Compute several statistics
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@ -2,6 +2,6 @@ get_property(BENCH6_LIST GLOBAL PROPERTY bench6_list)
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configure_file(config.in.h config.h)
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include_directories(${CMAKE_CURRENT_BINARY_DIR})
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add_executable(bench6_runner runner.c)
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target_link_libraries(bench6_runner PRIVATE m bench6_lib)
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install(TARGETS bench6_runner RUNTIME DESTINATION bin)
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add_executable(bigote runner.c)
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target_link_libraries(bigote PRIVATE m bench6_lib)
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install(TARGETS bigote RUNTIME DESTINATION bin)
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@ -4,8 +4,7 @@
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#ifndef CONFIG_H
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#define CONFIG_H
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#define BENCH6_PREFIX "@CMAKE_INSTALL_PREFIX@"
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#define BENCH6_BIN (BENCH6_PREFIX "/bin")
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#define BENCH6_LIST "@BENCH6_LIST@"
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/* Where the benchmark binaries are located */
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#define BENCH6_BENCHDIR "@CMAKE_INSTALL_LIBEXECDIR@"
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#endif /* CONFIG_H */
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@ -1,3 +1,4 @@
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#include "bench6.h"
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#include "common.h"
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#include "config.h"
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#include <limits.h>
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@ -12,12 +13,17 @@
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static char *progname = "bench6";
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struct sampling {
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int nmax;
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int nmin;
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int n;
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long nmax;
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long nmin;
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long n;
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double *samples;
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double rse;
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double rsem;
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double last;
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double wall;
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double min_rsem;
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const char *name;
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double t0;
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double min_time;
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};
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static int
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@ -43,7 +49,7 @@ do_run(char *argv[], double *ptime)
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*nl = '\0';
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/* Clean status line */
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fprintf(stderr, "%s\n", line);
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//fprintf(stderr, "%s\n", line);
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double time;
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sscanf(line, "%le", &time);
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@ -52,7 +58,7 @@ do_run(char *argv[], double *ptime)
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/* Drain the rest of the stdout */
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while (fgets(line, 4096, p) != NULL) {
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fprintf(stderr, "%s", line);
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//fprintf(stderr, "%s", line);
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}
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bad_close:
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@ -75,41 +81,191 @@ cmp_double(const void *pa, const void *pb)
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return 0;
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}
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//static void
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//resample(double *values, long n, double *out)
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//{
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// for (long i = 0; i < n; i++) {
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// /* FIXME: Not really uniform */
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// out[i] = values[rand() % n];
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// //printf("out[%ld] = %e\n", i, out[i]);
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// }
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//}
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//
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//static double
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//mad_bootstrap(double *values, long n)
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//{
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// long m = 1000;
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//
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// double *r = calloc(n, sizeof(double));
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// if (r == NULL) {
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// perror("calloc failed");
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// exit(1);
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// }
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//
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// double *absdev = calloc(n, sizeof(double));
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// if (absdev == NULL) {
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// perror("calloc failed");
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// exit(1);
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// }
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//
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// double *mad = calloc(m, sizeof(double));
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// if (mad == NULL) {
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// perror("calloc failed");
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// exit(1);
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// }
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//
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// for (long sample = 0; sample < m; sample++) {
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// resample(values, n, r);
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//
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// qsort(r, n, sizeof(double), cmp_double);
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// double median = r[n / 2];
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//
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// for (long i = 0; i < n; i++) {
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// absdev[i] = fabs(r[i] - median);
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// }
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//
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// qsort(absdev, n, sizeof(double), cmp_double);
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// mad[sample] = absdev[n / 2];
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// //printf("mad[%ld] = %e\n", sample, mad[sample]);
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// }
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//
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// double sum = 0.0;
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// for (long i = 0; i < m; i++)
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// sum += mad[i];
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//
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// double mean = sum / (double) m;
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// double sumsqr = 0.0;
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// for (long i = 0; i < m; i++) {
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// double dev = mad[i] - mean;
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// sumsqr += dev * dev;
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// }
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//
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// double var = sumsqr / m;
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// double stdev = sqrt(var);
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// double sem = stdev / sqrt(m);
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// double rsem = 100.0 * sem * 1.96 / mean;
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//
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// free(mad);
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// free(absdev);
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// free(r);
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//
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// return rsem;
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//}
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static void
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stats(struct sampling *s)
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{
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if (s->n < 2)
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if (s->n < 1)
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return;
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double n = s->n;
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//double last = s->samples[s->n - 1];
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long outliers = 0;
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double last = s->samples[s->n - 1];
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double median = last;
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double mean = last;
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double var = NAN;
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double stdev = NAN;
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double rstdev = NAN;
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double sem = NAN;
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double rsem = NAN;
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double mad = NAN;
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//double mad_se = NAN;
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double q1 = NAN;
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double q3 = NAN;
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double iqr = NAN;
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double pol = NAN;
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double smin = s->samples[s->n - 1];
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double smax = s->samples[s->n - 1];
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/* Need at least two samples */
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if (s->n >= 2) {
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/* Sort samples to take the median */
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qsort(s->samples, s->n, sizeof(double), cmp_double);
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double median = s->samples[s->n / 2];
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double sum = 0.0;
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for (int i = 0; i < s->n; i++)
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sum += s->samples[i];
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double mean = sum / n;
