Difference between revisions of "XvMC"

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== Introduction ==
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{{Warning box|XvMC has been deemed unnecessary for playback of any content it supports, and detrimental to future graphical enhancements to MythTV.  It has been removed from MythTV as of 0.25, and superseded by [[VDPAU]], [[VAAPI]], and [[Broadcom_Crystal_HD|Crystal HD]].}}
 
 
 
{{Wikipedia}}
 
{{Wikipedia}}
'''X-Video Motion Compensation''', or '''XvMC''', is a part of [[The X Window System]] which allows video programs to offload motion compensation and iDCT (Inverse Discrete Cosine Transform) portions of [[MPEG-2]] decoding to the GPU hardware. XvMC can greatly reduce CPU utilization when playing back MPEG-2 video. In theory it should also reduce bus bandwidth requirements. Savings will be most dramatic with slow CPUs or when playing [[HDTV]]. [[SDTV]] will benefit as well, but most modern CPUs can already play back SDTV without XvMC. MythTV can be compiled to use XvMC for native playback. External players such as Xine and Mplayer can also be compiled to support XvMC.
 
 
Currently, only [[MPEG-2]] is supported. This is usually a hardware limitation, but can also in some chips case be a device driver limitation. As an exception, one of the newer VIA Unichrome chips is capable of XvMC accelerated [[MPEG-4]] playback, but it is not supported by the [http://sourceforge.net/projects/unichrome/ official UniChrome] driver at the time of writing this, instead you have to turn to the [http://www.openchrome.org openChrome project] drivers (which has an updated forked version of libxvmc).
 
 
A new video acceleration API is being developed, in an effort lead by Intel.  This new API supports more complete offload (VLD) as well as iDCT+MC, and can support acceleration of [[MPEG-4]] ASP (H.263), MPEG-4 AVC ([[H.264]]), VC-1/VMW3, as well as [[MPEG-2]]. The website for this effort is located at: http://www.freedesktop.org/wiki/Software/vaapi
 
 
Some users have also provided [[XvMC:Example_CPU_Savings|a chart of example CPU savings]]
 
 
== Drivers ==
 
 
Each hardware video card capable of XvMC video acceleration requires a software driver to enable these features. Below is a list of the recommended software drivers and driver versions for each supported hardware type.
 
 
{| border=1 cellpadding=5 cellspacing=1
 
|- style="background-color: black; color:white"
 
! Chipset
 
! XvMC?
 
! Source
 
! Version
 
! Driver
 
|-
 
! style="background-color: lightyellow" | '''NVIDIA'''
 
! style="background-color: lightgreen" | Yes
 
| [http://www.nvidia.com www.nvidia.com]
 
| Any recent version of the driver is acceptable.  See the Nvidia page for more details
 
| nvidia
 
|-
 
! style="background-color: lightyellow" | '''NVIDIA'''
 
! style="background-color: pink" | No
 
| Included with Xorg distribution
 
| Included version
 
| nv
 
|-
 
! style="background-color: lightyellow" | '''Unichrome'''
 
! style="background-color: lightgreen" | Yes
 
| Included in Xorg 6.9 and above distributions
 
| Included version
 
| openchrome
 
|-
 
! style="background-color: lightyellow" | '''Intel'''
 
! style="background-color: lightgreen" | Yes
 
| Included in Xorg distribution
 
| Included version
 
| i810 or intel
 
|-
 
! style="background-color: lightyellow" | <center>'''ATI'''</center>
 
! style="background-color: pink" | No
 
| At this time, there is no XvMC support for ATI cards in Linux drivers
 
| N/A
 
| N/A
 
|}
 
 
== Enabling XvMC ==
 
 
=== Installing the drivers ===
 
 
In order for MythTV to utilize the XvMC feature of your video chipset, you need to install the appropriate driver for your distribution.  This process will vary by chipset and distribution but some general recommendations can be made. 
 
 
For nvidia chipsets, go to [http://www.nvidia.com www.nvidia.com] and download the binary driver installer package from their website.  Follow the instructions there for executing the package and installing the modules.  Also, the [http://www.atrpms.net ATRPMS] site packages nvidia drivers for installation on new Fedora distributions and the [http://rpm.livna.org Livna] site has packages for some older distributions as well as newer.
 
 
For other chipsets, the driver should already be included in your Xorg installation.
 
