for non-protected content Cyril Concolato - Paris Video Tech #38
- 9. Institut Mines-Télécom First time reading the CMAF spec: Why is it so complex? https://www.youtube.com/watch?v=oLxFqzumFrc Cyril Concolato - Paris Video Tech #39
- 10. Institut Mines-Télécom Basic Concept: Segmented Delivery Ability to process parts of a stream independently • At the encoding level: open/closed GoP • At the encryption level: encryption metadata • At the packaging level: self-contained ISOBMFF data Ability to switch between streams without double- download and double-decode • At the encoding level: time-alignment of closed GoPs • At the encryption level: shared encryption parameters • At the packaging level: shared ISOBMFF parameters Cyril Concolato - Paris Video Tech #310 => CMAF Fragment
- 11. Institut Mines-Télécom Basic Concept: CMAF Fragment A set of constraints to guarantee • Independent parsing • Independent decryption • Independent decoding Additional mappings to delivery units for • On-Demand Delivery • Live Delivery • Low Latency Delivery Remember: A CMAF Fragment is not a delivery concept!!! Cyril Concolato - Paris Video Tech #311
- 12. Institut Mines-Télécom Basic Concept: CMAF Track Set of contiguous CMAF Fragments • single media type (no multiplex) Associated to a CMAF Header Remember: A CMAF Track is not a delivery concept!!! Cyril Concolato - Paris Video Tech #312
- 13. Institut Mines-Télécom Delivering CMAF Fragments: Hypothetical ways of forming delivery units Cyril Concolato - Paris Video Tech #313 Encoder Encryption CMAF Header CMAF Fragments On-demand Packaging CMAF Track File All [0-duration] 1 Live Packaging CMAF Segment1 or more 1 CMAF Track Low Latency Packaging 1 N CMAF Chunks
- 14. Institut Mines-Télécom Real CMAF Chunk Production Cyril Concolato - Paris Video Tech #314 Encoder Encryption CMAF Header Low Latency Packaging CMAF Chunks
- 15. Institut Mines-Télécom CMAF Resources Manifests will typically provide URLs to • CMAF Track Files • Or CMAF Header + CMAF Segments • Or CMAF Header + CMAF Chunks CMAF Resource Signaling via ISOBMFF brands • ‘cmfc’ (general CMAF compatibility) • ‘cmfs’ (CMAF segment compatibility) • ‘cmfl’ (CMAF Chunks compatibility) Cyril Concolato - Paris Video Tech #315
- 16. Institut Mines-Télécom CMAF Chunks CMAF Header CMAF Content consumption Cyril Concolato - Paris Video Tech #316 Un- packaging MSE CMAF Track File CMAF Fragments Switching can only happen seamlessly at CMAF Fragment boundaries CMAF Segments CMAF Header CMAF Header
- 17. Institut Mines-Télécom Switching with decoder reinitialization Cyril Concolato - Paris Video Tech #317 4321 CMAF Fragments Quality 1 4321 CMAF Fragments Quality 2 CMAF Header CMAF Header 21 CMAF Header 43 CMAF Header
- 18. Institut Mines-Télécom Switching without decoder reinitialization Cyril Concolato - Paris Video Tech #318 4321 CMAF Fragments Quality 1 4321 CMAF Fragments Quality 2 CMAF Header CMAF Header 21 CMAF Header 43
