CmakeCrayXt3: Difference between revisions

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(New page: = How to build software for Cray XT3 / Catamount= BlueGene consists of two different types of nodes, the service node, which are more or less regular PowerPC Linux machines, and the actua...)
 
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= How to build software for Cray XT3 / Catamount=
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BlueGene consists of two different types of nodes, the service node, which are more or less regular PowerPC Linux machines, and the actual compute nodes, which have the same processors, but run the "Compute Node Kernel" as operating system.
This page has moved [https://gitlab.kitware.com/cmake/community/wikis/doc/cmake/cross_compiling/CrayXt3 here].
Building software for the service nodes is not different than building software on any other Linux system.
But to build software for the actual compute nodes, you need to cross compile. For C/C++ there are
typically two toolchains you can use for the compute nodes:
* the GNU gcc toolchain (powerpc-bgl-blrts-gnu-gcc)
* the IBM XL toolchain (blrts_xlc)
 
In order to use them with CMake you have to write a toolchain file, more on that below.
 
== Writing the CMake toolchain file for the GNU toolchain ==
 
For CMake to be able to crosscompile software, it requires you to write a toolchain file, which tells CMake
some information about the toolchain.
 
For the GNU toolchain on BlueGene it could look like like the following:
<pre>
# the name of the target operating system
SET(CMAKE_SYSTEM_NAME BlueGeneL)
 
# set the compiler
set(CMAKE_C_COMPILER /bgl/BlueLight/ppcfloor/blrts-gnu/bin/powerpc-bgl-blrts-gnu-gcc )
set(CMAKE_CXX_COMPILER /bgl/BlueLight/ppcfloor/blrts-gnu/bin/powerpc-bgl-blrts-gnu-g++ )
 
# set the search path for the environment coming with the compiler
# and a directory where you can install your own compiled software
set(CMAKE_FIND_ROOT_PATH
    /bgl/BlueLight/ppcfloor/
    /bgl/BlueLight/V1R3M2_140_2007-070424/ppc/blrts-gnu/powerpc-bgl-blrts-gnu/
    /bgl/BlueLight/V1R3M2_140_2007-070424/ppc/bglsys
    /home/alex/bgl-install
)
 
# adjust the default behaviour of the FIND_XXX() commands:
# search headers and libraries in the target environment, search
# programs in the host environment
set(CMAKE_FIND_ROOT_PATH_MODE_PROGRAM NEVER)
set(CMAKE_FIND_ROOT_PATH_MODE_LIBRARY ONLY)
set(CMAKE_FIND_ROOT_PATH_MODE_INCLUDE ONLY)
</pre>
 
Save this file as Toolchain-BlueGeneL-gcc.cmake to some location where you will put
all your toolchain files, e.g. $HOME.
As you can see CMAKE_FIND_ROOT_PATH is set to three directories coming with the toolchain, which contain the headers and libraries installed with the toolchain, and /home/alex/bgl-install/.
This last directory is intended to hold
other libraries you will compile for the compute nodes, they should be installed under this install prefix. This way the FIND_XXX() commands in CMake will find both the headers and libraries coming with the toolchain as well
as additional libraries you have built for this platform.
 
== Building the software for BlueGene/L with the GNU toolchain==
 
Let's say you have the classical hello world software with a CMake based buildsystem and want to build this for now for your super computer.
main.c:
<pre>
#include <stdio.h>
 
int main()
{
  printf("Hello world\n");
  return 0;
}
</pre>
 
CMakeLists.txt:
<pre>
ADD_EXECUTABLE(hello main.c)
</pre>
 
Then run CMake on it to generate the buildfiles, the important point is that you tell it to use the toochain file you just wrote:
<pre>
~/src/helloworld/ $ mkdir build-gcc
~/src/helloworld/ $ cd build-gcc
~/src/helloworld/build-gcc/ $ cmake -DCMAKE_TOOLCHAIN_FILE=~/Toolchain-BlueGeneL-gcc.cmake -DCMAKE_INSTALL_PREFIX=/home/alex/bgl-install ..
-- The C compiler identification is GNU
-- The CXX compiler identification is GNU
...
-- Configuring done
-- Generating done
-- Build files have been written to: /home/alex/src/helloworld/build-gcc
~/src/helloworld/build-gcc/ $ make
Scanning dependencies of target hello
[100%] Building C object CMakeFiles/hello.dir/main.o
Linking C executable hello
[100%] Built target hello
</pre>
 
