User:Sylvain: Difference between revisions

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=== crontab on MacOS ===
==Redesign of VTK==
* Example
The next version of VTK will support OpenGL 2.0 and GPU Filters.
  crontab -e
The illustration below shows the new Rendering Pipeline of VTK.
  00 20 * * * ctest -S myScript.cmake > myScript.log 2>&1


* Problem:
[[Image:ShaderDeviceAdapter.png]]
When I create a cronjob with
  crontab -e
I get the error message:
  crontab: temp file must be edited in place


* Solution:
==Streamline Visualization on the GPU==
Use the 'nobackup' option in VI:
Lines are converted to Triangle Strips on the CPU.
  :set nobackup
Then the Vertex Shader orients the triangle strips to face the camera.
  crontab: installing new crontab
Finally the Fragment Shader colors the pixels based on the reflection equation on a cylinder.
The resulting image can be textured with arrows, text, or numbers to convey additional information.


=== Install X11 on MacOS ===
[[Image:TubePainter.png]]
To install ParaView-2.4.4, you need to install X11.
* Insert 'Mac OS X Install Disc 1'
* Scroll down to 'Optional Installs'
* Click 'Continue', 'Continue', 'Accept'
* Select 'Applications', click on the arrow in front of Applications
* Select 'X11'
* Click 'Upgrade', enter your password, click 'Ok'


=== Setup CMake for ICC ===
==Streamlines with a cylinder reflection model==
To configure a project to use the Intel compiler icc,
The Vertex Shader orients the triangle strips toward the camera.
set CC and CXX *before* you run cmake.
The FragmentShader applies a cylinder reflection model to give this tube appearance.
Type is the terminal:
[[Image:TestTubeActorStreamLines.png]]


  CFLAGS= CXXFLAGS=
==Streamlines with arrows==
  CC=/opt/intel_cc_81/bin/icc
The Fragment Shader creates a triangle and orients it based on the value of a vertex attribute.
  CXX=/opt/intel_cc_81/bin/icpc


Then run cmake or ccmake.
[[Image:TestArrowTubeActor.png]]


=== Headers for Cross-platform Projects ===
==Streamlines with RGBA texture==
The Fragment Shader applies a texture on the streamlines to visualize additional information.


  #include <stdio.h>  // for sscanf
[[Image:TestTextureTubeActor.png]]


=== Install Qt OpenSource for VCExpress (VS2005) ===
==Streamlines with numbers==
* Install VCExpress AND Platform SDK
Note that the numbers are oriented correctly on the Vertex Shader. The text always faces the camera even during rotations.
http://msdn.microsoft.com/vstudio/express/visualc/download/
* Using Windows Unzip, extract qt-win-opensource-src-4.2.2.zip and acs-4.2.2-patch1.zip to c:/qt/qt-win-opensource-src-4.2.2
http://www.paraview.org/Wiki/Obtaining_GPL'ed_Qt_for_Windows
* Edit C:\Program Files\Microsoft Visual Studio 8\Common7\Tools\vsvars32.bat
* Add path to Platform SDK bin, include and lib:
  C:\Program Files\Microsoft Platform SDK for Windows Server 2003 R2\Bin
  C:\Program Files\Microsoft Platform SDK for Windows Server 2003 R2\Include
  C:\Program Files\Microsoft Platform SDK for Windows Server 2003 R2\Lib
* Launch Cygwin.exe, and apply the following patch
  patch -p1 -i qtwin_patch\msvc_bcc32_42.patch
* Launch Start > All Programs > Visual C++ Express Edition > Visual Studio Tools > Visual Studio 2005 Command Prompt
* cd ..; cd qt; cd qt-win-opensource-src-4.2.2
* Configure Qt and answer yes to all questions
qconfigure.bat msvc2005
* Configure ParaView3 using CMake; Compile using MSVC2005


===Change shell in Debian===
[[Image:TestCellIdAnimation.gif]]
* Type:
  chsh
* Type your password
* Logout and login again.
* Set up the .zshrc file.


===Associate hostname with IP address for SSH===
Close up on the texture of the streamlines.
* Dynamic way:
Add in /etc/dhcp3/dhclient.conf
  send host-name "<your_host_name>";
* Static way: (not as good)
Add IP address and hostname in /etc/hosts (Linux) or
C:/WINDOWS/system32/drivers/etc/hosts (Cygwin):
      102.54.94.97    rhino.acme.com          # source server
      38.25.63.10    x.acme.com              # x client host
* On Debian, install openssh-server


===SSH without password===
[[Image:TestCellIdTubeActor1.png]]
Add to .ssh/config   
  Host <remote_host_name>
    User <your_user_name_on_remote_host>
===Debian Setup===
boot: expert
Primary network interface: eth0: ADMtek NC100 Network Everywhere Fast Ethernet 10/100
DHCP
single partition
Install the kernel linux-image-2.6-686
Debian mirror: France - fr.debian.org
Use non-free software
Choose software to install:
Desktop environment
Web server
SQL server (forgot to do that one!)
Standard system


===BuGLe setup on Debian===
==Streamlines with a varying radius==
Check http://wiki.debian.org/NvidiaGraphicsDrivers
 
Install package nvidia-glx-dev
[[Image:TestStreamLinesVaryingRadius.png]]

Latest revision as of 23:21, 31 August 2007

Redesign of VTK

The next version of VTK will support OpenGL 2.0 and GPU Filters. The illustration below shows the new Rendering Pipeline of VTK.

ShaderDeviceAdapter.png

Streamline Visualization on the GPU

Lines are converted to Triangle Strips on the CPU. Then the Vertex Shader orients the triangle strips to face the camera. Finally the Fragment Shader colors the pixels based on the reflection equation on a cylinder. The resulting image can be textured with arrows, text, or numbers to convey additional information.

TubePainter.png

Streamlines with a cylinder reflection model

The Vertex Shader orients the triangle strips toward the camera. The FragmentShader applies a cylinder reflection model to give this tube appearance. TestTubeActorStreamLines.png

Streamlines with arrows

The Fragment Shader creates a triangle and orients it based on the value of a vertex attribute.

TestArrowTubeActor.png

Streamlines with RGBA texture

The Fragment Shader applies a texture on the streamlines to visualize additional information.

TestTextureTubeActor.png

Streamlines with numbers

Note that the numbers are oriented correctly on the Vertex Shader. The text always faces the camera even during rotations.

TestCellIdAnimation.gif

Close up on the texture of the streamlines.

TestCellIdTubeActor1.png

Streamlines with a varying radius

TestStreamLinesVaryingRadius.png