Summer of Code 2006
- 1 Summer of Code 2006
- 1.1 Optimize Theora encoding/decoding speed, SSE/SSE2
- 1.2 Theora reference encoder quality optimization
- 1.3 Encode support in theora-exp
- 1.4 Development assistant for the "Ghost" audio codec
- 1.5 OggMNG implementation
- 1.6 Subtitle Editor
- 1.7 OggSkeleton tool support
- 1.8 RTP payloaders and depayloaders for Vorbis and Theora
- 1.9 Theora support in ekiga
- 1.10 MXF support in gstreamer
- 1.11 Hardware implementation of Theora decoding
- 1.12 Intel to AT&T x86 assembly translation
- 1.13 Theora encoder and Ogg exporter/muxer QuickTime components
- 1.14 Audio encoders in QuickTime/CoreAudio
- 2 GUIDELINES FOR APPLYING
Summer of Code 2006
We need a primary and backup mentor volunteer for any project that is to become an official proposal, but submit something and we'll see who we can round up. :)
If you're interested in doing a Summer of Code project with Xiph.org, sign up here and submit an application.
Optimize Theora encoding/decoding speed, SSE/SSE2
Work on MMX, SSE/SSE2 implementations of the crucial encoding and decoding elements in libtheora. This could continue in theora-exp where with ruik's work or consolidate theora-mmx, theora-oil work into trunk. The results must still build cleanly on other archs and do run-time capability detection.
Mentor: Ralph Giles, backup: Jan Gerber, Mike Smith
Theora reference encoder quality optimization
The libtheora encoder could make more use of some features present in the spec but not currently implemented in the encoder. This is a little open ended, but suggestions are: quant matrix tuning, per-block qi choice, 4:2:2 and 4:4:4 chroma support.
Mentor: Ralph Giles, backup: Timothy Terriberry
Encode support in theora-exp
Implement a rate-distortion optimized encoding mode for theora-exp, including R-D optimzed mode decision and quantization (e.g., constant lambda). Then, use the above routines to implement a medium-latency ABR encoding mode (e.g., varying lambda), with a default target buffer size of approximately 2 seconds.
Mentor: Timothy "Derf" Terriberry, backup: Mike Smith, Ralph Giles
Development assistant for the "Ghost" audio codec
Designing a cutting edge perceptual codec is a very daunting task. Xiph is in the research stage on a new low-latency, general purpose audio codec, code-named "Ghost". This is basically a "code assistant" position, where you will be asked to implement, test, and give feedback on ideas from Christopher Montgomery, designer of the Ogg Vorbis format. Be prepared to learn a lot about audio coding, or apply what you already know. While there's less "ownership" potential in this project proposal, it will be a great opportunity to learn about compression algorithm design, practice your programming chops, and learn to work in team.
Mentor: Christopher "Monty" Montgomery, backup: Jean-Marc Valin
Implement the OggMNG decode support in gstreamer and/or illi's dshow filters. Implement encoding support in based on byzanz or Istanbul. Bonus points for overlay support. Details on the OggMNG specifications here
Mentors: Mike Smith, Ralph Giles
another option is to pick an existing format (e.g. srt) and get a gui mockup done. It should: give you playback with scrubbing, let you set in and out points, and write out the results in an Ogg File.
OggSkeleton tool support
Implement OggSkeleton production in various xiph tool packages, e.g. oggenc, vorbisenc, speexenc, theora encoder_example or ffmpeg2theora. Possibly also implement support for the QuickTime media framework (most other media frameworks already support OggSkeleton e.g. gstreamer, xine, vlc, DirectShow). It may be interesting to do these as a general library, e.g. on top liboggz.
Mentor: Conrad Parker, backup: Silvia Pfeiffer
RTP payloaders and depayloaders for Vorbis and Theora
Write a set of payloaders and depayloader plugins for Vorbis and Theora for GStreamer and Farsight. These plugins should implement the current specifications for Vorbis and Theora. Philipe Khalaf and Rob Taylor of the Farsight project are prepared to mentor this project.
Mentors: Philipe Khalaf, Rob Taylor Backup: Christian Schaller
Theora support in ekiga
Mentor: Ralph Giles
MXF support in gstreamer
Mentors: Christian Schaller, Mike Smith
Hardware implementation of Theora decoding
Working on a hardware theora decoder, that can be used in embedded devices, dvd players and video pods. Presumedly GPL verilog source to run on an FPGA. See http://sourceforge.net/projects/elphel/ for a rough encoder implementation.
Intel to AT&T x86 assembly translation
There is a general need for cross platform projects to be able to compile the same asm accelleration code on both GCC and MSVC. Unfortunately, at least of x86, they have incompatible assembly formats. Currently people either convert one to the other by hand (a maintenance nightmare) or require an external compile/assemble step on one or the other platform.
Start with the (unmaintained?) intel2gas script. Spruce it up to support all of recent MMX, SSE, SSE2, SSE3 instructions. Then implement the reverse translation. Once both are working, write some glue code so it can be easily used as part of a GNU autotools build to derive one set of source from the other at build or package time.
Theora encoder and Ogg exporter/muxer QuickTime components
QuickTime is a major multimedia framework, used in many professional audio and video applications. The framework is flexible and its functionality can be extended by means of plugins - components. While the number of existing tools able to export video in Theora format is still limited, Theora encoder/exporter components would somewhat improve the situation allowing applications based on QuickTime to produce content in Theora format.
The project idea is to implement two QuickTime components: Theora encoder and Ogg exporter. In the Theora encoder component libtheora should be used for the encoding functionality and focus here is on integrating that functionality with the rest of the QuickTime framework. Ogg file exporter would be built around libogg for transfering internal QuickTime movie structures into physical ogg streams. The component would also need to support concurrent multiplexing and Ogg Theora mapping (Theora spec, appendix A). Sequential multiplexing and possibly OggSkeleton support would be a plus.
Mentor: Arek Korbik
Audio encoders in QuickTime/CoreAudio
This is a complementary idea to the Theora and Ogg QuickTime components above, adding audio format support to the Ogg exporter component.
Implement Vorbis, Speex and possibly FLAC encoders as Core Audio AudioCodecs.
Besides documentation, Core Audio SDK includes an example AudioCodec implementation.
Mentor: Arek Korbik
GUIDELINES FOR APPLYING
Remember that many people will apply to work on the Summer of Code.
Keep in mind that those of us evaluating your application do not know you, we do not know what kind of experience you have, we do not know what you have done in the past and we have to pick the best people suited for a particular task.
Hence, it is very important that you tell us in your email why you should be considered to implement a particular project. Projects with one line applications will probably get discarded so don't make an application like this:
I would like to work on project XYZ
Do not cut-and-paste the text from this page in your application. We know full well what the text here is. Instead explain to us your take on the problem "I could implement this using this and that", "I would need to research these areas", "I might need help sorting this out", etc.
Explain to us why you are a good candidate, also explain which projects interest you (in case that there is more than one) and why.
During the summer of code, we will invest significant resources from existing team members to guide you, answer your questions, and help you architect the software in a way that is acceptable to Xiph.org and that has a high chance of having an impact on the larger community Xiph.org works with.
Note that if you are a student that want to apply for the Summer of Code, you should go through the standard Google process.
If you have questions about these projects you can for instance come to the #theora channel on irc.freenode.com
(thanks to the Mono project for these general guidelines)