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MutekH quick start guide for SoCLib platform
SoCLib simulator allow easy experimentation with advanced multi-processor programming.
This guide explains how to run MutekH on a SoCLib hardware simulator with native processor heterogeneity support.
The SoCLib simulator used here is easy to use but has a complex internal design due to dynamic processors model instanciation. This is really convenient if you want to experiment with different processors without modifying the simulator. This simulator allows processor heterogeneity.
If you are interested in learning SoCLib hardware simulator, or plan to use SoCLib to model your own platform, you have better reading the MutekH/SocCLib tutorial first.
You are highly encouraged to first follow the MutekH as Unix process quick start guide which introduce more basic concepts.
The SoCLib platform
Getting SoCLib
We now need to have a working SoCLib install. SoCLib installation is explained here: soclib:InstallationNotes
Moreover, you'll need the MutekH source tree and its prerequisites. See InstallationNotes
SoCLib platform description
The SoCLib source tree contains a platform dedicated to this tutorial:
soclib/soclib/platform/topcells/caba-vgmn-mutekh_tutorial/
.
The MutekH part
Getting the sources
svn co https://www-asim.lip6.fr/svn/mutekh/trunk/mutekh
Writing the example source code
The MutekH kernel source code is fully configurable and can be tweaked to adapt hardware platform and application needs. Configuration is handled by a dedicated tool which check dependencies and other relationships between the large set of available configuration tokens.
What you need to do:
- Write the source code in
hello.c
- Write the
Makefile
- Write the
platform-mips+arm.dts
to describe hardware, see FlattenedDeviceTree for details. - Write the source configuration file, see BuildSystem for details.
Note: This example is available directly from examples/hello_het
directory in source tree: trunk/mutekh/examples/hello_het
Getting the cross-compilers
You can rely on the tools/crossgen.mk
script which comes along with MutekH to build some GNU cross-toolchains:
$ tools/crossgen.mk $ tools/crossgen.mk all TARGET=mipsel-unknown-elf $ tools/crossgen.mk all TARGET=arm-unknown-elf
Compiling the application along with MutekH
$ cd path/to/mutekh $ make kernel-het CONF=examples/hello_het/config BUILD=arm:mipsel
This will build the MutekH kernel along with the application. The simulator can then be built using:
$ cd path/to/soclib/soclib/platform/topcells/caba-vgmn-mutekh_tutorial $ make system.x
Execution
The simulator needs the MutekH executable file name and the processor type and the number of processors of this type:
$ cd path/to/soclib/soclib/platform/topcells/caba-vgmn-mutekh_tutorial $ ./system.x mips32el:2 path/to/mutekh/kernel-mipsel.het.out arm:2 path/to/mutekh/kernel-arm.het.out
You may want to refer to other articles and documents available from the main page to go further with MutekH.
The SoCLib home page provides a livecd image with more advanced examples ready to compile and run. These examples are using older MutekH revisions though.
Other more advanced topics and guides are available from the Main page.
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