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tst_parallel2.c
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tst_parallel2.c
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/* This is a benchmarking program for netCDF-4 parallel I/O. */
/* Defining USE_MPE causes the MPE trace library to be used (and you
* must also relink with -llmpe -lmpe). This causes clog2 output to be
* written, which can be converted to slog2 (by the program
* clog2TOslog2) and then used in the analysis program jumpshot. */
/*#define USE_MPE 1*/
#include <nc_tests.h>
#include <mpi.h>
#include <pnetcdf.h>
#ifdef USE_MPE
#include <mpe.h>
#endif /* USE_MPE */
#define FILE_NAME "tst_parallel2.nc"
#define NDIMS 3
#define DIMSIZE 8
#define NUM_SLABS 8
#define DIM1_NAME "slab"
#define DIM2_NAME "x"
#define DIM3_NAME "y"
#define VAR_NAME "Bond_James_Bond"
int
main(int argc, char **argv)
{
/* MPI stuff. */
int mpi_namelen;
char mpi_name[MPI_MAX_PROCESSOR_NAME];
int mpi_size, mpi_rank;
MPI_Comm comm = MPI_COMM_WORLD;
MPI_Info info = MPI_INFO_NULL;
double start_time = 0, total_time;
/* Netcdf-4 stuff. */
int ncid, varid, dimids[NDIMS];
size_t start[NDIMS] = {0, 0, 0};
size_t count[NDIMS] = {1, DIMSIZE, DIMSIZE};
int data[DIMSIZE * DIMSIZE], data_in[DIMSIZE * DIMSIZE];
int j, i;
char file_name[NC_MAX_NAME + 1];
int ndims_in, nvars_in, natts_in, unlimdimid_in;
#ifdef USE_MPE
int s_init, e_init, s_define, e_define, s_write, e_write, s_close, e_close;
#endif /* USE_MPE */
/* Initialize MPI. */
MPI_Init(&argc,&argv);
MPI_Comm_size(MPI_COMM_WORLD, &mpi_size);
MPI_Comm_rank(MPI_COMM_WORLD, &mpi_rank);
MPI_Get_processor_name(mpi_name, &mpi_namelen);
/*printf("mpi_name: %s size: %d rank: %d\n", mpi_name, mpi_size, mpi_rank);*/
/* Must be able to evenly divide my slabs between processors. */
if (NUM_SLABS % mpi_size != 0)
{
if (!mpi_rank) printf("NUM_SLABS (%d) is not evenly divisible by mpi_size(%d)\n",
NUM_SLABS, mpi_size);
ERR;
}
#ifdef USE_MPE
MPE_Init_log();
s_init = MPE_Log_get_event_number();
e_init = MPE_Log_get_event_number();
s_define = MPE_Log_get_event_number();
e_define = MPE_Log_get_event_number();
s_write = MPE_Log_get_event_number();
e_write = MPE_Log_get_event_number();
s_close = MPE_Log_get_event_number();
e_close = MPE_Log_get_event_number();
s_open = MPE_Log_get_event_number();
e_open = MPE_Log_get_event_number();
MPE_Describe_state(s_init, e_init, "Init", "red");
MPE_Describe_state(s_define, e_define, "Define", "yellow");
MPE_Describe_state(s_write, e_write, "Write", "green");
MPE_Describe_state(s_close, e_close, "Close", "purple");
MPE_Describe_state(s_open, e_open, "Open", "blue");
MPE_Start_log();
MPE_Log_event(s_init, 0, "start init");
#endif /* USE_MPE */
/* if (!mpi_rank) */
/* { */
/* printf("\n*** Testing parallel I/O some more.\n"); */
/* printf("*** writing a %d x %d x %d file from %d processors...\n", */
/* NUM_SLABS, DIMSIZE, DIMSIZE, mpi_size); */
/* } */
/* We will write the same slab over and over. */
for (i = 0; i < DIMSIZE * DIMSIZE; i++)
data[i] = mpi_rank;
#ifdef USE_MPE