- 19. Institut Mines-Télécom CMAF Terminology Switching Sets • Fragments from different Tracks that are switchable from a user perspective (language, aspect, …) • Switching Sets Types ─ Switching without pipeline re-initialization • Single Initialization Switching Set ─ Switching with pipeline re-initialization • Multiple Initialization Switching Set ─ Switching with relaxed constraints (e.g. encryption changes) • Aligned Switching Sets CMAF Selection Sets • Switching Sets where only one of them is displayed CMAF Presentation • Selection Sets that form a presentation Cyril Concolato - Paris Video Tech #319
- 20. Institut Mines-Télécom CMAF Data Model Cyril Concolato - Paris Video Tech #320 CMAF Presentation CMAF Selection Set CMAF Aligned Switching Sets CMAF Switching Set … CMAF Switching Set CMAF Track CMAF Track CMAF Track CMAF Aligned Switching Sets … … CMAF Selection Set … … … … … … …
- 21. Institut Mines-Télécom CMAF Profiles Media Profiles Presentation Profiles Cyril Concolato - Paris Video Tech #321
- 22. Institut Mines-Télécom AVC-based Video Media Profiles Media Profile Cod ec Pro file Lev el Color Coding Transfer Charact eristics Max Fra me Heig ht Max Fra me Widt h Max Fra me Rat e CMAF File Brand SD AVC Hig h 3.1 BT.709 or BT.601 BT.709 or BT.601 OETF 576 864 60 'cfsd' HD AVC Hig h 4.0 BT.709 BT.709 OETF 1080 1920 60 'cfhd' HDHF AVC Hig h 4.2 BT.709 BT.709 OETF 1080 1920 60 'chdf' Cyril Concolato - Paris Video Tech #322
- 23. Institut Mines-Télécom HEVC-base Video Media Profiles Media Profile Code c Profile Level Color Coding Transfer Characterist ics Max Frame Height Max Frame Width Max Frame Rate CMAF File Brand HHD8 HEVC Main MainTier 4.1 BT.709 BT.709 OETF 1080 1920 60 'chhd' HHD10 HEVC Main10 MainTier 4.1 BT.709 BT.709 OETF 1080 1920 60 'chh1' UHD8 HEVC Main8 MainTier 5.0 BT.709 BT.709 OETF 2160 3840 60 'cud8' UHD10 HEVC Main10 MainTier 10-bit 5.1 BT.709, BT.2020 BT.709 OETF, BT.2020 OETF 2160 3840 60 'cud1' HDR10 HEVC Main10 MainTier 10-bit 5.1 BT-2020 BT.2100 Table 4 PQ EOTF 2160 3840 60 'cpq1' HLG10 HEVC Main10 MainTier 10-bit 5.1 BT-2020 BT.2100 Table 5 HLG OETF [note1] 2160 3840 60 'clg1' Cyril Concolato - Paris Video Tech #323
- 24. Institut Mines-Télécom Audio Track Profiles Media Profile Codec and Profile Number of channels Max Sampling Rate File Brand AAC Core AAC-LC, HE-AAC or HE-AAC v2 Mono or Stereo 48 kHz 'caac' AAC Adaptive AAC Core constrained for adaptive switching Mono or Stereo 48 kHz ‘caaa’ Cyril Concolato - Paris Video Tech #324
- 25. Institut Mines-Télécom Subtitle Profiles Media Profile Format Notes File Brand WebVTT WebVTT, Version 1.0 —pending normative reference https://w3c.github.io/w ebvtt/ 'cwvt' TTML IMSC1 Text Specified in Section 1.1.4 IMSC1 Text Profile 'im1t' TTML IMSC1 Image Specified in Section 1.1.5 IMSC1 Image Profile ‘im1i’ CEA CEA-608 and CEA-708 Caption data is embedded in SEI messages in video track; multiple closed caption streams may be present1 'ccea' Cyril Concolato - Paris Video Tech #325
- 26. Institut Mines-Télécom CMAF Presentation Profiles urn:mpeg:cmaf:presentation_profile:cmfhd:2017 • At least ‘cfhd’ • At least ‘caac’ • At least ‘im1t’ • Not encrypted urn:mpeg:cmaf:presentation_profile:cmfhdc:2017 • CMFHD but with at least one ‘cenc’ encrypted media urn:mpeg:cmaf:presentation_profile:cmfhds:2017 • CMFHD but with at least one ‘cbcs’ encrypted media Cyril Concolato - Paris Video Tech #326
- 27. Institut Mines-Télécom Thank you. Questions ? Cyril Concolato - Paris Video Tech #327
