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  • List of compatible distributions

    26 avril 2011, par

    The table below is the list of Linux distributions compatible with the automated installation script of MediaSPIP. Distribution nameVersion nameVersion number Debian Squeeze 6.x.x Debian Weezy 7.x.x Debian Jessie 8.x.x Ubuntu The Precise Pangolin 12.04 LTS Ubuntu The Trusty Tahr 14.04
    If you want to help us improve this list, you can provide us access to a machine whose distribution is not mentioned above or send the necessary fixes to add (...)

  • MediaSPIP version 0.1 Beta

    16 avril 2011, par

    MediaSPIP 0.1 beta est la première version de MediaSPIP décrétée comme "utilisable".
    Le fichier zip ici présent contient uniquement les sources de MediaSPIP en version standalone.
    Pour avoir une installation fonctionnelle, il est nécessaire d’installer manuellement l’ensemble des dépendances logicielles sur le serveur.
    Si vous souhaitez utiliser cette archive pour une installation en mode ferme, il vous faudra également procéder à d’autres modifications (...)

  • Librairies et logiciels spécifiques aux médias

    10 décembre 2010, par

    Pour un fonctionnement correct et optimal, plusieurs choses sont à prendre en considération.
    Il est important, après avoir installé apache2, mysql et php5, d’installer d’autres logiciels nécessaires dont les installations sont décrites dans les liens afférants. Un ensemble de librairies multimedias (x264, libtheora, libvpx) utilisées pour l’encodage et le décodage des vidéos et sons afin de supporter le plus grand nombre de fichiers possibles. Cf. : ce tutoriel ; FFMpeg avec le maximum de décodeurs et (...)

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  • avcodec/aac_tablegen : speed up table initialization

    26 novembre 2015, par Ganesh Ajjanagadde
    avcodec/aac_tablegen : speed up table initialization

    This speeds up aac_tablegen to a ludicruous degree ( 97%), i.e to the point
    
where it can be argued that runtime initialization can always be done instead of
    
hard-coded tables. The only cost is essentially a trivial increase in
    
the stack size.
    

    Even if one does not care about this, the patch also improves accuracy
    
as detailed below.
    

    Performance :
    
Benchmark obtained by looping 10^4 times over ff_aac_tableinit.
    

    Sample benchmark (x86-64, Haswell, GNU/Linux) :
    
old :
    
1295292 decicycles in ff_aac_tableinit,     512 runs,      0 skips
    
1275981 decicycles in ff_aac_tableinit,    1024 runs,      0 skips
    
1272932 decicycles in ff_aac_tableinit,    2048 runs,      0 skips
    
1262164 decicycles in ff_aac_tableinit,    4096 runs,      0 skips
    
1256720 decicycles in ff_aac_tableinit,    8192 runs,      0 skips
    

    new :
    
21112 decicycles in ff_aac_tableinit,     511 runs,      1 skips
    
21269 decicycles in ff_aac_tableinit,    1023 runs,      1 skips
    
21352 decicycles in ff_aac_tableinit,    2043 runs,      5 skips
    
21386 decicycles in ff_aac_tableinit,    4080 runs,     16 skips
    
21299 decicycles in ff_aac_tableinit,    8173 runs,     19 skips
    

    Accuracy :
    
The previous code was resulting in needless loss of
    
accuracy due to the pow being called in succession. As an illustration
    
of this :
    
ff_aac_pow34sf_tab[3]
    
old : 0.000000000007598092294225
    
new : 0.000000000007598091426864
    
real : 0.000000000007598091778545
    

    truncated to float
    
old : 0.000000000007598092294225
    
new : 0.000000000007598091426864
    
real : 0.000000000007598091426864
    

    showing that the old value was not correctly rounded. This affects a
    
large number of elements of the array.
    

    Patch tested with FATE.
    

    Reviewed-by : Rostislav Pehlivanov <atomnuker@gmail.com>
    
Signed-off-by : Ganesh Ajjanagadde <gajjanagadde@gmail.com>
    • [DH] libavcodec/aac_tablegen.h

  • avutil/lls : speed up performance of solve_lls

    24 novembre 2015, par Ganesh Ajjanagadde
    avutil/lls : speed up performance of solve_lls

    This is a trivial rewrite of the loops that results in better
    
prefetching and associated cache efficiency. Essentially, the problem is
    
that modern prefetching logic is based on finite state Markov memory, a reasonable
    
assumption that is used elsewhere in CPU’s in for instance branch
    
predictors.
    

    Surrounding loops all iterate forward through the array, making the
    
predictor think of prefetching in the forward direction, but the
    
intermediate loop is unnecessarily in the backward direction.
    

    Speedup is nontrivial. Benchmarks obtained by 10^6 iterations within
    
solve_lls, with START/STOP_TIMER. File is tests/data/fate/flac-16-lpc-cholesky.err.
    
Hardware : x86-64, Haswell, GNU/Linux.
    

    new :
    
  17291 decicycles in solve_lls, 2096706 runs,    446 skips
    
  17255 decicycles in solve_lls, 4193657 runs,    647 skips
    
  17231 decicycles in solve_lls, 8384997 runs,   3611 skips
    
  17189 decicycles in solve_lls,16771010 runs,   6206 skips
    
  17132 decicycles in solve_lls,33544757 runs,   9675 skips
    
  17092 decicycles in solve_lls,67092404 runs,  16460 skips
    
  17058 decicycles in solve_lls,134188213 runs,  29515 skips
    

    old :
    
  18009 decicycles in solve_lls, 2096665 runs,    487 skips
    
  17805 decicycles in solve_lls, 4193320 runs,    984 skips
    
  17779 decicycles in solve_lls, 8386855 runs,   1753 skips
    
  18289 decicycles in solve_lls,16774280 runs,   2936 skips
    
  18158 decicycles in solve_lls,33548104 runs,   6328 skips
    
  18420 decicycles in solve_lls,67091793 runs,  17071 skips
    
  18310 decicycles in solve_lls,134187219 runs,  30509 skips
    

    Reviewed-by : Michael Niedermayer <michael@niedermayer.cc>
    
Signed-off-by : Ganesh Ajjanagadde <gajjanagadde@gmail.com>
    • [DH] libavutil/lls.c

  • avfilter/af_afade : improve accuracy and speed of gain computation

    25 novembre 2015, par Ganesh Ajjanagadde
    avfilter/af_afade : improve accuracy and speed of gain computation

    Gain computation for various curves was being done in a needlessly
    
inaccurate fashion. Of course these are all subjective curves, but when
    
a curve is advertised to the user, it should be matched as closely as
    
possible within the limitations of libm. In particular, the constants
    
kept here were pretty inaccurate for double precision.
    

    Speed improvements are mainly due to the avoidance of pow, the most
    
notorious of the libm functions in terms of performance. To be fair, it
    
is the GNU libm that is among the worst, but it is not really GNU libm’s fault
    
since others simply yield a higher error as measured in ULP.
    

    "Magic" constants are also accordingly documented, since they take at
    
least a minute of thought for a casual reader.
    

    Reviewed-by : Paul B Mahol <onemda@gmail.com>
    
Signed-off-by : Ganesh Ajjanagadde <gajjanagadde@gmail.com>
    • [DH] libavfilter/af_afade.c

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