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@ -5,13 +5,15 @@
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#include <unistd.h>
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#include <time.h>
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#include <math.h>
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#include <omp.h>
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#include <argp.h>
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const char *argp_program_version =
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"benchmark 0.1";
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/* Program documentation. */
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static char doc[] =
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"I wonder for what this is";
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"Do some benchmark with openMP";
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static struct argp_option options[] = {
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{"verbose", 'v', 0, 0, "Produce verbose output" },
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@ -104,7 +106,7 @@ int main(int argc, char **argv) {
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arguments.iterations = 100;
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arguments.output_file = "-";
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arguments.operation = "mul";
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arguments.numThreads = 1;
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arguments.numThreads = 0;
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argp_parse (&argp, argc, argv, 0, 0, &arguments);
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//parsing args end---------------------------------------------------------------
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@ -114,16 +116,31 @@ int main(int argc, char **argv) {
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uint64_t * nanos = malloc(arguments.iterations * sizeof(uint64_t));
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double * cpu_clocks = malloc(arguments.iterations * sizeof(double));
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float f2 = (float) arguments.iterations + 1.1; //avoid compiler optimization, because iterations is unknown for compiler
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float f2 = (float) arguments.iterations + 1.1f; //avoid compiler optimization, because iterations is unknown for compiler
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float f1 = 1.1f;
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//manage threads
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printf("threads: %d\n", omp_get_max_threads());
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if(arguments.numThreads == 0 ){
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//setting thread number automatic
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}
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else{
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omp_set_num_threads(arguments.numThreads);
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}
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printf("threads: %d\n", omp_get_max_threads());
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if(arguments.verbose && !arguments.silent){
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//printf("using %d threads\n", OMP_NUM_THREADS);
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}
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//iterate
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for (size_t j = 0; j < arguments.iterations ; j++){
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f2 = (float) arguments.iterations + 0.1 + j;
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clock_gettime(CLOCK_MONOTONIC, &t1);
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ticks = clock();
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//printf("time: %i\t", t1.tv_nsec);
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#pragma omp parallel for private(f1,f2)
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for (size_t i = 0 ; i < arguments.reps_per_iteration; i++){
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f1 = f2 * 1.1f;
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//printf("thread: %i of %i\n", omp_get_thread_num() ,omp_get_num_threads()); for debugging
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}
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clock_gettime(CLOCK_MONOTONIC, &t2);
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new_ticks = clock();
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@ -172,7 +189,7 @@ int main(int argc, char **argv) {
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double cpu_time_deviation = sqrt(cpu_time_variance);
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double cpu_time_rel_deviation = cpu_time_deviation / cpu_time_mean;
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//gflops
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double cpu_ticks_gflop =( double ) arguments.reps_per_iteration / (double) mean ; // flops per nanosecond = Gflops
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double cpu_ticks_gflop =( double ) arguments.reps_per_iteration / (double) cpu_time_mean ; // flops per nanosecond = Gflops
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double cpu_ticks_gflop_deviation = cpu_time_rel_deviation * cpu_ticks_gflop;
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double cpu_ticks_vgfkop = cpu_ticks_gflop_deviation * cpu_ticks_gflop_deviation;
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@ -186,10 +203,10 @@ int main(int argc, char **argv) {
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printf("mean: %ld\tdeviation: %f\tvariance: %ld\trel deviation: %f\n", mean,std_deviation, variance, rel_deviation);
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printf("\ngflops (1000000000 operations per second):\n");
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printf("mean: %f\tdeviation: %f\tvariance: %f\trel deviation: %f\n", gflop,gflop_deviation, vgfkop, rel_deviation);
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printf("\ntime calculated from cpu ticks per iteration (%ld operations):\n", arguments.reps_per_iteration);
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printf("\ntime calculated from cpu ticks per iteration (%ld operations)(does not make sense for more then 1 thread):\n", arguments.reps_per_iteration);
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printf("mean: %f\tdeviation: %f\tvariance: %f\trel deviation: %f\n", cpu_time_mean,cpu_time_deviation, cpu_time_variance, cpu_time_rel_deviation);
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printf("\ngflops (1000000000 operations per second):\n");
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printf("mean: %f\tdeviation: %f\tvariance: %f\trel deviation: %f\n", cpu_ticks_gflop,cpu_ticks_gflop_deviation, cpu_ticks_vgfkop, cpu_time_rel_deviation);
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printf("mean: %1f\tdeviation: %f\tvariance: %f\trel deviation: %f\n", cpu_ticks_gflop,cpu_ticks_gflop_deviation, cpu_ticks_vgfkop, cpu_time_rel_deviation);
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return 0;
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