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mpirun (1)
  • >> mpirun (1) ( Linux man: Команды и прикладные программы пользовательского уровня )
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    NAME

    mpirun - Run MPI programs on LAM nodes.
     
    

    SYNTAX

    mpirun [-fhvO] [-c <#> | -np <#>] [-D | -wd <dir>] [-ger | -nger] [-c2c | -lamd] [-nsigs] [-nw | -w] [-nx] [-pty | -npty] [-s <node>] [-t | -toff | -ton] [-x VAR1[=VALUE1][,VAR2[=VALUE2],...]] [<where>] <program> [-- <args>]

    mpirun [-fhvO] [-D | -wd <dir>] [-ger | -nger] [-lamd | -c2c] [-nsigs] [-nw | -w] [-nx] [-pty | -npty] [-t | -toff | -ton] [-x VAR1[=VALUE1][,VAR2[=VALUE2],...]] <schema>
     

    OPTIONS

    There are two forms of the mpirun command -- one for programs (i.e., SPMD-style applications), and one for application schemas (see appschema(5)). Both forms of mpirun use the following options by default: -c2c -nger -w. These may each be overriden by their counterpart options, described below.

    Additionally, mpirun will send the name of the directory where it was invoked on the local node to each of the remote nodes, and attempt to change to that directory. See the "Current Working Directory" section, below.

    -c <#>
    Synonym for -np (see below).
    -c2c
    Use "client to client" (c2c) mode for MPI communication in the user program. This mode can significantly speed up some applications, as messages will be passed directly from the source rank to the destination rank; the LAM daemons will not be used as third-party message passing agents. However, this disables monitoring and debugging capabilities; see MPI(7). This option is mutually exclusive with -lamd.
    -D
    Use the executable program location as the current working directory for created processes. The current working directory of the created processes will be set before the user's program is invoked. This option is mutually exclusive with -wd.
    -f
    Do not configure standard I/O file descriptors - use defaults.
    -h
    Print useful information on this command.
    -ger
    Enable GER (Guaranteed Envelope Resources) communication protocol and error reporting. See MPI(7) for a description of GER. This option is mutually exclusive with -nger.
    -lamd
    Use the LAM "daemon mode" for MPI communication. See -c2c (above) and MPI(7) for a description of the "daemon mode" communication.
    -nger
    Disable GER (Guaranteed Envelope Resources). This option is mutually exclusive with -ger.
    -nsigs
    Do not have LAM catch signals.
    -np <#>
    Run this many copies of the program on the given nodes. This option indicates that the specified file is an executable program and not an application schema. If no nodes are specified, all LAM nodes are considered for scheduling; LAM will schedule the programs in a round-robin fashion, "wrapping around" (and scheduling multiple copies on a single node) if necessary.
    -npty
    Disable pseudo-tty support. Unless you are having problems with pseudo-tty support, you probably do not need this option. Mutually exlclusive with -pty.
    -nw
    Do not wait for all processes to complete before exiting mpirun. This option is mutually exclusive with -w.
    -nx
    Do not automatically export LAM_MPI_*, LAM_IMPI_*, or IMPI_* environment variables to the remote nodes.
    -O
    Multicomputer is homogeneous. Do no data conversion when passing messages.
    -pty
    Enable pseudo-tty support. Among other things, this enabled line-buffered output (which is probably what you want). This is the default. Mutually exclusive with -npty.
    -s <node>
    Load the program from this node. This option is not valid on the command line if an application schema is specified.
    -t, -ton
    Enable execution trace generation for all processes. Trace generation will proceed with no further action. These options are mutually exclusive with -toff.
    -toff
    Enable execution trace generation for all processes. Trace generation will begin after processes collectively call MPIL_Trace_on(2). This option is mutually exclusive with -t and -ton.
    -v
    Be verbose; report on important steps as they are done.
    -w
    Wait for all applications to exit before mpirun exits.
    -wd <dir>
    Change to the directory <dir> before the user's program executes. Note that if the -wd option appears both on the command line and in an application schema, the schema will take precendence over the command line. This option is mutually exclusive with -D.
    -x
    Export the specified environment variables to the remote nodes before executing the program. Existing environment variables can be specified (see the Examples section, below), or new variable names specified with corresponding values. The parser for the -x option is not very sophisticated; it does not even understand quoted values. Users are advised to set variables in the environment, and then use -x to export (not define) them.
    <where>
    A set of node and/or CPU identifiers indicating where to start <program>. See bhost(5) for a description of the node and CPU identifiers. mpirun will schedule adjoining ranks in MPI_COMM_WORLD on the same node when CPU identifiers are used. For example, if LAM was booted with a CPU count of 4 on n0 and a CPU count of 2 on n1 and <where> is C, ranks 0 through 3 will be placed on n0, and ranks 4 and 5 will be placed on n1.
    <args>
    Pass these runtime arguments to every new process. These must always be the last arguments to mpirun. This option is not valid on the command line if an application schema is specified.
     

