.\" -*- nroff -*-
.\" Copyright (c) 2015 University of Houston. All rights reserved.
.\" Copyright (c) 2015 Mellanox Technologies, Inc.
.\" $COPYRIGHT$
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.TH "SHMEM\\_INIT" "3" "#OMPI_DATE#" "#PACKAGE_VERSION#" "#PACKAGE_NAME#"
.SH NAME
shmem_init, start_pes
\- Allocates a block of memory from the symmetric heap.
.SH SYNOPSIS
C or C++:
.Vb
void shmem_init(void);
void start_pes(int npes);
.Ve
Fortran:
.Vb
CALL SHMEM_INIT()
CALL START_PES(npes)
.Ve
.SH DESCRIPTION
The start_pes routine should be the first statement in a SHMEM parallel program.
.PP
The start_pes routine accepts the following argument:
.TP
npes
Unused. Should be set to 0.
.PP
This routine initializes the SHMEM API, therefore it must be called before calling any
other SHMEM routine.
This routine is responsible inter alia for setting up the symmetric heap on the calling PE, and
the creation of the virtual PE numbers. Upon successful return from this routine, the calling PE
will be able to communicate with and transfer data to other PEs.
.PP
Multiple calls to this function are not allowed.
.PP
For an overview of programming with SHMEM communication routines, example SHMEM
programs, and instructions for compiling SHMEM programs, see the \fIintro_shmem\fP(3)
man page.
.SH EXAMPLES
This is a simple program that calls \fIshmem_integer_put\fP(3):
.Vb
PROGRAM PUT
INCLUDE "mpp/shmem.fh"
INTEGER TARG, SRC, RECEIVER, BAR
COMMON /T/ TARG
PARAMETER (RECEIVER=1)
CALL SHMEM_INIT()
IF (MY_PE() .EQ. 0) THEN
SRC = 33
CALL SHMEM_INTEGER_PUT(TARG, SRC, 1, RECEIVER)
ENDIF
CALL SHMEM_BARRIER_ALL ! SYNCHRONIZES SENDER AND RECEIVER
IF (MY_PE() .EQ. RECEIVER) THEN
PRINT *,'PE ', MY_PE(),' TARG=',TARG,' (expect 33)'
ENDIF
END
.Ve
.SH NOTES
If the start_pes call is not the first statement in a program, unexpected results may occur on
some architectures.
.SH SEE ALSO
\fIintro_shmem\fP(3),
\fIshmem_barrier\fP(3),
\fIshmem_barrier_all\fP(3),
\fIshmem_put\fP(3),
\fImy_pe\fP(3I),
\fIshmem_n_pes\fP(3I)