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| author | Bill Wendling <wendling@ncsa.uiuc.edu> | 2002-07-01 15:49:07 (GMT) |
|---|---|---|
| committer | Bill Wendling <wendling@ncsa.uiuc.edu> | 2002-07-01 15:49:07 (GMT) |
| commit | c9dc5daddcb6bb665bf123d001ecb1aa2858c0d9 (patch) | |
| tree | 57d78d67455e5efb467eb8f574335d0f59f696ad | |
| parent | 82ea7e40d5b1d275530764ac50b092b8a44c4d23 (diff) | |
| download | hdf5-c9dc5daddcb6bb665bf123d001ecb1aa2858c0d9.zip hdf5-c9dc5daddcb6bb665bf123d001ecb1aa2858c0d9.tar.gz hdf5-c9dc5daddcb6bb665bf123d001ecb1aa2858c0d9.tar.bz2 | |
[svn-r5732] Purpose:
Feature Revision
Description:
We're now forgetting the file size and concentrating on how many
elements per process per dataset we want to write.
The user specifies how many datasets, how many processes to run, and
how many elements each process is going to write per dataset. We can
calculate the size of the file from that information.
Platforms tested:
Linux (pp)
| -rw-r--r-- | perform/pio_engine.c | 7 | ||||
| -rw-r--r-- | perform/pio_perf.c | 137 |
2 files changed, 70 insertions, 74 deletions
diff --git a/perform/pio_engine.c b/perform/pio_engine.c index efb0809..14191a4 100644 --- a/perform/pio_engine.c +++ b/perform/pio_engine.c @@ -244,11 +244,12 @@ do_pio(parameters param) (long_long)buf_size, (long_long)blk_size); GOTOERROR(FAIL); } - if ((nelmts % (buf_size/ELMT_SIZE)) != 0){ + + if ((nelmts % (buf_size / ELMT_SIZE)) != 0){ HDfprintf(stderr, "Dataset size (%Hd) must be a multiple of the " - "trasfer buffer size (%Hd)\n", - (long_long)nelmts, (long_long)buf_size); + "transfer buffer size (%Hd)\n", + (long_long)nelmts, (long_long)(buf_size / ELMT_SIZE)); GOTOERROR(FAIL); } } diff --git a/perform/pio_perf.c b/perform/pio_perf.c index 3214d32..4b23e18 100644 --- a/perform/pio_perf.c +++ b/perform/pio_perf.c @@ -117,9 +117,9 @@ static const char *progname = "h5perf"; * adding more, make sure that they don't clash with each other. */ #if 1 -static const char *s_opts = "ha:A:B:cCD:f:P:p:X:x:nd:F:i:Io:stT:w"; +static const char *s_opts = "ha:A:cCD:e:P:p:X:x:nd:F:i:Io:stT:w"; #else -static const char *s_opts = "ha:A:bBAPIs :cCD:f:P:p:X:x:nd:F:i:Io:stT:w"; +static const char *s_opts = "ha:A:bcCD:e:P:p:X:x:nd:F:i:Io:stT:w"; #endif /* 1 */ static struct long_options l_opts[] = { { "help", no_arg, 'h' }, @@ -139,15 +139,6 @@ static struct long_options l_opts[] = { { "bin", no_arg, 'b' }, { "bi", no_arg, 'b' }, #endif /* 0 */ - { "block-size", require_arg, 'B' }, - { "block-siz", require_arg, 'B' }, - { "block-si", require_arg, 'B' }, - { "block-s", require_arg, 'B' }, - { "block-", require_arg, 'B' }, - { "block", require_arg, 'B' }, - { "bloc", require_arg, 'B' }, - { "blo", require_arg, 'B' }, - { "bl", require_arg, 'B' }, { "chunk", no_arg, 'c' }, { "chun", no_arg, 'c' }, { "chu", no_arg, 'c' }, @@ -165,13 +156,14 @@ static struct long_options l_opts[] = { { "debu", require_arg, 'D' }, { "deb", require_arg, 'D' }, { "de", require_arg, 'D' }, - { "file-size", require_arg, 'f' }, - { "file-siz", require_arg, 'f' }, - { "file-si", require_arg, 'f' }, - { "file-s", require_arg, 'f' }, - { "file", require_arg, 'f' }, - { "fil", require_arg, 'f' }, - { "fi", require_arg, 'f' }, + { "num-elements", require_arg, 'e' }, + { "num-element", require_arg, 'e' }, + { "num-elemen", require_arg, 'e' }, + { "num-eleme", require_arg, 'e' }, + { "num-elem", require_arg, 