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Diffstat (limited to 'release_docs/INSTALL_parallel')
-rw-r--r-- | release_docs/INSTALL_parallel | 220 |
1 files changed, 203 insertions, 17 deletions
diff --git a/release_docs/INSTALL_parallel b/release_docs/INSTALL_parallel index d6f1979..65014da 100644 --- a/release_docs/INSTALL_parallel +++ b/release_docs/INSTALL_parallel @@ -5,21 +5,21 @@ 1. Overview ----------- -This file contains instructions for the installation of parallel -HDF5. Platforms supported by this release are SGI Origin 2000, IBM SP2, -Intel TFLOPs, and Linux version 2.2 and greater. The steps are kind of -unnatural and will be more automized in the next release. If you have -difficulties installing the software in your system, please send mail to +This file contains instructions for the installation of parallel HDF5 (PHDF5). +PHDF5 requires an MPI compiler with MPI-IO support and a parallel file system. +If you don't know yet, you should first consult with your system support staff +of information how to compile an MPI program, how to run an MPI application, +and how to access the parallel file system. There are sample MPI-IO C and +Fortran programs in the section of "Sample programs". You can use them to +run simple tests of your MPI compilers and the parallel file system. - hdfparallel@ncsa.uiuc.edu +If you still have difficulties installing PHDF5 in your system, please +send mail to + hdfhelp@ncsa.uiuc.edu -In your mail, please include the output of "uname -a". Also attach the -content of "config.log" if you ran the "configure" command. - -First, you must obtain and unpack the HDF5 source as described in the -INSTALL file. You also need to obtain the information of the include and -library paths of MPI and MPIO software installed in your system since the -parallel HDF5 library uses them for parallel I/O access. +In your mail, please include the output of "uname -a". If you have run the +"configure" command, attach the output of the command and the content of +the file "config.log". 2. Quick Instruction for known systems @@ -34,7 +34,7 @@ to the next section for more detailed explanations. Know parallel compilers ------ -HDF5 knows serveral parallel compilers: mpicc, hcc, mpcc, mpcc_r. +HDF5 knows several parallel compilers: mpicc, hcc, mpcc, mpcc_r. To build parallel HDF5 with one of the above, just set CC as it and configure. The "--enable-parallel" is optional in this case. @@ -48,7 +48,7 @@ and configure. The "--enable-parallel" is optional in this case. TFLOPS ------ -Follow the instuctions in INSTALL_TFLOPS. +Follow the instructions in INSTALL_TFLOPS. ------- IBM SP @@ -76,6 +76,18 @@ Then do the following steps: $ make install +We also suggest that you add "-qxlf90=autodealloc" to FFLAGS when +building parallel with fortran enabled. This can be done by invoking: + + setenv FFLAGS -qxlf90=autodealloc # 32 bit build + +or + + setenv FFLAGS "-q64 -qxlf90=autodealloc" # 64 bit build + +prior to running configure. Recall that the "-q64" is necessary +for 64 bit builds. + --------------- SGI Origin 2000 Cray T3E @@ -213,9 +225,9 @@ Parallel HDF5. It usually exits with non-zero code if a required MPI-IO feature does not succeed as expected. One exception is the testing of accessing files larger than 2GB. If the underlaying filesystem or if the MPI-IO library fails to handle file sizes larger than 2GB, the test -will print informational essages stating the failure but will not exit +will print informational messages stating the failure but will not exit with non-zero code. Failure to support file size greater than 2GB is -not a fatal error for HDF5 becuase HDF5 can use other file-drivers such +not a fatal error for HDF5 because HDF5 can use other file-drivers such as families of files to by pass the file size limit. By default, the parallel tests use the current directory as the test directory. @@ -227,3 +239,177 @@ For example, if the tests should use directory /PFS/user/me, do (In some batch job system, you many need to hardset HDF5_PARAPREFIX in the shell initial files like .profile, .cshrc, etc.) + + +5. Sample programs +------------------ + +Here are sample MPI-IO C and Fortran programs. You may use them to run simple +tests of your MPI compilers and the parallel file system. The MPI commands +used here are mpicc, mpif90 and mpirun. Replace them with the commands of +your system. + +The programs assume they run in