 
=== Configuring chipset drivers ===
 
 
Each chipset driver may have specific configuration options that work better with XvMC
 
 
==== NVIDIA ====
 
 
Use the 'nvidia-settings' control panel to disable Video Texture Adapter and/or Video Blitter Adapter "Sync to VBlank" checkboxes (on the "X Server XVideo Settings" page)
 
 
These xorg.conf options can also affect usage or performance
 
 
Section "Driver"
 
      Option "UseEvents" "true"
 
      Option "XvmcUsesTextures" "false"
 
      Option "NVAGP" "1" (some users report 2 works better, may not be applicable to newer driver versions)
 
End Section
 
 
This option is appear to be required for XvMC use with nvidia chipsets, especially when using the Chromakey OSD
 
 
Section "Extensions"
 
      Option "Composite" "Disabled"
 
End Section
 
 
=== Installing the XvMC libraries ===
 
 
For many distributions, a separate XvMC library package needs to be installed.  This is the library that MythTV will use to hook into the XvMC support in the driver.  It provides a common interface for application wishing to use XvMC.
 
 
yum install libXvMC
 
 
is probably appropriate for most.  This may already be installed by your distribution
 
 
=== Enabling the chipset library ===
 
 
Each chipset provides an interface between the XvMC library and the actual driver.  This is usually handled by what is called the XvMC wrapper library.  A text configuration file directs the XvMC library to the driver interface.
 
 
The wrapper configuration file is usually found at /etc/X11/XvMCConfig and you may have to create this file yourself as it is sometimes not pre-installed even though it is needed.
 
 
It contains a single line of the driver library name
 
 
'''NVIDIA'''
 
<div><code>libXvMCNVIDIA_dynamic.so.1</code></div>
 
 
'''unichrome'''
 
<div><code>libXvMCVIA or libXvMCVIAPro (depending on the chipset)</code></div>
 
 
'''intel'''
 
<div><code>libI810XvMC</code></div>
 
 
These will change with different driver chipsets.  If you find a new one, please add it here.  If you used a package (atrpms, livna) based driver installation, you might also be able to find the library name by doing
 
 
rpm -ql <driver-package> | grep -i xvmc
 
 
and look for library names that include the XvMC text.
 
 
== MythTV XvMC Support ==
 
 
=== Packages and Distributions ===
 
 
Most package and distributions of MythTV should have XvMC enabled by default.  You can check your version by doing
 
 
mythfrontend --version
 
 
and looking for
 
 
Options compiled in:
 
linux release using_oss using_alsa using_jack using_backend using_dbox2 using_dvb using_firewire using_frontend   
 
using_hdhomerun using_iptv using_ivtv using_joystick_menu using_lirc using_v4l using_x11 using_xrandr
 
using_xv '''using_xvmc''' '''using_xvmcw''' '''using_xvmc_vld''' using_bindings_perl using_bindings_python using_opengl
 
using_ffmpeg_threads using_libavc_5_3 using_live
 
 
If you see options like <code>using_xvmc</code> and <code>using_xvmcw</code> then your Myth system is prepared for XvMC.
 
 
=== Compiling from source ===
 
 
When you run configure, if you have the proper XvMC development files installed (libXvMC-devel, libXvMCW-devel) , you should see this type of output from the configure script:
 
 
# Video Output Support
 
x11 support              yes
 
xrandr support            yes
 
xv support                yes
 
XvMC support              yes
 
XvMC VLD support          yes
 
XvMC pro support          yes
 
XvMC OpenGL sup.          no
 
XvMC libs                -lXvMCW
 
 
The last libs line will tell you which libraries that MythTV is compiling against.  In this case, it is the XvMC wrapper mentioned above.  For some, it may be the nvidia libraries.  But regardless, you need to see ''yes'' before building MythTV.
 
 
If installing MythTV on Gentoo Linux, make sure [http://www.gentoo.org/doc/en/xorg-config.xml#doc_chap2 VIDEO_CARDS] is properly configured in /etc/make.conf to include, "i810", "nvidia" or "via". The "xvmc" USE flag is also required.  These flags can usually be set on a per package basis in /etc/portage/package.use, for example:
 
$ cat /etc/portage/package.use
 
media-tv/mythtv xvmc
 
 
Or globally for all packages in /etc/make.conf via USE="xvmc"
 
 
=== Configuring MythTV ===
 
 
{{Note box|When running mythfrontend for the first time to test XvMC, try running it from a command window so you can see the output from mythfrontend.  If mythfrontend cannot load the XvMC library, you will see a line in the logs about this when starting playback and you will see log entries about xvmc not being available}}
 
 
XvMC usage is controlled using the [[Playback profiles]] feature of MythTV as of version 0.21.  In previous versions, you simply set the Preferred MPEG-2 Decoder to one of the XvMC methods appropriate for your chipset.  With 0.21, this is a more flexible configuration allowing for different decoders depending on the content.  For XvMC, the Bob deinterlacer provides the best deinterlacing but with some performance penalty.
 
