Ejemplo n.º 1
0
/** @class PAPI_stop_counters
 *	@brief Stop counting hardware events and reset values to zero.
 *
 *	@par C Interface:
 *	\#include <papi.h> @n
 *	int PAPI_stop_counters( long long *values, int array_len );
 *
 * @param *values
 *		an array where to put the counter values
 * @param array_len
 *		the number of items in the *values array
 *
 * @post
 *	After this function is called, the values are reset to zero.
 *
 *	@retval PAPI_EINVAL
 *		One or more of the arguments is invalid.
 *	@retval PAPI_ENOTRUN
 *		The EventSet is not started yet.
 *	@retval PAPI_ENOEVST
 *		The EventSet has not been added yet.
 *
 * The PAPI_stop_counters() function stops the counters and copies the counts
 * into the *values array.
 * The counters must have been started by a previous call to PAPI_start_counters().
 *
 *	\code
int Events[2] = { PAPI_TOT_CYC, PAPI_TOT_INS };
long long values[2];
if ( PAPI_start_counters( Events, 2 ) != PAPI_OK )
	handle_error(1);
your_slow_code();
if ( PAPI_stop_counters( values, 2 ) != PAPI_OK )
	handle_error(1);
 *	\endcode
 *
 * @see PAPI_read_counters() PAPI_start_counters() PAPI_set_opt()
 */
int
PAPI_stop_counters( long long *values, int array_len )
{
    int retval;
    HighLevelInfo *state = NULL;

    if ( ( retval = _internal_check_state( &state ) ) != PAPI_OK )
        return ( retval );

    if ( state->running == 0 )
        return ( PAPI_ENOTRUN );

    if ( state->running == HL_START ) {
        if ( array_len < state->num_evts  || values == NULL) {
            return ( PAPI_EINVAL );
        } else {
            retval = PAPI_stop( state->EventSet, values );
        }
    }

    if ( state->running > HL_START ) {
        long long tmp_values[3];
        retval = PAPI_stop( state->EventSet, tmp_values );
    }

    if ( retval == PAPI_OK ) {
        _internal_cleanup_hl_info( state );
        PAPI_cleanup_eventset( state->EventSet );
    }
    APIDBG( "PAPI_stop_counters returns %d\n", retval );
    return retval;
}
Ejemplo n.º 2
0
int PAPI_stop_counters(long long * values, int array_len)
{
   int retval;
   HighLevelInfo *state = NULL;

   if ((retval = _internal_check_state(&state)) != PAPI_OK)
      return (retval);

   if (state->running == 0)
      return (PAPI_ENOTRUN);

   if (state->running == HL_FLOPS || state->running == HL_FLIPS || state->running == HL_IPC) {
      long long tmp_values[2];
      retval = PAPI_stop(state->EventSet, tmp_values);
   } 
   else if(state->running != HL_START_COUNTERS || array_len < state->num_evts)
      return (PAPI_EINVAL);
   else
      retval = PAPI_stop(state->EventSet, values);

   if (retval==PAPI_OK) {
      _internal_cleanup_hl_info(state);
      PAPI_cleanup_eventset(state->EventSet);
   }
   APIDBG("PAPI_stop_counters returns %d\n", retval);
   return retval;
}
Ejemplo n.º 3
0
void esd_metric_free(struct esd_metv* metv)
{
  int retval, i;
  long_long papi_vals[ELG_METRIC_MAXNUM];

  if ( metv == NULL )
    return;

  /* treat PAPI failures at this point as non-fatal */

  /* KF: do everything for all components with counters */
  for( i=0; i<ELG_PAPIC_MAX_COMP; i++ ) {
    if( metv->NumEvents[i]==0 )
      continue;
      
    retval = PAPI_stop(metv->EventSet[i], papi_vals);
    if ( retval != PAPI_OK ) {
      esd_metric_warning(retval, "PAPI_stop");
    } else { /* cleanup/destroy require successful PAPI_stop */
	
      retval = PAPI_cleanup_eventset(metv->EventSet[i]);
      if ( retval != PAPI_OK )
        esd_metric_warning(retval, "PAPI_cleanup_eventset");
	
