Legion's remote execution allows you to run remotely executed programs from the Legion command line, taking advantage of Legion's distributed resources. Your workload can be spread out on several processors, improving job turn-around time and performance. You can execute multiple instances of a single program or execute several different programs in parallel.
A remote program is an executable process that can be started with a command-line utility. Note that a remote program is not part of the Legion system, but is an independent program that may or may not be compatible with Legion. Remote programs might be shell scripts, compilers, existing executables, etc. The term "remote" here means that the program does not need to be executed on the local host.
Legion can run both Legion-compatible and non-Legion-compatible programs. A compatible program is linked to the Legion libraries. A incompatible program does not have these links. The legion_register_program command, which registers incompatible programs with the Legion system, creates a proxy to handle a particular program. When the program is run, with the legion_run command, the proxy is activated and can instruct the program to begin execution.
Legion can run both Legion and non-Legion (i.e., programs that are not linked to the Legion libraries, such as shell scripts) remote program since it relies on two different types of interfaces to pass Legion's execution order to the program. Before either a compatible or incompatible remote program can be run from Legion it must be registered . The legion_register_runnable command registers Legion-compatible programs, and the legion_register_program command registers a non-Legion program. A single command, legion_run , runs both types of remote programs. Both of these commands have parameters that include the remote program's binary path name and architecture and assign the program a context path name: this allows Legion to know where the program's executable files are located, what platform the files use, and how to find the program's Legion interface.
Incompatible remote programs are registered with the legion_register_program command. This includes information about the program's architecture (e.g., linux, sgi, solaris, etc.), its binary path name, and a program class.
The < program class > parameter is a context path name for the class that will manage Legion objects related to a particular program. Note that since you decide how to organize your context space the path name can be whatever the you find most convenient (although you might want to use the name of the program in the < program class > parameter, so that it will be easier to remember). The context path name can be new or can use a previously created path (if you are registering multiple versions of a the same program), and will refer to a (new or previously created) Legion object that functions as a proxy for executing a incompatible remote program.
If multiple programs are registered with the same program class and architecture, the most recently registered version will be used when the program is run on that particular architecture. Once the program has been registered, it can be run with the legion_run command.
The legion_register_runnable command registers programs that are linked to the Legion libraries, and export a runnable object interface. The command creates an interface between the Legion system and the remote program and this interface transfers the execution command from Legion to the remote program. Like legion_register_program , this command specifies the remote program's program class, executable binary path, and architecture. Its usage is:
As with legion_register_program , the < program class > parameter is a context path name for the Legion objects that will handle a particular program. And, again, you are free to choose a context path that best suits your organizational scheme or use a previously created context (although you might want to use the name of the program in the < program class > parameter, so that it will be easier to remember). In that case, note that Legion will use the most recently registered program class and architecture when running a remote program. Once the program has been registered, it can be run with the legion_run command.
Use legion_run to remotely execute programs. but note that you must first register the program with either legion_register_program for non-Legion compatible programs or legion_register_runnable for Legion compatible programs. The usage of this command is:
The legion_run command executes a single instance of the program associated with the < program class > parameter. Legion will randomly choose a host with a suitable architecture (specified when the program was registered) to execute the program. If you are running a serial program with many input files and/or multiple executions you may prefer to use the legion_run_multi command (see See legion_run_multi in the Reference Manual).
There are several optional parameters associated with legion_run . The -w flag directs the command's output to your tty object. The -v flag runs the command in verbose mode. Note that if you have not created and set a tty object for your current window, you will not be able to see the command's output and an error message will appear. Use the legion_tty command to create and set a tty object if you have not already done so (see See About Legion tty objects ).
The -h flag allows you to specify which host should execute the program. The host must be part of your system (i.e., have a context name in your context space: if not use the legion_starthost command to add it).
The -in < context path name > option allows you to select a Legion file that should be copied into the remote program's current working directory before the program executes. The -out < context path name > option instructs Legion to copy the program's output from the remote program's current working directory to the Legion file named in < context path name >, after the program terminates (partial results will be available if the program crashes).
Two other options operate on a local file: -IN < local file name > tells Legion to copy the files named in < local file name > into the remote program's current working directory before the program executes, and -OUT < local file name > tells Legion to copy the program's output to the file named in < local file name >.
Files that are listed with the -in / -out and -IN / -OUT options can be named with either full or relative path names. Note, however, that the remote program will use the file path's basename (i.e., as relative path names from the current working directory) to gain access to the named file. New files will be given names corresponding to the basename of the current Legion context path or local directory path.
Depending on the program, you may need to request a block of time and/or number of nodes on the host: the -t flag specifies how many minutes the program needs and the -n flag specifies how many nodes. These options are pointless, of course, if the host selected to run the remote program does not enforce time limits for jobs, or is a uniprocessor or does not support multi-node allocations.
If your program requires extensive use of these options you may want to use the -f flag, which allows user to list the options in a separate file rather than on the command line. The file can be delimited with spaces or new lines and can contain any of the options discussed above except for the program class name and any command-line arguments: those must appear on the command line.
The remote Unix program cp is first registered, and the program class cp is created in the user's local context, /bin/cp is declared to be its local executable path name, and linux is declared to be its architecture type.
The program is then remotely executed on a randomly chosen linux host, and a series of events takes place: first, the -in option tells Legion to copy the Legion file /dir1/src into the remote program's cp 's current working directory and call it src . The remote program cp then executes, copying src to a new Unix file, dest . Finally, once cp has terminated, Legion copies the contents of Unix file dest to a new Legion file called dest , and adds the context name dest to /dir2 (i.e., if the user runs legion_ls , dest will now be listed and will refer to the dest file).
Once a program has been registered, it can be run from the Legion GUI (please see See The GUI for information about starting and running the GUI).
This will bring up a new window, which you should use to specify arbitrary command-line arguments for running the program and the context names of any input or output files (the -in / -out parameters). You can use currently existing output files or create new ones. You can also specify the program's architecture from a list of acceptable architectures at the bottom of the Run window: this list contains the names of the architectures that Legion currently accepts. The any option uses the default architecture.