MPE_Log_event(e_init, 0, "end init");
MPE_Log_event(s_define, 0, "start define file");
#endif /* USE_MPE */
/* Create a parallel netcdf-4 file. */
sprintf(file_name, "%s/%s", TEMP_LARGE, FILE_NAME);
if (nc_create_par(file_name, NC_PNETCDF, comm, info, &ncid)) ERR;
/* A global attribute holds the number of processors that created
* the file. */
if (nc_put_att_int(ncid, NC_GLOBAL, "num_processors", NC_INT, 1, &mpi_size)) ERR;
/* Create three dimensions. */
if (nc_def_dim(ncid, DIM1_NAME, NUM_SLABS, dimids)) ERR;
if (nc_def_dim(ncid, DIM2_NAME, DIMSIZE, &dimids[1])) ERR;
if (nc_def_dim(ncid, DIM3_NAME, DIMSIZE, &dimids[2])) ERR;
/* Create one var. */
if (nc_def_var(ncid, VAR_NAME, NC_INT, NDIMS, dimids, &varid)) ERR;
/* Write metadata to file. */
if (nc_enddef(ncid)) ERR;
#ifdef USE_MPE
MPE_Log_event(e_define, 0, "end define file");
if (mpi_rank)
sleep(mpi_rank);
#endif /* USE_MPE */
/* if (nc_var_par_access(ncid, varid, NC_COLLECTIVE)) ERR;*/
if (nc_var_par_access(ncid, varid, NC_INDEPENDENT)) ERR;
if (!mpi_rank)
start_time = MPI_Wtime();
/* Write all the slabs this process is responsible for. */
for (i = 0; i < NUM_SLABS / mpi_size; i++)
{
start[0] = NUM_SLABS / mpi_size * mpi_rank + i;
#ifdef USE_MPE
MPE_Log_event(s_write, 0, "start write slab");
#endif /* USE_MPE */
/* Write one slab of data. */
if (nc_put_vara_int(ncid, varid, start, count, data)) ERR;
#ifdef USE_MPE
MPE_Log_event(e_write, 0, "end write file");
#endif /* USE_MPE */
}
if (!mpi_rank)
{
total_time = MPI_Wtime() - start_time;
/* printf("num_proc\ttime(s)\n");*/
printf("%d\t%g\t%g\n", mpi_size, total_time, DIMSIZE * DIMSIZE * NUM_SLABS * sizeof(int) / total_time);
}
#ifdef USE_MPE
MPE_Log_event(s_close, 0, "start close file");
#endif /* USE_MPE */
/* Close the netcdf file. */
if (nc_close(ncid)) ERR;
#ifdef USE_MPE
MPE_Log_event(e_close, 0, "end close file");
#endif /* USE_MPE */
/* Reopen the file and check it. */
if (nc_open_par(file_name, NC_NOWRITE|NC_PNETCDF, comm, info, &ncid)) ERR;
if (nc_inq(ncid, &ndims_in, &nvars_in, &natts_in, &unlimdimid_in)) ERR;
if (ndims_in != NDIMS || nvars_in != 1 || natts_in != 1 ||
unlimdimid_in != -1) ERR;
/* Read all the slabs this process is responsible for. */
for (i = 0; i < NUM_SLABS / mpi_size; i++)
{
start[0] = NUM_SLABS / mpi_size * mpi_rank + i;
#ifdef USE_MPE
MPE_Log_event(s_read, 0, "start read slab");
#endif /* USE_MPE */
/* Read one slab of data. */
if (nc_get_vara_int(ncid, varid, start, count, data_in)) ERR;
/* Check data. */
for (j = 0; j < DIMSIZE * DIMSIZE; j++)
if (data_in[j] != mpi_rank)
{
ERR;
break;
}
#ifdef USE_MPE
MPE_Log_event(e_read, 0, "end read file");
#endif /* USE_MPE */
}
#ifdef USE_MPE
MPE_Log_event(s_close, 0, "start close file");
#endif /* USE_MPE */
/* Close the netcdf file. */
if (nc_close(ncid)) ERR;
#ifdef USE_MPE
MPE_Log_event(e_close, 0, "end close file");
#endif /* USE_MPE */
/* Delete this large file. */
remove(file_name);
/* Shut down MPI. */
MPI_Finalize();
/* if (!mpi_rank) */
/* { */
/* SUMMARIZE_ERR; */
/* FINAL_RESULTS; */
/* } */
return total_err;
}