      retval = PAPI_destroy_eventset(&metv->EventSet[i]);
      if ( retval != PAPI_OK )
        esd_metric_warning(retval, "PAPI_destroy_eventset");
	
      free(metv);
	
      elg_cntl_msg("Counters stopped");
    }
  }
}
Ejemplo n.º 4
0
void GPTL_PAPIfinalize (int maxthreads)
{
  int t;   /* thread index */
  int ret; /* return code */

  for (t = 0; t < maxthreads; t++) {
    ret = PAPI_stop (EventSet[t], papicounters[t]);
    free (papicounters[t]);
    ret = PAPI_cleanup_eventset (EventSet[t]);
    ret = PAPI_destroy_eventset (&EventSet[t]);
  }

  free (EventSet);
  free (papicounters);

  /* Reset initial values */

  npapievents = 0;
  nevents = 0;
  is_multiplexed = false;
  narrowprint = true;
  persec = true;
  enable_multiplexing = false;
  verbose = false;
}
Ejemplo n.º 5
0
void vt_metric_free(struct vt_metv* metv, uint32_t tid)
{
  int retval, i;
  long_long papi_vals[VT_METRIC_MAXNUM];

  if ( metv == NULL )
    return;

  /* treat PAPI failures at this point as non-fatal */

  VT_SUSPEND_IO_TRACING(tid);

  /* foreach used eventset */
  for (i=0; i < VT_METRIC_MAXNUM && metv->EventSet[i]!=NULL; i++)
  {
    retval = PAPI_stop(metv->EventSet[i]->EventId, papi_vals);
    if ( retval != PAPI_OK ) {
      metric_warning(retval, "PAPI_stop");
    } else { /* cleanup/destroy require successful PAPI_stop */
      retval = PAPI_cleanup_eventset(metv->EventSet[i]->EventId);
      if ( retval != PAPI_OK )
        metric_warning(retval, "PAPI_cleanup_eventset");
      retval = PAPI_destroy_eventset(&metv->EventSet[i]->EventId);
      if ( retval != PAPI_OK )
        metric_warning(retval, "PAPI_destroy_eventset");
    }
    free(metv->EventSet[i]);
  }

  VT_RESUME_IO_TRACING(tid);

  free(metv);
}
Ejemplo n.º 6
0
void vt_metric_free(struct vt_metv* metv)
{
    int retval;
    long_long papi_vals[VT_METRIC_MAXNUM];

    if ( metv == NULL )
        return;

    /* treat PAPI failures at this point as non-fatal */

    retval = PAPI_stop(metv->EventSet, papi_vals);
    if ( retval != PAPI_OK ) {
        vt_metric_warning(retval, "PAPI_stop");
    } else { /* cleanup/destroy require successful PAPI_stop */

        retval = PAPI_cleanup_eventset(metv->EventSet);
        if ( retval != PAPI_OK )
            vt_metric_warning(retval, "PAPI_cleanup_eventset");

        retval = PAPI_destroy_eventset(&metv->EventSet);
        if ( retval != PAPI_OK )
            vt_metric_warning(retval, "PAPI_destroy_eventset");

        free(metv);

        /*vt_cntl_msg("Counters stopped");*/
    }
}
Ejemplo n.º 7
0
JNIEXPORT jint JNICALL Java_papi_Wrapper_eventSetStop
		(JNIEnv *env, jclass UNUSED_ARG(self), jlong eventsetid, jlongArray valuesarr) {
	if (valuesarr == NULL) {
		return PAPI_EINVAL;
	}

	int values_count = (*env)->GetArrayLength(env, valuesarr);
	if (values_count == 0) {
		return PAPI_EINVAL;
	}

	int eventset = (int) eventsetid;

	jlong *valuesj = (*env)->GetLongArrayElements(env, valuesarr, NULL);
	long long *values = (long long *) valuesj;

	int rc = PAPI_stop(eventset, values);

	if (rc == PAPI_OK) {
		(*env)->ReleaseLongArrayElements(env, valuesarr, valuesj, JNI_COMMIT);
	} else {
		(*env)->ReleaseLongArrayElements(env, valuesarr, valuesj, JNI_ABORT);
	}