 
Sometimes the [[OpenGL VSync]] feature can affect XvMC use and performance.  This can be enabled or disabled in the frontend configuration if compiled into your MythTV system.
 
 
==== OSD ====
 
 
'''softblend'''
 
 
If your on screen display is greyscale, then XvMC is working and you are using the softblend OSD.  If you are experiencing performance issues related to the OSD (on screen display), disabling the OSD fade will improve this greatly.  You can also try using the Chromakey OSD
 
 
'''Chromakey'''
 
 
{{Warning box|if you have a non-nvidia card or an nvidia 6 or 7 series card '''this feature will not work''' The nvidia 6 and 7 series cards lack the chroma keying and color & contrast adjust features that the older 4 and 5 series cards had.
 
}}
 
 
The chromakey OSD will provide a color OSD and for many chipsets, this also uses far less CPU resources, making playback smoother.
 
 
=== Using other applications ===
 
 
If you use other applications for playback in MythVideo such as mplayer or xine, each has its own configuration options for using XvMC
 
 
'''MPlayer'''
 
 
MPlayer includes an XvMC output plugin. To use it, try this:
 
<code>mplayer -vo xvmc -vc ffmpeg12mc</code>
 
(assuming you are running mplayer with XvMC support compiled in)
 
* Note - unichrome support in mplayer requires a [http://www.openchrome.org/snapshots.html patch].
 
 
'''Xine'''
 
 
Xine's has two plugins for XvMC support, the first is named '''xvmc''' as you would expect, however to take advantage of XvMC acceleration on nVidia graphics cards using the nVidia binary drivers they have a seperate plugin named '''xxmc''' (xx instead of xv).
 
 
To use Xine with XvMC support for most graphics cards use:
 
<code>xine -V xvmc </code>
 
 
To use Xine with XvMC support for nVidia graphics cards use:
 
<code>xine -V xxmc </code>
 
 
(assuming, of course, that xine has been compiled with XvMC support.)
 
 
== Hardware acceleration processes not yet supported by XvMC ==
 
XvMC does have the potential for more than it currently features it supports today. Modern graphic processors (since the DirectX 9 generation and newer) support more than just accelerating motion compensation and iDCT, and they can support more video formats than only MPEG-2 as XvMC does today. NVIDIA's PureVideo Technology and ATI's AVIVO Technology support hardware accelerated video decoding for MPEG-2, MPEG-4 AVC (H.264), and WMV3 (often referred to as WMV9 because Microsoft released it as the same time as Windows Media Player 9). Unfortunate, neither NVIDIA or ATI have yet to open up those technologies to Linux nor the API documentations to the open source community, and no publicly known attempt to reverse engineer access to those APIs have been made.
 
 
As a temporary (or permanent) solution to this, [http://en.wikipedia.org/wiki/Shader shaders] in and/or [http://en.wikipedia.org/wiki/Cg_programming_language Cg] code could be written for these processes and added to the XvMC library to gain some of the additional advantages that GPU assisted video decoding brings and Shader Model 3.0 based GPUs can support today. (Best would be if FFmpeg was used as a reference codec and player/utility). Both NVIDIA and ATI have extensive tools for creating and maintaining the process of developing shaders easier than it has been in the past.
 
 
===Processes that can be accelerated for most video formats===
 
* Motion compensation (mo comp)
 
* Inverse Discrete Cosine Transform (iDCT)
 
** Inverse Telecine 3:2 and 2:2 pull-down correction
 
* Inverse modified discrete cosine transform (iMDCT)
 
* in-loop deblocking
 
* intra-frame prediction
 
* inverse quantization (IQ)
 
* Variable Length Decoding (VLD)
 
** More commonly known as slice level acceleration
 
* Spatial-Temporal De-Interlacing
 
** Plus automatic interlace/progressive source detection
 
* Bitstream processing (CAVLC/CABAC)
 
 
== Alternatives ==
 
There are alternative methods for hardware assisted [[MPEG-2]] playback of standard definition video:
 
*[[Hauppauge PVR-350]]
 
 
 
== External Links ==
 
*[http://www.openchrome.org/ openChrome Project]
 
*[http://sourceforge.net/projects/unichrome The Unichrome Project]
 
*[http://www.freedesktop.org/wiki/Software/vaapi New Video Acceleration API at freedesktop.org]
 
  
[[Category:Glossary]] [[Category:HOWTO]] [[Category:Hardware]] [[Category:Video display cards]]
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[[Category:Outdated]]

Latest revision as of 20:16, 11 November 2013

Warning.png Warning: XvMC has been deemed unnecessary for playback of any content it supports, and detrimental to future graphical enhancements to MythTV. It has been removed from MythTV as of 0.25, and superseded by VDPAU, VAAPI, and Crystal HD.

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