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double sumsqr = 0.0;
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for (int i = 0; i < s->n; i++) {
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double dev = s->samples[i] - mean;
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sumsqr += dev * dev;
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double *absdev = calloc(s->n, sizeof(double));
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if (absdev == NULL) {
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perror("calloc failed");
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exit(1);
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}
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double var = sumsqr / n;
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double stdev = sqrt(var);
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double rstdev = 100.0 * stdev / mean;
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double se = stdev / sqrt(n);
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double rse = 100.0 * se * 1.96 / mean;
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smin = s->samples[0];
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q1 = s->samples[s->n / 4];
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median = s->samples[s->n / 2];
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q3 = s->samples[(s->n * 3) / 4];
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smax = s->samples[s->n - 1];
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fprintf(stderr, "%s: n=%03d median=%.3e mean=%.3e SD=%.3e RSD=%.2f%% RSE=%.2f%%\n",
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progname, s->n, median, mean, stdev, rstdev, rse);
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//qcd = (q3 - q1) / (q3 + q1);
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iqr = q3 - q1;
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s->rse = rse;
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double sum = 0.0;
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for (long i = 0; i < s->n; i++)
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sum += s->samples[i];
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double n = s->n;
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mean = sum / n;
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double sumsqr = 0.0;
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for (long i = 0; i < s->n; i++) {
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double x = s->samples[i];
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double dev = x - mean;
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sumsqr += dev * dev;
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absdev[i] = fabs(s->samples[i] - median);
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//printf("absdev[%3ld] = %e\n", i, absdev[i]);
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if (x < q1 - 1.5 * iqr || x > q3 + iqr * 1.5)
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outliers++;
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}
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qsort(absdev, s->n, sizeof(double), cmp_double);
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mad = absdev[s->n / 2] * 1.4826;
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//mad_se = mad_bootstrap(s->samples, s->n);
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pol = (double) outliers * 100.0 / n;
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var = sumsqr / n;
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stdev = sqrt(var);
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rstdev = 100.0 * stdev / mean;
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sem = stdev / sqrt(n);
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rsem = 100.0 * sem * 1.96 / mean;
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s->rsem = rsem;
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free(absdev);
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}
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/* Print the header at the beginning only */
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if (s->n == 1) {
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//printf("# --- bench6 ---\n");
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//printf("# Min %ld runs, max %ld\n", s->nmin, s->nmax);
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//printf("# Cutoff %%RSEM value set to %f\n", s->min_rsem);
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//printf("# RUN Number of run\n");
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//printf("# LAST Value of last run\n");
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//printf("# MEDIAN Median of values until now\n");
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//printf("# AVG Mean of values until now\n");
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//printf("# SD Standard deviation\n");
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//printf("# %%RSD Relative standard deviation to the mean\n");
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//printf("# %%RSEM Relative standard error of the mean\n");
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printf("%4s %5s"
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" %8s %8s %8s %8s %8s"
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" %8s %8s %8s"
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" %5s %5s"
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" %5s\n",
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"RUN", "WALL",
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"MIN", "Q1", "MEDIAN", "Q3", "MAX",
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"MAD", "IQR", "SD",
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"%RSD", "%RSEM",
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"%OUTLIERS");
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}
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//RUN WALL LAST MEDIAN AVG SD %RSD %RSEM
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// 89 125.5 5.085e-03 5.075e-03 5.303e-03 3.500e-03 66.00 7.611
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//RUN WALL LAST MEDIAN AVG SD %RSD %RSEM
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// 34 3.0 5.110e-03 5.097e-03 5.121e-03 1.327e-04 2.59 0.87
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printf(
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"\r%4ld %5.1f"
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" %8.2e %8.2e %8.2e %8.2e %8.2e"
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" %8.2e %8.2e %8.2e"
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" %5.2f %5.2f"
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" %5.1f ",
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s->n, s->wall, /* progress */
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smin, q1, median, q3, smax, /* centrality */
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mad, iqr, stdev, /* dispersion */
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rstdev, rsem, /* rel. dispersion */
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pol /* outliers */
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);
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fflush(stdout);
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}
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static int
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@ -120,21 +276,26 @@ should_continue(struct sampling *s)
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if (s->n < s->nmin)
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return 1;
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if (s->rse > 1.0 /* % */)
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if (s->rsem > s->min_rsem)
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return 1;
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double dt = bench6_time() - s->t0;
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if (dt < s->min_time)
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return 1;
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return 0;
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}
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static void
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add_sample(struct sampling *s, double time)
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add_sample(struct sampling *s, double metric, double walltime)
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{
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if (s->n >= s->nmax) {
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die("overflowing samples");
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} else {
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s->samples[s->n] = time;
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s->samples[s->n] = metric;
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s->n++;
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s->last = time;
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s->last = metric;
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s->wall += walltime;
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}
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}
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@ -143,21 +304,28 @@ sample(char *argv[])
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{
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struct sampling s = { 0 };
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s.nmax = 4000;
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s.nmin = 30;
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s.nmin = 50;
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s.min_rsem = 0.5;
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s.min_time = 60.0; /* At least one minute */
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s.samples = calloc(s.nmax, sizeof(double));
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s.n = 0;
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s.name = argv[0];
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s.t0 = bench6_time();
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while (should_continue(&s)) {
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double time;
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if (do_run(argv, &time) != 0) {
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double t0 = bench6_time();
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double metric;
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if (do_run(argv, &metric) != 0) {
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err("failed to run benchmark");
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return 1;
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}
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double t1 = bench6_time();
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double walltime = t1 - t0;
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add_sample(&s, time);
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add_sample(&s, metric, walltime);
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}
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fprintf(stderr, "\n");
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fprintf(stdout, "\n");
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free(s.samples);
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@ -170,6 +338,11 @@ main(int argc, char *argv[])
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progname_set(progname);
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(void) argc;
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//while (argc && argv && strcmp(argv, "--") != 0) {
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// argv++;
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// argc--;
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//}
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if (sample(argv+1) != 0) {
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err("failed to sample the benchmark");
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return 1;
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