SoC x264 2008

From VideoLAN Wiki
Revision as of 05:27, 14 March 2008 by Dark Shikari (talk | contribs) (x264 SoC)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search

x264 has loads of possibilities for SoC 2008 projects. Here's just a few I thought up with. I'm willing to mentor any reasonable project on x264 to the best of my ability.

--Dark Shikari

x264 project ideas

This is not at all an exhaustive list.

'Size Key (depends heavily on the skill and willingness to work of the student) Very Large: Probably too large to completed in one summer. Large: Probably the right size for a full-summer project. Medium: Probably too small. Could be combined with another project, of course. Small: A small project, but definitely useful, and could be part of a larger project.

Skills needed for all of these:

Basic C programming.
Basic understanding of video encoding, or at least willingness to do the appropriate reading up on the topic before the summer begins.

Project: Fast inter refinement

Size: Medium to large.
Description: Improve heuristics and decision-making for inter refinement to improve efficiency on non-insane encoding settings. This would involve various early termination heuristics along with methods of deciding which partition modes need to be searched while performing minimal actual searching on those partition modes. This would be similar to, but a vastly more in-depth analysis of what I proposed in my "Fast-Ref-Search" patch.

Difficulty: Medium

Project: Fast intra refinement

Size: Small to medium
Description: Similar to above, but covering intra modes instead. Would probably involve considerable statistical analysis of intra mode data, along with creative solutions for improved RDO refinement. We already have some ideas on this one, but haven't implemented any of them.

Difficulty: Medium

Project: RDO B-frame decision

Size: Medium to large
Description: x264's biggest weakness is its B-frame decision algorithm, which can often be extremely subtopimal, with OPSNR losses as high as 1db in some cases. Improving this would drastically increase the effectiveness of the encoder.

Difficulty: Medium-high

Other possible projects which can be picked from at the request of a student:

Assembly optimizations of any sort
Extra skills: Assembly coding
Difficulty: Medium
Psychovisual optimizations for mode decision and quantization (e.g. QNS)
Extra skills: Creativity and perhaps some understanding of DCT/Fourier math.
Difficulty: Medium-high
Implementing MBAFF or PicAFF (potentially too difficult for a SoC project, however)
Difficulty: Very high
Fast RD optimization using heuristics
Extra skills: Reading lots of IEEE papers
Difficulty: Medium
Anything else that I think is reasonable, honestly. There's all sorts of ideas floating around, and these are just the ones off the top of my head.