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Langue: en

Version: 258300 (debian - 07/07/09)

Section: 1 (Commandes utilisateur)


mpiexec - Run MPI programs on LAM nodes.


mpiexec [global_args] local_args1 [: local_args2 [...]]
mpiexec [global_args] -configfile <filename>


Global arguments apply to all commands that will be launched by mpiexec. They come at the beginning of the command line.

Boot the LAM run-time environment before running the MPI program. If -machinefile is not specified, use the default boot schema. When the MPI processes finish, the LAM run-time environment will be shut down.
-boot-args <args>
Pass arguments to the back-end lamboot command when booting the LAM run-time environment. Implies -boot.
Enable lots of debugging output. Implies -v.
-machinefile <hostfile>
Enable "one shot" MPI executions; boot the LAM run-time environment with the boot schema specified by <hostfile> (see bhost(5)), run the MPI program, and then shut down the LAM run-time environment. Implies -boot.
-prefix <lam/install/path>
Use the LAM installation specified in </lam/install/path/>. Not compatible with LAM/MPI versions prior to 7.1.
-ssi <key> <value>
Set the SSI parameter <key> to the value <value>.
Launch the MPI processes under the TotalView debugger.
Be verbose

One or more sets of local arguments must be specified (or a config file; see below). Local arguments essentially include everything allowed in an appschema(5) as well as the following options specified by the MPI-2 standard (note that the options listed below must be specified before appschema arguments):

-n <numprocs>
Number of copies of the process to start.
-host <hostname>
Specify the hostname to start the MPI process on. The hostname must be resolvable by the lamnodes command after the LAM run-time environment is booted (see lamnodes(1)).
-arch <architecture>
Specify the architecture to start the MPI process on. mpiexec essentially uses the provided <architecture> as a pattern match against the output of the GNU config.guess utility on each machine in the LAM run-time environment. Any subset will match. See EXAMPLES, below.
-wdir <directory>
Set the working directory of the executable.
Not yet supported.
Not yet supported.
Not yet supported.
When mpiexec first encounters an argument that it doesn't recognize (such as an appschema(5) argument, or the MPI executable name), the remainder of the arguments will be passed back to mpirun to actually start the process. As such, all of mpiexec's arguments that are described above must come before appschema arguments and/or the MPI executable name. Similarly, all arguments after the MPI executable name will be transparently passed as command line argument to the MPI process and will be will be effectively ignored by mpirun.


mpiexec is loosely defined in the Miscellany chapter of the MPI-2 standard (see It is meant to be a portable mechanism for starting MPI processes. The MPI-2 standard recommends several command line options, but does not mandate any. LAM's mpiexec currently supports several of these options, but not all.

LAM's mpiexec is actually a perl script that is a wrapper around several underlying LAM commands, most notably lamboot, mpirun, and lamhalt. As such, the functionality provided by mpiexec can always be performed manually. Unless otherwise specified in arguments that are passed back to mpirun, mpiexec will use the per-CPU scheduling as described in mpirun(1) (i.e., the "cX" and "C" notation).

mpiexec can either use an already-existing LAM universe (i.e., a booted LAM run-time environment), similar to mpirun, or can be used for "one-shot" MPI executions where it boots the LAM run-time environment, runs the MPI executable(s), and then shuts down the LAM run-time environment.

mpiexec can also be used to launch MPMD MPI jobs from the command line. mpirun also supports launching MPMD MPI jobs, but the user must make a text file appschema(5) first.

Perhaps one of 1mpiexec's most useful features is the command-line ability to launch different executables on different architectures using the -arch flag (see EXAMPLES, below). Essentially, the string argument that is given to -arch is used as a pattern match against the output of the GNU config.guess utility on each node. If the user-provided <architecture> string matches any subset of the output of config.guess, it is ruled a match. Wildcards are not possible. The GNU config.guess utility is available both in the LAM/MPI source code distribution (in the config subdirectory) and at

Some sample outputs from config.guess include:

Solaris 2.8 running on a SPARC platform.
Linux running on an i686 architecture.
IRIX 6.5 running on an SGI/MIPS architecture.

You might want to run the laminfo command on your available platforms to see what string config.guess reported. See laminfo(1) for more details (e.g., the -arch flag to laminfo).

Configfile option

It is possible to specify any set of local parameters in a configuration file rather than on the command line using the -configfile option. This option is typically used when the number of command line options is too large for some shells, or when automated processes generate the command line arguments and it is simply more convenient to put them in a file for later processing by mpiexec.

The config file can contain both comments and one or more sets of local arguments. Lines beginning with "#" are considered comments and are ignored. Other lines are considered to be one or more groups of local arguments. Each group must be separated by either a newline or a colon (":"). For example:

  # Sample mpiexec config file
  # Launch foo on two nodes
  -host foo : -host foo
  # Launch two copies of bar on a third node
  -host -np 2 bar


In the event of an error, mpiexec will do its best to shut everything down and return to the state before it was executed. For example, if mpiexec was used to boot a LAM run-time environment, mpiexec will do its best to take down whatever successfully booted of the run-time environment (to include invoking lamhalt and/or lamwipe).


The following are some examples of how to use mpiexec. Note that all examples assume the CPU-based scheduling (which does NOT map to physical CPUs) as described in mpirun(1).

mpiexec -n 4 my_mpi_program
Launch 4 copies of my_mpi_program in an already-existing LAM universe.
mpiexec -n 4 my_mpi_program arg1 arg2
Similar to the previous example, but pass "arg1" and "arg2" as command line arguments to each copy of my_mpi_program.
mpiexec -ssi rpi gm -n 4 my_mpi_program
Similar to the previous example, but pass "-ssi rpi gm" back to mpirun to tell the MPI processes to use the Myrinet (gm) RPI for MPI message passing.
mpiexec -n 4 program1 : -n 4 program2
Launch 4 copies of program1 and 4 copies of program2 in an already-existing LAM universe. All 8 resulting processes will share a common MPI_COMM_WORLD.
mpiexec -machinefile hostfile -n 4 my_mpi_program
Boot the LAM run-time environment with the nodes listed in the hostfile, run 4 copies of my_mpi_program in the resulting LAM universe, and then shut down the LAM universe.
mpiexec -machinefile hostfile my_mpi_program
Similar to above, but run my_mpi_program on all available CPUs in the LAM universe.
mpiexec -arch solaris2.8 sol_program : -arch linux linux_program
Run as many copies of sol_program as there are CPUs on Solaris machines in the current LAM universe, and as many copies of linux_program as there are CPUs on linux machines in the current LAM universe. All resulting processes will share a common MPI_COMM_WORLD.
mpiexec -arch solaris2.8 sol2.8_prog : -arch solaris2.9 sol2.9_program
Similar to the above example, except distinguish between Solaris 2.8 and 2.9 (since they may have different shared libraries, etc.).


appschema(5), bhost(5), lamboot(1), lamexec(1), mpirun(1)
Drame de la calvitie :
Un chauve portant une minerve, le crâne rougi par le soleil, s'est fait
sucer la tête par un déséquilibré qui l'avait pris pour un cornet de
glace à la fraise.
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