'e' }, + { "num-ele", require_arg, 'e' }, + { "num-el", require_arg, 'e' }, + { "num-e", require_arg, 'e' }, { "interleaved", require_arg, 'I' }, { "interleave", require_arg, 'I' }, { "interleav", require_arg, 'I' }, @@ -269,7 +261,7 @@ static struct long_options l_opts[] = { struct options { long io_types; /* bitmask of which I/O types to test */ const char *output_file; /* file to print report to */ - off_t file_size; /* size of file */ + off_t num_elmts; /* number of elements per proc per dset */ long num_dsets; /* number of datasets */ long num_files; /* number of files */ int num_iters; /* number of iterations */ @@ -277,7 +269,6 @@ struct options { int min_num_procs; /* minimum number of processes to use */ size_t max_xfer_size; /* maximum transfer buffer size */ size_t min_xfer_size; /* minimum transfer buffer size */ - size_t block_size; /* interleaved block size */ unsigned interleaved; /* Interleaved vs. contiguous blocks */ unsigned collective; /* Collective vs. independent I/O */ int print_times; /* print times as well as throughputs */ @@ -417,10 +408,10 @@ run_test_loop(struct options *opts) int num_procs; int doing_pio; /* if this process is doing PIO */ + parms.num_elmts = opts->num_elmts; parms.num_files = opts->num_files; parms.num_dsets = opts->num_dsets; parms.num_iters = opts->num_iters; - parms.block_size = opts->block_size; parms.interleaved = opts->interleaved; parms.collective = opts->collective; parms.h5_align = opts->h5_alignment; @@ -450,14 +441,12 @@ run_test_loop(struct options *opts) for (buf_size = opts->min_xfer_size; buf_size <= opts->max_xfer_size; buf_size <<= 1) { parms.buf_size = buf_size; - parms.num_elmts = opts->file_size / - (off_t)(parms.num_dsets * sizeof(int)); print_indent(1); output_report("Transfer Buffer Size: %ld bytes, File size: %.2f MBs\n", buf_size, ((double)parms.num_dsets * (double)parms.num_elmts * - (double)sizeof(int)) / ONE_MB); + (double)parms.num_procs * (double)sizeof(int)) / ONE_MB); print_indent(1); output_report(" # of files: %ld, # of dsets: %ld, # of elmts per dset: %ld\n", parms.num_files, parms.num_dsets, parms.num_elmts); @@ -472,7 +461,7 @@ run_test_loop(struct options *opts) run_test(PHDF5, parms, opts); /* Run the tests once if buf_size==0, but then break out */ - if(buf_size==0) + if (buf_size == 0) break; } @@ -514,7 +503,8 @@ run_test(iotype iot, parameters parms, struct options *opts) minmax read_gross_mm = {0.0, 0.0, 0.0, 0}; minmax read_raw_mm = {0.0, 0.0, 0.0, 0}; - raw_size = (off_t)parms.num_dsets * (off_t)parms.num_elmts * (off_t)sizeof(int); + raw_size = (off_t)parms.num_procs * (off_t)parms.num_dsets * + (off_t)parms.num_elmts * (off_t)sizeof(int); parms.io_type = iot; print_indent(2); output_report("IO API = "); @@ -535,16 +525,16 @@ run_test(iotype iot, parameters parms, struct options *opts) /* allocate space for tables minmax and that it is sufficient */ /* to initialize all elements to zeros by calloc. */ - write_mpi_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); - write_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); - write_gross_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); - write_raw_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); + write_mpi_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); + write_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); + write_gross_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); + write_raw_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); if (!parms.h5_write_only) { - read_mpi_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); - read_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); - read_gross_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); - read_raw_mm_table = calloc((size_t)parms.num_iters , sizeof(minmax)); + read_mpi_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); + read_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); + read_gross_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); + read_raw_mm_table = calloc((size_t)parms.num_iters, sizeof(minmax)); } /* Do IO iteration times, collecting statistics each time */ @@ -621,7 +611,7 @@ run_test(iotype iot, parameters parms, struct options *opts) output_all_info(write_raw_mm_table, parms.num_iters, 4); } - output_results(opts,"Raw Data Write",write_raw_mm_table,parms.num_iters,raw_size); + output_results(opts, "Raw Data Write", write_raw_mm_table, parms.num_iters, raw_size); } /* end if */ /* show mpi write statics */ @@ -642,7 +632,7 @@ run_test(iotype iot, parameters parms, struct options *opts) output_all_info(write_mm_table, parms.num_iters, 4); } - output_results(opts,"Write",write_mm_table,parms.num_iters,raw_size); + output_results(opts, "Write", write_mm_table, parms.num_iters, raw_size); /* accumulate and output the max, min, and average "gross write" times */ if (pio_debug_level >= 3) { @@ -652,7 +642,7 @@ run_test(iotype iot, parameters parms, struct options *opts) output_all_info(write_gross_mm_table, parms.num_iters, 4); } - output_results(opts,"Write Open-Close",write_gross_mm_table,parms.num_iters,raw_size); + output_results(opts, "Write Open-Close", write_gross_mm_table, parms.num_iters, raw_size); if (!parms.h5_write_only) { /* Read statistics */ @@ -887,7 +877,7 @@ destroy_comm_world(void) */ static void output_results(const struct options *opts, const char *name, minmax *table, - int table_size,off_t data_size) + int table_size, off_t data_size) { minmax total_mm; @@ -907,7 +897,7 @@ output_results(const struct options *opts, const char *name, minmax *table, print_indent(4); output_report("Average Throughput: %6.2f MB/s", - MB_PER_SEC(data_size,total_mm.sum / total_mm.num)); + MB_PER_SEC(data_size, total_mm.sum / total_mm.num)); if(opts->print_times) output_report(" (%7.3f s)\n", (total_mm.sum / total_mm.num)); else @@ -1007,9 +997,8 @@ report_parameters(struct options *opts) HDfprintf(output, "rank %d: IO API=", rank); print_io_api(opts->io_types); - HDfprintf(output, "rank %d: File size=", rank); - recover_size_and_print((long_long)opts->file_size, "\n"); - + HDfprintf(output, "rank %d: Number of elements per process per dataset=%Hd", + rank, (long_long)opts->num_elmts); HDfprintf(output, "rank %d: Number of files=%Hd\n", rank, (long_long)opts->num_files); HDfprintf(output, "rank %d: Number of datasets=%Hd\n", rank, @@ -1019,13 +1008,25 @@ report_parameters(struct options *opts) HDfprintf(output, "rank %d: Number of processes=%d:%d\n", rank, opts->min_num_procs, opts->max_num_procs); + HDfprintf(output, "rank %d: Size of dataset(s)=", rank); + recover_size_and_print((long_long)(opts->num_elmts * opts->min_num_procs), ":"); + recover_size_and_print((long_long)(opts->num_elmts * opts->max_num_procs), "\n"); + + HDfprintf(output, "rank %d: File size=", rank); + recover_size_and_print((long_long)(opts->num_elmts * opts->min_num_procs + * opts->num_dsets * sizeof(int)), ":"); + recover_size_and_print((long_long)(opts->num_elmts * opts->max_num_procs + * opts->num_dsets * sizeof(int)), "\n"); + + /* + * dset size = elements per process * nprocs + * fsize = dsetsize * sizeof(int) * ndsets + */ + HDfprintf(output, "rank %d: Transfer buffer size=", rank); recover_size_and_print((long_long)opts->min_xfer_size, ":"); recover_size_and_print((long_long)opts->max_xfer_size, "\n"); - HDfprintf(output, "rank %d: Interleaved block size=", rank); - recover_size_and_print((long_long)opts->block_size, "\n"); - HDfprintf(output, "rank %d: Block Pattern in Dataset=", rank); if(opts->interleaved) HDfprintf(output, "Interleaved\n"); @@ -1069,8 +1070,8 @@ parse_command_line(int argc, char *argv[]) cl_opts = (struct options *)malloc(sizeof(struct options)); cl_opts->output_file = NULL; - cl_opts->file_size = 64 * ONE_MB; cl_opts->io_types = 0; /* will set default after parsing options */ + cl_opts->num_elmts = 256 * ONE_KB; cl_opts->num_dsets = 1; cl_opts->num_files = 1; cl_opts->num_iters = 1; @@ -1078,7 +1079,6 @@ parse_command_line(int argc, char *argv[]) cl_opts->min_num_procs = 1; cl_opts->max_xfer_size = 1 * ONE_MB; cl_opts->min_xfer_size = 128 * ONE_KB; - cl_opts->block_size = 0; /* no interleaved I/O */ cl_opts->interleaved = 0; /* Default to contiguous blocks in dataset */ cl_opts->collective = 0; /* Default to independent I/O access */ cl_opts->print_times = FALSE; /* Printing times is off by default */ @@ -1116,7 +1116,7 @@ parse_command_line(int argc, char *argv[]) } else if (!strcasecmp(buf, "posix")) { cl_opts->io_types |= PIO_POSIX; } else { - fprintf(stderr, "h5perf: invalid --api option %s\n", + fprintf(stderr, "pio_perf: invalid --api option %s\n", buf); exit(EXIT_FAILURE); } @@ -1134,9 +1134,6 @@ parse_command_line(int argc, char *argv[]) /* the future "binary" option */ break; #endif /* 0 */ - case 'B': - cl_opts->block_size = parse_size_directive(opt_arg); - break; case 'c': /* Turn on chunked HDF5 dataset creation */ cl_opts->h5_use_chunks = TRUE; @@ -1166,7 +1163,7 @@ parse_command_line(int argc, char *argv[]) for (j = 0; j < 10 && buf[j] != '\0'; ++j) if (!isdigit(buf[j])) { - fprintf(stderr, "h5perf: invalid --debug option %s\n", + fprintf(stderr, "pio_perf: invalid --debug option %s\n", buf); exit(EXIT_FAILURE); } @@ -1192,7 +1189,7 @@ parse_command_line(int argc, char *argv[]) cl_opts->verify = TRUE; break; default: - fprintf(stderr, "h5perf: invalid --debug option %s\n", buf); + fprintf(stderr, "pio_perf: invalid --debug option %s\n", buf); exit(EXIT_FAILURE); } } @@ -1205,8 +1202,8 @@ parse_command_line(int argc, char *argv[]) } break; - case 'f': - cl_opts->file_size = parse_size_directive(opt_arg); + case 'e': + cl_opts->num_elmts = parse_size_directive(opt_arg); break; case 'F': cl_opts->num_files = atoi(opt_arg); @@ -1221,7 +1218,7 @@ parse_command_line(int argc, char *argv[]) #ifdef H5_HAVE_NOFILL cl_opts->h5_no_fill = TRUE; #else - fprintf(stderr, "h5perf: --no-fill not supported\n"); + fprintf(stderr, "pio_perf: --no-fill not supported\n"); usage(progname); exit(EXIT_FAILURE); #endif @@ -1336,29 +1333,27 @@ usage(const char *prog) #if 0 printf(" -b, --binary The elusive binary option\n"); #endif /* 0 */ - printf(" -B S, --block-size=S Interleaved block size\n"); - printf(" [MPIO API not implemented yet]\n"); - printf(" [default: 0 no