	DEBUG_PRINT("returning %d (%s)", rc, PAPI_strerror(rc));

	return rc;
}
Timing::~Timing(){
#ifdef KRIPKE_USE_PAPI
long long tmp[16];
PAPI_stop(papi_set, tmp);
#endif

}
Ejemplo n.º 9
0
int _hl_rate_calls(float *real_time, float *proc_time, long long * ins, float *rate,
                   int EVENT, HighLevelInfo * state)
{
   long long values[2] = { 0, 0 };
   int retval = 0;
   int level = 0;


   if (EVENT == PAPI_FP_INS)
      level = HL_FLIPS;
   else if (EVENT == PAPI_TOT_INS)
      level = HL_IPC;
   else if (EVENT == PAPI_FP_OPS)
      level = HL_FLOPS;

   if (state->running != 0 && state->running != level)
      return (PAPI_EINVAL);

   if (state->running == 0) {
      if (PAPI_query_event(EVENT) != PAPI_OK)
         return (PAPI_ENOEVNT);

      if ((retval = PAPI_add_event(state->EventSet, EVENT)) != PAPI_OK) {
         _internal_cleanup_hl_info(state);
         PAPI_cleanup_eventset(state->EventSet);
         return (retval);
      }

      if (PAPI_query_event(PAPI_TOT_CYC) != PAPI_OK)
         return (PAPI_ENOEVNT);

      if ((retval = PAPI_add_event(state->EventSet, PAPI_TOT_CYC)) != PAPI_OK) {
         _internal_cleanup_hl_info(state);
         PAPI_cleanup_eventset(state->EventSet);
         return (retval);
      }

      state->initial_time = PAPI_get_real_usec();
      if ((retval = PAPI_start(state->EventSet)) != PAPI_OK)
         return (retval);
      state->running = level;
   } else {
      if ((retval = PAPI_stop(state->EventSet, values)) != PAPI_OK)
         return (retval);
      /* Use Multiplication because it is much faster */
      *real_time = (float) ((long long)(PAPI_get_real_usec() - state->initial_time) * .000001);
      *proc_time = (float) (values[1]*.000001/((_papi_hwi_system_info.hw_info.mhz==0)?1:_papi_hwi_system_info.hw_info.mhz));
      if (*proc_time > 0)
	*rate = (float) ((float) values[0]*(EVENT==PAPI_TOT_INS?1:_papi_hwi_system_info.hw_info.mhz)/(values[1]==0?1:values[1]));
      state->total_proc_time += *proc_time;
      state->total_ins += values[0];
      *proc_time = state->total_proc_time;
      *ins = (long long)state->total_ins;
      if ((retval = PAPI_start(state->EventSet)) != PAPI_OK) {
         state->running = 0;
         return (retval);
      }
   }
   return PAPI_OK;
}
Ejemplo n.º 10
0
void polybench_papi_stop_counter(int evid)
{
# ifdef _OPENMP
# pragma omp parallel
  {
    if (omp_get_thread_num () == polybench_papi_counters_threadid)
      {
# endif
	int retval;
	long_long values[1];
	values[0] = 0;
	if ((retval = PAPI_read (polybench_papi_eventset, &values[0]))
	    != PAPI_OK)
	  test_fail (__FILE__, __LINE__, "PAPI_read", retval);

	if ((retval = PAPI_stop (polybench_papi_eventset, NULL)) != PAPI_OK)
	  test_fail (__FILE__, __LINE__, "PAPI_stop", retval);

	polybench_papi_values[evid] = values[0];

	if ((retval = PAPI_remove_event
	     (polybench_papi_eventset,
	      polybench_papi_eventlist[evid])) != PAPI_OK)
	  test_fail (__FILE__, __LINE__, "PAPI_remove_event", retval);
# ifdef _OPENMP
      }
  }
#pragma omp barrier
# endif
}
Ejemplo n.º 11
0
static void
resultline( int i, int j, int EventSet )
{
	float ferror = 0;
	long long flpins = 0;
	long long papi, theory;
	int diff, retval;
	const PAPI_hw_info_t *hwinfo = NULL;