    DESCRIPTION

    One invocation of mpirun starts an MPI application running under LAM. If the application is simply SPMD, the application can be specified on the mpirun command line. If the application is MIMD, comprising multiple programs, an application schema is required in a separate file. See appschema(5) for a description of the application schema syntax, but it essentially contains multiple mpirun command lines, less the command name itself. The ability to specify different options for different instantiations of a program is another reason to use an application schema.  

    Application Schema or Executable Program?

    To distinguish the two different forms, mpirun looks on the command line for <where> or the -c option. If neither is specified, then the file named on the command line is assumed to be an application schema. If either one or both are specified, then the file is assumed to be an executable program. If <where> and -c both are specified, then copies of the program are started on the specified nodes/CPUs according to an internal LAM scheduling policy. Specifying just one node effectively forces LAM to run all copies of the program in one place. If -c is given, but not <where>, then all available CPUs on all LAM nodes are used. If <where> is given, but not -c, then one copy of the program is run on each node.

     

    Program Transfer

    By default, LAM searches for executable programs on the target node where a particular instantiation will run. If the file system is not shared, the target nodes are homogeneous, and the program is frequently recompiled, it can be convenient to have LAM transfer the program from a source node (usually the local node) to each target node. The -s option specifies this behavior and identifies the single source node.  

    Locating Files

    LAM looks for an executable program by searching the directories in the user's PATH environment variable as defined on the source node(s). This behavior is consistent with logging into the source node and executing the program from the shell. On remote nodes, the "." path is the home directory.

    LAM looks for an application schema in three directories: the local directory, the value of the LAMAPPLDIR environment variable, and LAMHOME/boot, where LAMHOME is the LAM installation directory.  

    Standard I/O

    LAM directs UNIX standard input to /dev/null on all remote nodes. On the local node that invoked mpirun, standard input is inherited from mpirun. The default is what used to be the -w option to prevent conflicting access to the terminal.

    LAM directs UNIX standard output and error to the LAM daemon on all remote nodes. LAM ships all captured output/error to the node that invoked mpirun and prints it on the standard output/error of mpirun. Local processes inherit the standard output/error of mpirun and transfer to it directly.

    Thus it is possible to redirect standard I/O for LAM applications by using the typical shell redirection procedure on mpirun.

    % mpirun C my_app < my_input > my_output

    Note that in this example only the local node (i.e., the node where mpirun was invoked from) will receive the stream from my_input on stdin. The stdin on all the other nodes will be tied to /dev/null. However, the stdout from all nodes will be collected into the my_output file.

    The -f option avoids all the setup required to support standard I/O described above. Remote processes are completely directed to /dev/null and local processes inherit file descriptors from lamboot(1).  

    Pseudo-tty support

    The -pty option enabled pseudo-tty support for process output (it is also enabled by default). This allows, among other things, for line buffered output from remote nodes (which is probably what you want). This option can be disabled with the -npty switch.

     

    Current Working Directory

    The default behavior of mpirun has changed with respect to the directory that processes will be started in.

    The -wd option to mpirun allows the user to change to an arbitrary directory before their program is invoked. It can also be used in application schema files to specify working directories on specific nodes and/or for specific applications.

    If the -wd option appears both in a schema file and on the command line, the schema file directory will override the command line value.

    The -D option will change the current working directory to the directory where the executable resides. It cannot be used in application schema files. -wd is mutually exclusive with -D.

    If neither -wd nor -D are specified, the local node will send the directory name where mpirun was invoked from to each of the remote nodes. The remote nodes will then try to change to that directory. If they fail (e.g., if the directory does not exists on that node), they will start with from the user's home directory.

    All directory changing occurs before the user's program is invoked; it does not wait until MPI_INIT is called.  

    Process Environment

    Processes in the MPI application inherit their environment from the LAM daemon upon the node on which they are running. The environment of a LAM daemon is fixed upon booting of the LAM with lamboot(1) and is inherited from the user's shell. On the origin node, this will be the shell from which lamboot(1) was invoked and on remote nodes this will be the shell started by rsh(1). When running dynamically linked applications which require the LD_LIBRARY_PATH environment variable to be set, care must be taken to ensure that it is correctly set when booting the LAM.  

    Exported Environment Variables

    All environment variables that are named in the form LAM_MPI_*, LAM_IMPI_*, or IMPI_* will automatically be exported to new processes on the local and remote nodes. This exporting may be inhibited with the -nx option.