interleaved IO]\n"); printf(" -c, --chunk Create HDF5 datasets chunked [default: off]\n"); - printf(" -C, --collective Use collective I/O\n"); + printf(" -C, --collective Use collective I/O for MPI and HDF5 APIs\n"); printf(" [default: off (i.e. independent I/O)]\n"); printf(" -d N, --num-dsets=N Number of datasets per file [default:1]\n"); printf(" -D DL, --debug=DL Indicate the debugging level\n"); printf(" [default: no debugging]\n"); - printf(" -f S, --file-size=S Size of a single file [default: 64M]\n"); + printf(" -e S, --num-elements=S Number of elements per process per dataset\n"); + printf(" [default: 256K]\n"); printf(" -F N, --num-files=N Number of files [default: 1]\n"); printf(" -i, --num-iterations Number of iterations to perform [default: 1]\n"); - printf(" -I --interleaved Interleaved block I/O (see below for example)\n"); + printf(" -I, --interleaved Interleaved block I/O (see below for example)\n"); printf(" [default: Contiguous block I/O]\n"); -#ifdef H5_HAVE_NOFILL +#ifdef NOT_SUPPORTED_IN_V1_4 printf(" -n, --no-fill Don't write fill values to HDF5 dataset\n"); printf(" (Supported in HDF5 library v1.5 only)\n"); printf(" [default: off (i.e. write fill values)]\n"); -#endif +#endif /* NOT_SUPPORTED_IN_V1_4 */ printf(" -o F, --output=F Output raw data into file F [default: none]\n"); printf(" -p N, --min-num-processes=N Minimum number of processes to use [default: 1]\n"); printf(" -P N, --max-num-processes=N Maximum number of processes to use\n"); - printf(" [default: all MPI_COMM_WORLD processes ]\n"); + printf(" [default: all MPI_COMM_WORLD processes]\n"); printf(" -T S, --threshold=S Threshold for alignment of objects in HDF5 file\n"); printf(" [default: 1]\n"); printf(" -w, --write-only Perform write tests not the read tests\n"); @@ -1366,13 +1361,13 @@ usage(const char *prog) printf(" -X S, --max-xfer-size=S Maximum transfer buffer size [default: 1M]\n"); printf("\n"); printf(" F - is a filename.\n"); - printf(" N - is an integer >=0.\n"); - printf(" S - is a size specifier, an integer >=0 followed by a size indicator:\n"); + printf(" N - is an integer >= 0.\n"); + printf(" S - is a size specifier, an integer >= 0 followed by a size indicator:\n"); printf(" K - Kilobyte (%d)\n", ONE_KB); printf(" M - Megabyte (%d)\n", ONE_MB); printf(" G - Gigabyte (%d)\n", ONE_GB); printf("\n"); - printf(" Example: 37M = 37 Megabytes = %d bytes\n", 37*ONE_MB); + printf(" Example: 37M = 37 Megabytes = %d bytes\n", 37 * ONE_MB); printf("\n"); printf(" AL - is an API list. Valid values are:\n"); printf(" phdf5 - Parallel HDF5\n"); @@ -1384,15 +1379,15 @@ usage(const char *prog) printf(" Interleaved vs. Contiguous blocks:\n"); printf(" For example, with a 4 process run,\n"); printf(" Contiguous blocks are written to the file like so:\n"); - printf(" 111...222...333...444...\n"); + printf(" 1111222233334444\n"); printf(" Interleaved blocks are written to the file like so:\n"); - printf(" 123412341234............\n"); + printf(" 1234123412341234\n"); printf("\n"); printf(" DL - is a list of debugging flags. Valid values are:\n"); printf(" 1 - Minimal\n"); printf(" 2 - Not quite everything\n"); printf(" 3 - Everything\n"); - printf(" 4 - Everything and the kitchen sink\n"); + printf(" 4 - The kitchen sink\n"); printf(" r - Raw data I/O throughput information\n"); printf(" t - Times as well as throughputs\n"); printf(" v - Verify data correctness\n"); |