x264 2:0.123.2189+git35cf912-1 source package in Ubuntu


x264 (2:0.123.2189+git35cf912-1) unstable; urgency=low

  * Update to new upstream snapshot
  * Imported Upstream version 0.123.2189+git35cf912
  * Regenerate manpage

 -- Rico Tzschichholz <email address hidden>  Sun, 29 Apr 2012 19:56:17 +0200

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Uploaded by:
Debian Multimedia Maintainers on 2012-05-04
Uploaded to:
Original maintainer:
Debian Multimedia Maintainers
Low Urgency

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Series Pocket Published Component Section


File Size MD5 Checksum
x264_0.123.2189+git35cf912-1.dsc 1.7 KiB 9d002928398260f274f9e4051c15c3ed
x264_0.123.2189+git35cf912.orig.tar.gz 654.7 KiB 2a39b6a36558e88333cbc6e54749c1b9
x264_0.123.2189+git35cf912-1.debian.tar.gz 20.2 KiB c899c9b6420750a74df6ccb0e9d26ab3

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Binary packages built by this source

libx264-123: No summary available for libx264-123 in ubuntu raring.

No description available for libx264-123 in ubuntu raring.

libx264-dev: development files for libx264

 libx264 is an advanced encoding library for creating H.264 (MPEG-4 AVC)
 video streams.
 This package contains the static library and headers used to build programs
 that use libx264.

x264: video encoder for the H.264/MPEG-4 AVC standard

 x264 is an advanced commandline encoder for creating H.264 (MPEG-4 AVC)
 video streams.
 x264 supports the following features:
  * CABAC (context-based adaptive binary arithmetic coding) and CAVLC
    (context-based adaptive variable length coding
  * multiple reference frames
  * 16x16, 8x8 and 4x4 intra-predicted macroblocks
  * all P-frame inter-predicted macroblock types
  * B-Inter-predicted macroblock types from 16x16 down to 8x8
  * rate distortion optimization
  * multiple rate control modes (constant quantizer, constant quality, single
    or multipass ABR with the option of VBV)
  * scene cut detection
  * adaptive B-frame placement, with the option of keeping B-frames as
    references / arbitrary frame order
  * 8x8 and 4x4 adaptive spatial transform (high profile)
  * lossless mode (high 4:4:4 profile)
  * custom quantization matrices (high profile)
  * parallel encoding on multiple CPUs
  * interlaced streams