    Additionally, the -x option to mpirun can be used to export specific environment variables to the new processes. While the syntax of the -x option allows the definition of new variables, note that the parser for this option is currently not very sophisticated - it does not even understand quoted values. Users are advised to set variables in the environment and use -x to export them; not to define them.  

    Trace Generation

    Two switches control trace generation from processes running under LAM and both must be in the on position for traces to actually be generated. The first switch is controlled by mpirun and the second switch is initially set by mpirun but can be toggled at runtime with MPIL_Trace_on(2) and MPIL_Trace_off(2). The -t (-ton is equivalent) and -toff options all turn on the first switch. Otherwise the first switch is off and calls to MPIL_Trace_on(2) in the application program are ineffective. The -t option also turns on the second switch. The -toff option turns off the second switch. See MPIL_Trace_on(2) and lamtrace(1) for more details.  

    MPI Data Conversion

    LAM's MPI library converts MPI messages from local representation to LAM representation upon sending them and then back to local representation upon receiving them. If the case of a LAM consisting of a homogeneous network of machines where the local representation differs from the LAM representation this can result in unnecessary conversions. The -O switch can be used to indicate that the LAM is homogeneous and turn off data conversion.  

    Direct MPI Communication

    For much improved performance but much decreased observability, the -c2c option directs LAM's MPI library to use the most direct underlying mechanism to communicate with other processes, rather than use the network message-passing of the LAM daemon. Unreceived messages will be buffered in the destination process instead of the LAM daemon. MPI process and message monitoring commands and tools will be much less effective, usually reporting running processes and empty message queues. Signal delivery with doom(1) is unaffected.  

    Guaranteed Envelope Resources

    By default, LAM will guarantee a minimum amount of message envelope buffering to each MPI process pair and will impede or report an error to a process that attempts to overflow this system resource. This robustness and debugging feature is implemented in a machine specific manner when direct communication (-c2c) is used. For normal LAM communication via the LAM daemon, a protocol is used. The -nger option disables GER and the measures taken to support it. The minimum GER is configured by the system administrator when LAM is installed. See MPI(7) for more details.  

    EXAMPLES

    mpirun N prog1
    Load and execute prog1 on all nodes. Search the user's $PATH for the executable file on each node.
    mpirun -c 8 prog1
    Run 8 copies of prog1 wherever LAM wants to run them.
    mpirun n8-10 -v -nw -s n3 prog1 -q
    Load and execute prog1 on nodes 8, 9, and 10. Search for prog1 on node 3 and transfer it to the three target nodes. Report as each process is created. Give "-q" as a command line to each new process. Do not wait for the processes to complete before exiting mpirun.
    mpirun -v myapp
    Parse the application schema, myapp, and start all processes specified in it. Report as each process is created.
    mpirun -npty -wd /work/output -x DISPLAY C my_application

    Start one copy of "my_application" on each available CPU. The number of available CPUs on each node was previously specified when LAM was booted with lamboot(1). As noted above, mpirun will schedule adjoining rank in MPI_COMM_WORLD on the same node where possible. For example, if n0 has a CPU count of 8, and n1 has a CPU count of 4, mpirun will place MPI_COMM_WORLD ranks 0 through 7 on n0, and 8 through 11 on n1. This tends to maximize on-node communication for many parallel applications; when used in conjunction with the multi-protocol network/shared memory RPIs in LAM (see the RELEASE_NOTES and INSTALL files with the LAM distribution), overall communication performance can be quite good. Also disable pseudo-tty support, change directory to /work/output, and export the DISPLAY variable to the new processes (perhaps my_application will invoke an X application such as xv to display output).

     

    DIAGNOSTICS

    mpirun: Exec format error
    A non-ASCII character was detected in the application schema. This is usually a command line usage error where mpirun is expecting an application schema and an executable file was given.
    mpirun: syntax error in application schema, line XXX
    The application schema cannot be parsed because of a usage or syntax error on the given line in the file.
    <filename>: No such file or directory
    This error can occur in two cases. Either the named file cannot be located or it has been found but the user does not have sufficient permissions to execute the program or read the application schema.
     

    SEE ALSO

    bhost(5), mpimsg(1), mpitask(1), lamexec(1), lamtrace(1), MPIL_Trace_on(2), loadgo(1)


     

    Index

    NAME
    SYNTAX
    OPTIONS
    DESCRIPTION
    Application Schema or Executable Program?
    Program Transfer
    Locating Files
    Standard I/O
    Pseudo-tty support
    Current Working Directory
    Process Environment
    Exported Environment Variables
    Trace Generation
    MPI Data Conversion
    Direct MPI Communication
    Guaranteed Envelope Resources
    EXAMPLES
    DIAGNOSTICS
    SEE ALSO


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