/usr/share/octave/packages/parallel-3.1.1/doc-cache

# doc-cache created by Octave 4.2.1
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install_vars


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 -- Function File: install_vars (VARNAME, ..., CONNECTIONS)
     Install named variables at remote machines.

     The variables named in the arguments are distrubted to the remote
     machines specified by CONNECTIONS and installed there.  The
     variables must be accessible within the calling function.  If
     variables have been declared to have global scope, they will also
     have global scope at the remote machines.

     This function can only be successfully called at the client
     machine.  See 'pconnect' for a description of the CONNECTIONS
     variable.  CONNECTIONS can contain all connections of the network,
     a subset of them, or a single connection.  The local machine
     (client), if contained in CONNECTIONS, is ignored.

     To install, e.g., all visible variables,

     'install_vars (who (){:}, ...);'

     can be used.

     Internally, this function sends the variables only to one server
     and then issues the necessary commands to distribute them to all
     specified servers over server-to-server data connections.

     See also: pconnect, pserver, sclose, rfeval, netcellfun.


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Install named variables at remote machines.



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netarrayfun


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 -- Function File: netarrayfun (CONNECTIONS, FUN, ...)
     Evaluates function FUN in a parallel cluster and collects results.

     This function handles arguments and options equivalently to
     'pararrayfun' and returnes equivalent output.  Differently, the
     first argument specifies server machines for parallel remote
     execution, see 'pconnect' for a description of the CONNECTIONS
     variable.  A further difference is that the option "ChunksPerProc"
     is ignored and instead the chunk size can be specified directly
     with an option "ChunkSize" (option "Vectorized" can be used
     together with option "ChunkSize" in function 'netarrayfun').

     The further details of operation are the same as for 'netcellfun',
     please see there.

     See also: netcellfun, pconnect, pserver, sclose, rfeval,
     install_vars.


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Evaluates function FUN in a parallel cluster and collects results.



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netcellfun


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 -- Function File: netcellfun (CONNECTIONS, FUN, ...)
     Evaluates function FUN in a parallel cluster and collects results.

     This function handles arguments and options equivalently to
     'parcellfun' and returnes equivalent output.  Differently, the
     first argument specifies server machines for parallel remote
     execution, see 'pconnect' for a description of the CONNECTIONS
     variable.  A further difference is that the option "ChunksPerProc"
     is ignored and instead the chunk size can be specified directly
     with an option "ChunkSize".

     This function can only be successfully called at the client machine
     of the parallel cluster.  CONNECTIONS can contain all connections
     of the network, a subset of them, or a single connection.  The
     local machine (client), if contained in CONNECTIONS, is ignored.
     However, one of the servers can run at the local machine under
     certain conditions (see 'pconnect') and will not be ignored in this
     case, so that the local machine can take part in parallel execution
     with 'netcellfun'.

     As a second level of parallelism, FUN is executed at each server
     machine (using 'parcellfun or pararrayfun') by default in as many
     local processes in parallel as the server has processor cores
     available.  The number of local parallel processes can be
     configured for each server with the "nlocaljobs" option (see
     'network_set'), a value of '0' means that the default value will be
     used, a value of '1' means that execution is not parallel within
     the server (but still parallel over the cluster).

     There are certain limitations on how FUN can be defined.  These are
     explained in the documentation of 'rfeval'.

     Cluster execution incurs a considerable overhead.  A speedup is
     likely if the computation time of FUN is long.  To speed up
     execution of a large set of arguments with short computation times
     of FUN, increase "ChunkSize", possibly use "Vectorize" (see
     'pararrayfun'), and possibly experiment with increasing
     "nlocaljobs" from the default.

     See also: netarrayfun, pconnect, pserver, sclose, rfeval,
     install_vars.


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Evaluates function FUN in a parallel cluster and collects results.



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parallel_doc


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 -- Function File: parallel_doc ()
 -- Function File: parallel_doc (KEYWORD)
     Show parallel package documentation.

     Runs the info viewer Octave is configured with on the documentation
     in info format of the installed parallel package.  Without
     argument, the top node of the documentation is displayed.  With an
     argument, the respective index entry is searched for and its node
     displayed.


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Show parallel package documentation.



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pararrayfun


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 -- Function File: [O1, O2, ...] = pararrayfun (NPROC, FUN, A1, A2, ...)
 -- Function File: pararrayfun (nproc, fun, ..., "UniformOutput", VAL)
 -- Function File: pararrayfun (nproc, fun, ..., "ErrorHandler",
          ERRFUNC)
     Evaluates a function for corresponding elements of an array.
     Argument and options handling is analogical to 'parcellfun', except
     that arguments are arrays rather than cells.  If cells occur as
     arguments, they are treated as arrays of singleton cells.  Arrayfun
     supports one extra option compared to parcellfun: "Vectorized".
     This option must be given together with "ChunksPerProc" and it
     indicates that FUN is able to operate on vectors rather than just
     scalars, and returns a vector.  The same must be true for ERRFUNC,
     if given.  In this case, the array is split into chunks which are
     then directly served to FUNC for evaluation, and the results are
     concatenated to output arrays.  If "CumFunc" is also specified (see
     'parcellfun'), FUN is expected to return the result of the same
     cumulative operation instead of vectors.

     See also: parcellfun, arrayfun.


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Evaluates a function for corresponding elements of an array.



