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  • Installation en mode ferme

    4 février 2011, par

    Le mode ferme permet d’héberger plusieurs sites de type MediaSPIP en n’installant qu’une seule fois son noyau fonctionnel.
    C’est la méthode que nous utilisons sur cette même plateforme.
    L’utilisation en mode ferme nécessite de connaïtre un peu le mécanisme de SPIP contrairement à la version standalone qui ne nécessite pas réellement de connaissances spécifique puisque l’espace privé habituel de SPIP n’est plus utilisé.
    Dans un premier temps, vous devez avoir installé les mêmes fichiers que l’installation (...)

  • Websites made ​​with MediaSPIP

    2 mai 2011, par

    This page lists some websites based on MediaSPIP.

  • Possibilité de déploiement en ferme

    12 avril 2011, par

    MediaSPIP peut être installé comme une ferme, avec un seul "noyau" hébergé sur un serveur dédié et utilisé par une multitude de sites différents.
    Cela permet, par exemple : de pouvoir partager les frais de mise en œuvre entre plusieurs projets / individus ; de pouvoir déployer rapidement une multitude de sites uniques ; d’éviter d’avoir à mettre l’ensemble des créations dans un fourre-tout numérique comme c’est le cas pour les grandes plate-formes tout public disséminées sur le (...)

Sur d’autres sites (9299)

  • ffmpeg NVENC Encoding with -flags:v +ildct shows "No NVENC capable devices found"

    29 mai 2020, par gaamaa

    So far I use NVENC with ffmpeg for all my encoding successfully. Today I got a new Zotac nVidia GEForce GTX 1660 6GB card.

    



    I get "No NVENC capable devices found" error from ffmpeg. Only if I use -flags:v +ildct flag. Without ildct flag no issues except the output is progressive.

    



    I 100% need Interlaced output and I tried most of the Interlaced flags like, -vf tinterlace=interleave_top,fieldorder=tff -x264opts tff=1 Nothing is giving me Interlaced output except -flags +ildct But with "Zotac nVidia GEForce GTX 1660" ffmpeg shows :

    



    No NVENC capable devices found


    



    I even tried all latest nVidia drivers. Nothing helped me.

    



    My pseudo ffmpeg command line is as below :

    



    ffmpeg -i SourceFile.mkv -codec:v h264_nvenc -preset:v slow -flags:v +ildct+cgop -s:v 1920x1080 -ac 2 -ar 48000 -codec:a mp2 -b:a 384k -r 25 -f mp4 -y NewFile.mp4


    



    Is it a bug with nVidia driver or ffmpeg ? Is latest nVidia Turing technology doesn't support Interlaced (very Bad) ?

    



    Could some one help me ?

    


  • Separate simultaneously changing regions of video into individual videos

    17 juillet 2019, par Elle Fie

    Given a single video stream (up to 4K resolution), where only small displayed portions may change, I’d like to identify these changing sections and create separate video streams, one for each changing section of the input video stream, in real time.

    Note that this is spatial extraction, not time slicing !

    Q1 : Is there a better name to address this process ?

    Q2 : Is this an already solved problem ?

    It seems ImageMagick’s Compare program supports diffing two images, which I can process to identify regions as coordinates for an ffmpeg crop (launched in parallel for each discovered diff region), but this method relies on having a PNG stream to avoid false positive diffs due to lossy encoding. Also, too slow to happen in real time.

    Q3 : Is there any way ffmpeg can dump out the causal regions influencing scene-change detection ?

  • probing individual klv streams for specific signature/header

    17 juin 2019, par J Heyman

    Currently, the software I support processes the different streams within a video container (.ts, .mp4, .mpg, etc) without any issues as long as there is only one(1) type of each codec stream.

    I’ve recently encountered a video sample that actually contains three(3) identified AV_CODE_ID_SMPTE_KLV streams. As I loop through the three streams, one of them is the stream I need.
    I haven’t been able to figure out an easy way to do the specific query I need (check for known header bytes in the stream).

        ...
    
    for (i = 0; i < nb_streams; i++) {
    
       int real_stream_index = program ? program[i] : i;
    
       AVStream *st          = ic->streams[real_stream_index];
    
       AVCodecParameters *par = st->codecpar;
    
       if (par->codec_type != type)
    
          continue;
    
       if (id != AV_CODEC_ID_NONE) {
    
          if (par->codec_id != id)
    
             continue;
    
       }
    
       if (wanted_stream_nb >= 0 && real_stream_index != wanted_stream_nb)
    
          continue;
    
       if (type == AVMEDIA_TYPE_AUDIO && !(par->channels && par->sample_rate))
    
          continue;
    
       disposition = !(st->disposition & (AV_DISPOSITION_HEARING_IMPAIRED | AV_DISPOSITION_VISUAL_IMPAIRED));
    
       count = st->codec_info_nb_frames;
    
       bitrate = par->bit_rate;
    
       multiframe = FFMIN(5, count);
    
       if ((best_disposition >  disposition) ||
    
           (best_disposition == disposition && best_multiframe >  multiframe) ||
    
           (best_disposition == disposition && best_multiframe == multiframe && best_bitrate >  bitrate) ||
    
           (best_disposition == disposition && best_multiframe == multiframe && best_bitrate == bitrate && best_count >= count))
    
          continue;
    
       best_disposition = disposition;
    
       best_count   = count;
    
       best_bitrate = bitrate;
    
       best_multiframe = multiframe;
    
       ret          = real_stream_index;

    My thought was to add another || to the complex if{} above, but I haven’t been able to figure out how to do the comparison I need (looking for the header bytes).

    I’ve looked into existing documentation, and thought that accessing the probe_data structure within the AVStream contained within the AVFormatContext structure would give me the first few bytes of the stream. No such luck, as the probe_data structure is empty even though we’ve done a probe on the file itself.

    fprintf(stderr, "Filename: %s\t buf_size: %d\n", st-> probe_data.filename, st-> probe_data.buf_size);

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