	retval = PAPI_stop( EventSet, &flpins );
	if ( retval != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_stop", retval );

	i++;					 /* convert to 1s base  */
	theory = 2;
	while ( j-- )
		theory *= i;		 /* theoretical ops   */
	papi = flpins << FMA;

	diff = ( int ) ( papi - theory );

	ferror = ( ( float ) abs( diff ) ) / ( ( float ) theory ) * 100;

	printf( "%8d %12lld %12lld %8d %10.4f\n", i, papi, theory, diff, ferror );

#ifndef DONT_FAIL
	if ( ( hwinfo = PAPI_get_hardware_info(  ) ) == NULL )
		test_fail( __FILE__, __LINE__, "PAPI_get_hardware_info", 1 );
	if ( hwinfo->vendor != PAPI_VENDOR_AMD && ferror > MAX_ERROR &&
		 abs( diff ) > MAX_DIFF && i > 20 )
		test_fail( __FILE__, __LINE__, "Calibrate: error exceeds 10%",
				   PAPI_EMISC );
#endif
}
Ejemplo n.º 12
0
static void
measure_event( int index, PAPI_option_t * option )
{
	int retval;
	long long value;

	if ( ( retval = PAPI_add_event( EventSet, PAPI_event[index] ) ) != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_add_event", retval );

	if ( index == 0 ) {
/*	    if ((retval = PAPI_get_opt(PAPI_DATA_ADDRESS, option)) != PAPI_OK)
	      test_fail(__FILE__, __LINE__, "PAPI_get_opt(PAPI_DATA_ADDRESS)", retval);
*/
		printf
			( "Requested Start Address: %p; Start Offset: 0x%5x; Actual Start Address: %p\n",
			  option->addr.start, option->addr.start_off,
			  option->addr.start - option->addr.start_off );
		printf
			( "Requested End   Address: %p; End   Offset: 0x%5x; Actual End   Address: %p\n",
			  option->addr.end, option->addr.end_off,
			  option->addr.end + option->addr.end_off );
	}

	PAPI_start( EventSet );
	do_malloc_work( NUM );
	do_static_work( NUM );
	PAPI_stop( EventSet, &value );

	printf( "%s:  %lld\n", event_name[index], value );

	if ( ( retval =
		   PAPI_remove_event( EventSet, PAPI_event[index] ) ) != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_remove_event", retval );
}
void *Thread(void *arg)
{
   int retval, num_tests = 1;
   int EventSet1=PAPI_NULL;
   int mask1, papi_event;
   int num_events1;
   long long **values;
   long long elapsed_us, elapsed_cyc;
   char event_name[PAPI_MAX_STR_LEN];

   /* add PAPI_TOT_CYC and one of the events in PAPI_FP_INS, PAPI_FP_OPS or
      PAPI_TOT_INS, depends on the availability of the event on the 
      platform */
   EventSet1 = add_two_nonderived_events(&num_events1, &papi_event, hw_info, &mask1);

   expected[EventSet1] = *(int *)arg / mythreshold;
   myid[EventSet1] = PAPI_thread_id();

   values = allocate_test_space(num_tests, num_events1);

   elapsed_us = PAPI_get_real_usec();

   elapsed_cyc = PAPI_get_real_cyc();

   if ((retval = PAPI_overflow(EventSet1, papi_event, mythreshold, 0, handler))
                 != PAPI_OK)
      test_fail(__FILE__, __LINE__, "PAPI_overflow", retval);