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parcellfun


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 -- Function File: [O1, O2, ...] = parcellfun (NPROC, FUN, A1, A2, ...)
 -- Function File: parcellfun (nproc, fun, ..., "UniformOutput", VAL)
 -- Function File: parcellfun (nproc, fun, ..., "ErrorHandler", ERRFUNC)
 -- Function File: parcellfun (nproc, fun, ..., "VerboseLevel", VAL)
 -- Function File: parcellfun (nproc, fun, ..., "ChunksPerProc", VAL)
 -- Function File: parcellfun (nproc, fun, ..., "CumFunc", CUMFUNC)
     Evaluates a function for multiple argument sets using multiple
     processes.  NPROC should specify the number of processes.  A
     maximum recommended value is equal to number of CPUs on your
     machine or one less.  FUN is a function handle pointing to the
     requested evaluating function.  A1, A2 etc.  should be cell arrays
     of equal size.  O1, O2 etc.  will be set to corresponding output
     arguments.

     The UniformOutput and ErrorHandler options are supported with
     meaning identical to "cellfun".  A VerboseLevel option controlling
     the level output is supported.  A value of 0 is quiet, 1 is normal,
     and 2 or more enables debugging output.  The ChunksPerProc option
     control the number of chunks which contains elementary jobs.  This
     option particularly useful when time execution of function is
     small.  Setting this option to 100 is a good choice in most cases.

     Instead of returning a result for each argument, parcellfun returns
     only one cumulative result if "CumFunc" is non-empty.  CUMFUNC must
     be a function which performs an operation on two sets of outputs of
     FUN and returnes as many outputs as FUN.  If NOUT is the number of
     outputs of FUN, CUMFUNC gets a previous output set of FUN or of
     CUMFUNC as first NOUT arguments and the current output of FUN as
     last NOUT arguments.  The performed operation must be
     mathematically commutative and associative.  If the operation is
     e.g.  addition, the result will be the sum(s) of the outputs of FUN
     over all calls of FUN.  Since floating point addition and
     multiplication are only approximately associative, the cumulative
     result will not be exactly reproducible.

     Notice that jobs are served from a single first-come first-served
     queue, so the number of jobs executed by each process is generally
     unpredictable.  This means, for example, that when using this
     function to perform Monte-Carlo simulations one cannot expect
     results to be exactly reproducible.  The pseudo random number
     generators of each process are initialised with a unique state.
     This currently works only for new style generators.

     NOTE: this function is implemented using "fork" and a number of
     pipes for IPC. Suitable for systems with an efficient "fork"
     implementation (such as GNU/Linux), on other systems (Windows) it
     should be used with caution.  Also, if you use a multithreaded
     BLAS, it may be wise to turn off multi-threading when using this
     function.

     CAUTION: This function should be regarded as experimental.
     Although all subprocesses should be cleared in theory, there is
     always a danger of a subprocess hanging up, especially if unhandled
     errors occur.  Under GNU and compatible systems, the following
     shell command may be used to display orphaned Octave processes: ps
     -ppid 1 | grep octave


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Evaluates a function for multiple argument sets using multiple
processes.



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rfeval


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 -- Function File: rfeval (FUNC, ..., NOUT, ISOUT, CONNECTION)
     Evaluate a function at a remote machine.

     FUNC is evaluated with arguments '...' and number of output
     arguments set to NOUT at remote machine given by CONNECTION.  If
     ISOUT is not empty, it must be a logical array with NOUT elements,
     which are true for each of the NOUT output arguments which are
     requested from the function; the other output arguments will be
     marked as not requested with '~' at remote execution.

     This function can only be successfully called at the client
     machine.  See 'pconnect' for a description of the CONNECTION
     variable.  CONNECTION must contain one single connection.

     If an output argument is given to 'rfeval', the function waits for
     completion of the remote function call, retrieves the results and
     returns them.  They will be returned as one cell-array with an
     entry for each output argument.  If some output arguments are
     marked as not requested by setting some elements of ISOUT to false,
     the returned cell-array will only have entries for the requested
     output arguments.  For consistency, the returned cell-array can be
     empty.  To assign the output arguments to single variables, you can
     for example use: '[a, b, c] = returned_cell_array{:};'.

     If no output argument is given to 'rfeval', the function does not
     retrieve the results of the remote function call but returns
     immediately.  It is left to the user to retrieve the results with
     'precv'.  The results will be in the same format as if returned by
     'rfeval'.  Note that a cell-array, possibly empty, will always have
     to be retrieved, even if the remote function call should have been
     performed without output arguments.

     Parallel execution can be achieved by calling 'rfeval' several
     times with different specified server machines before starting to
     retrieve the results.

     The specified function handle can refer to a function present at
     the executing machine or be an anonymous function.  In the latter
     case, the function specification sent to the server includes the
     anonymous functions context (generation of the sent function
     specification is implemented in the Octave core).  Sending a handle
     to a subfunction, however, will currently not work.  Sending a
     handle to a private function will only work if its file path is the
     same at the server.  Sending an anonymous function using "varargin"
     in the argument list will currently not work.

     See also: pconnect, pserver, sclose, install_vars, netcellfun.


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Evaluate a function at a remote machine.



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scloseall


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 -- Function File: scloseall (CONNECTIONS)
     Deprecated function, calls 'sclose (connections)', which should be
     called directly.

     See also: sclose.


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Deprecated function, calls 'sclose (connections)', which should be
called direct



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server


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 This script is here for backwards compatibility and is deprecated. It
 just calls 'pserver', which should be called directly instead. See
 documentation of 'pserver'.



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 This script is here for backwards compatibility and is deprecated.
octave-parallel 3.1.1-3 / usr / share / octave / packages / parallel-3.1.1 / doc-cache