the parallel file system. Thus they create +the test data file in the current directory. If the parallel file system +is somewhere else, you need to run the sample programs there or edit the +programs to use a different file name. + +Example compiling and running: + +% mpicc Sample_mpio.c -o c.out +% mpirun -np 4 c.out + +% mpif90 Sample_mpio.f90 -o f.out +% mpirun -np 4 f.out + + +==> Sample_mpio.c <== +/* Simple MPI-IO program testing if a parallel file can be created. + * Default filename can be specified via first program argument. + * Each process writes something, then reads all data back. + */ + +#include <mpi.h> +#ifndef MPI_FILE_NULL /*MPIO may be defined in mpi.h already */ +# include <mpio.h> +#endif + +#define DIMSIZE 10 /* dimension size, avoid powers of 2. */ +#define PRINTID printf("Proc %d: ", mpi_rank) + +main(int ac, char **av) +{ + char hostname[128]; + int mpi_size, mpi_rank; + MPI_File fh; + char *filename = "./mpitest.data"; + char mpi_err_str[MPI_MAX_ERROR_STRING]; + int mpi_err_strlen; + int mpi_err; + char writedata[DIMSIZE], readdata[DIMSIZE]; + char expect_val; + int i, irank; + int nerrors = 0; /* number of errors */ + MPI_Offset mpi_off; + MPI_Status mpi_stat; + + MPI_Init(&ac, &av); + MPI_Comm_size(MPI_COMM_WORLD, &mpi_size); + MPI_Comm_rank(MPI_COMM_WORLD, &mpi_rank); + + /* get file name if provided */ + if (ac > 1){ + filename = *++av; + } + if (mpi_rank==0){ + printf("Testing simple MPIO program with %d processes accessing file %s\n", + mpi_size, filename); + printf(" (Filename can be specified via program argument)\n"); + } + + /* show the hostname so that we can tell where the processes are running */ + if (gethostname(hostname, 128) < 0){ + PRINTID; + printf("gethostname failed\n"); + return 1; + } + PRINTID; + printf("hostname=%s\n", hostname); + + if ((mpi_err = MPI_File_open(MPI_COMM_WORLD, filename, + MPI_MODE_RDWR | MPI_MODE_CREATE | MPI_MODE_DELETE_ON_CLOSE, + MPI_INFO_NULL, &fh)) + != MPI_SUCCESS){ + MPI_Error_string(mpi_err, mpi_err_str, &mpi_err_strlen); + PRINTID; + printf("MPI_File_open failed (%s)\n", mpi_err_str); + return 1; + } + + /* each process writes some data */ + for (i=0; i < DIMSIZE; i++) + writedata[i] = mpi_rank*DIMSIZE + i; + mpi_off = mpi_rank*DIMSIZE; + if ((mpi_err = MPI_File_write_at(fh, mpi_off, writedata, DIMSIZE, MPI_BYTE, + &mpi_stat)) + != MPI_SUCCESS){ + MPI_Error_string(mpi_err, mpi_err_str, &mpi_err_strlen); + PRINTID; + printf("MPI_File_write_at offset(%ld), bytes (%d), failed (%s)\n", + (long) mpi_off, (int) DIMSIZE, mpi_err_str); + return 1; + }; + + /* make sure all processes has done writing. */ + MPI_Barrier(MPI_COMM_WORLD); + + /* each process reads all data and verify. */ + for (irank=0; irank < mpi_size; irank++){ + mpi_off = irank*DIMSIZE; + if ((mpi_err = MPI_File_read_at(fh, mpi_off, readdata, DIMSIZE, MPI_BYTE, + &mpi_stat)) + != MPI_SUCCESS){ + MPI_Error_string(mpi_err, mpi_err_str, &mpi_err_strlen); + PRINTID; + printf("MPI_File_read_at offset(%ld), bytes (%d), failed (%s)\n", + (long) mpi_off, (int) DIMSIZE, mpi_err_str); + return 1; + }; + for (i=0; i < DIMSIZE; i++){ + expect_val = irank*DIMSIZE + i; + if (readdata[i] != expect_val){ + PRINTID; + printf("read data[%d:%d] got %d, expect %d\n", irank, i, + readdata[i], expect_val); + nerrors++; + } + } + } + if (nerrors) + return 1; + + MPI_File_close(&fh); + + PRINTID; + printf("all tests passed\n"); + + MPI_Finalize(); + return 0; +} + +==> Sample_mpio.f90 <== +! +! The following example demonstrates how to create and close a parallel +! file using MPI-IO calls. +! +! USE MPI is the proper way to bring in MPI definitions but many +! MPI Fortran compiler supports the pseudo standard of INCLUDE. +! So, HDF5 uses the INCLUDE statement instead. +! + + PROGRAM MPIOEXAMPLE + + ! USE MPI + + IMPLICIT NONE + + INCLUDE 'mpif.h' + + CHARACTER(LEN=80), PARAMETER :: filename = "filef.h5" ! File name + INTEGER :: ierror ! Error flag + INTEGER :: fh ! File handle + INTEGER :: amode ! File access mode + + call MPI_INIT(ierror) + amode = MPI_MODE_RDWR + MPI_MODE_CREATE + MPI_MODE_DELETE_ON_CLOSE + call MPI_FILE_OPEN(MPI_COMM_WORLD, filename, amode, MPI_INFO_NULL, fh, ierror) + print *, "Trying to create ", filename + if ( ierror .eq. MPI_SUCCESS ) then + print *, "MPI_FILE_OPEN succeeded" + call MPI_FILE_CLOSE(fh, ierror) + else + print *, "MPI_FILE_OPEN failed" + endif + + call MPI_FINALIZE(ierror); + END PROGRAM |