So that's all. It actually doesn't matter whether it's just a "hello world" or some complex piece of software,
the only difference is the usage of the toolchain file. If the software has all required configure checks, it should just build also with this toolchain.
To run this program, write an appropriate submit script and run it via llsubmit. If everything works out fine,
you will get output files with one greeting from each of the processors of the compute node. :-)
 
CMake can help you a bit with creating this script. Create a file like the following in the source directory and save it as run_job.ksh.in:
<pre>
#!/bin/ksh
# @ job_type = BlueGene
# @ executable = /bgl/BlueLight/ppcfloor/bglsys/bin/mpirun
# @ arguments = -cwd ${CMAKE_BINARY_DIR} -exe ${EXE_LOCATION} -mode VN
# @ input = /home/alex/empty_file
# @ output = ${CMAKE_BINARY_DIR}/output.$(jobid).out
# @ error = ${CMAKE_BINARY_DIR}/output.$(jobid).err
# @ initialdir = ${CMAKE_BINARY_DIR}
# @ notify_user = alex.neundorf@kitware.com
# @ notification = complete
# @ wall_clock_limit = 01:05:00
# @ restart = no
# @ coschedule = no
# @ bg_size = 128
# @ queue
</pre>
 
Then add the following code to you CMakeLists.txt:
<pre>
get_target_property(EXE_LOCATION hello LOCATION)
configure_file(run_job.ksh.in ${CMAKE_BINARY_DIR}/run_job.ksh)
</pre>
 
When running CMake to create the Makefiles it will replace the directories and will create a working run_job.ksh
in your build directory.
 
==Using the IBM XL toolchain for building the software for BlueGene/L==
 
The IBM XL toolchain can also be used with CMake on BlueGene/L.
You have to write a separate toolchain file for it, the main difference to the one above is that
the IBM compilers are used:
<pre>
# the name of the target operating system
SET(CMAKE_SYSTEM_NAME BlueGeneL)
 
# set the compiler
set(CMAKE_C_COMPILER  /opt/ibmcmp/vac/bg/8.0/bin/blrts_xlc)
set(CMAKE_CXX_COMPILER  /opt/ibmcmp/vacpp/bg/8.0/bin/blrts_xlC)
 
# set the search path for the environment coming with the compiler
# and a directory where you can install your own compiled software
set(CMAKE_FIND_ROOT_PATH
    /bgl/BlueLight/ppcfloor/
    /bgl/BlueLight/V1R3M2_140_2007-070424/ppc/bglsys
    /home/alex/bgl-install
)
 
# adjust the default behaviour of the FIND_XXX() commands:
# search headers and libraries in the target environment, search
# programs in the host environment
set(CMAKE_FIND_ROOT_PATH_MODE_PROGRAM NEVER)
set(CMAKE_FIND_ROOT_PATH_MODE_LIBRARY ONLY)
set(CMAKE_FIND_ROOT_PATH_MODE_INCLUDE ONLY)
</pre>
 
Save this file as Toolchain-BlueGeneL-xlc.cmake in the same directory where you saved the toolchain file for the GNU toolchain.
Then create a new build directory and run CMake there:
<pre>
~/src/helloworld/ $ mkdir build-xlc
~/src/helloworld/ $ cd build-xlc
~/src/helloworld/build-xlc/ $ cmake -DCMAKE_TOOLCHAIN_FILE=~/Toolchain-BlueGeneL-xlc.cmake -DCMAKE_INSTALL_PREFIX=/home/alex/bgl-install ..
-- The C compiler identification is VisualAge
-- The CXX compiler identification is VisualAge
...
-- Configuring done
-- Generating done
-- Build files have been written to: /home/alex/src/helloworld/build-xlc
~/src/helloworld/build-xlc/ $ make
Scanning dependencies of target hello
[100%] Building C object CMakeFiles/hello.dir/main.o
Linking C executable hello
[100%] Built target hello
</pre>

Latest revision as of 15:41, 30 April 2018


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