   /* start_timer(1); */
   if ((retval = PAPI_start(EventSet1)) != PAPI_OK)
      test_fail(__FILE__, __LINE__, "PAPI_start", retval);

   do_stuff();

   if ((retval = PAPI_stop(EventSet1, values[0])) != PAPI_OK)
      test_fail(__FILE__, __LINE__, "PAPI_stop", retval);

   elapsed_us = PAPI_get_real_usec() - elapsed_us;

   elapsed_cyc = PAPI_get_real_cyc() - elapsed_cyc;

   if ((retval = PAPI_overflow(EventSet1, papi_event, 0, 0, NULL)) != PAPI_OK)
         test_fail(__FILE__, __LINE__, "PAPI_overflow", retval);

   remove_test_events(&EventSet1, mask1);

   if ((retval = PAPI_event_code_to_name(papi_event, event_name)) != PAPI_OK)
         test_fail(__FILE__, __LINE__, "PAPI_event_code_to_name", retval);

   if (!TESTS_QUIET) {
      printf("Thread 0x%x %s : \t%lld\n", (int) pthread_self(), 
                     event_name, (values[0])[0]);
      printf("Thread 0x%x PAPI_TOT_CYC: \t%lld\n", (int) pthread_self(), (values[0])[1]);
      printf("Thread 0x%x Real usec   : \t%lld\n", (int) pthread_self(), elapsed_us);
      printf("Thread 0x%x Real cycles : \t%lld\n", (int) pthread_self(), elapsed_cyc);
   }
   free_test_space(values, num_tests);
   pthread_exit(NULL);
   return (NULL);
}
Ejemplo n.º 14
0
/**
 * \brief Frees the memory used in the plan
 * \param [in] plan Points to the memory for free-ing.
 * \sa parseFFT2Plan
 * \sa makeFFT2Plan
 * \sa initFFT2Plan
 * \sa execFFT2Plan
 * \sa perfFFT2Plan
 */
void *killFFT2Plan(void *plan){
    Plan *p;
    FFTdata *d;
    p = (Plan *)plan;
    assert(p);
    d = (FFTdata *)p->vptr;
    assert(d);
    pthread_rwlock_wrlock(&FFTW_Lock);

    if(DO_PERF){
        #ifdef HAVE_PAPI
        TEST_PAPI(PAPI_stop(p->PAPI_EventSet, NULL), PAPI_OK, MyRank, 9999, PRINT_SOME);
        #endif //HAVE_PAPI
    }     //DO_PERF

    if(d->in_original){
        fftw_free(d->in_original);
    }
    if(d->out){
        fftw_free(d->out);
    }
    if(d->mid){
        fftw_free(d->mid);
    }
    if(d->forward){
        fftw_destroy_plan(d->forward);
    }
    if(d->backward){
        fftw_destroy_plan(d->backward);
    }
    pthread_rwlock_unlock(&FFTW_Lock);
    free(d);
    free(p);
    return (void *)NULL;
} /* killFFT2Plan */
Ejemplo n.º 15
0
void event_stop(int *eventSet, int eventCodeSetSize, long long *PMC, int threadID) {

    int i, retval;

    retval = PAPI_stop( *eventSet, PMC );
    if ( retval != PAPI_OK )
        test_fail( __FILE__, __LINE__, "PAPI_stop", retval );

}
Ejemplo n.º 16
0
void PAPI_HW_COUNTER_close(int tid){
    int retval;
  #ifdef MEASURE_TIME
  #endif

  #ifdef MEASURE_HW_COUNTER
    retval = PAPI_stop( thr_vars[tid].EventSet, thr_vars[tid].values);
    if (retval != PAPI_OK) {
       papi_fail(__FILE__, __LINE__, "PAPI_stop()", retval);
    }

    retval = PAPI_cleanup_eventset( thr_vars[tid].EventSet );
    if (retval != PAPI_OK) {
	   papi_fail(__FILE__, __LINE__, 
                             "PAPI_cleanup_eventset()",retval);
    }

    retval = PAPI_destroy_eventset( &(thr_vars[tid].EventSet) );
    if (retval != PAPI_OK) {
	   papi_fail(__FILE__, __LINE__, 
                              "PAPI_destroy_eventset()",retval);
    }
  #endif

  #ifdef MEASURE_ENERGY
    retval = PAPI_stop( thr_vars[tid].EnergyEventSet, thr_vars[tid].energy_values);
    if (retval != PAPI_OK) {
       papi_fail(__FILE__, __LINE__, "PAPI_stop()", retval);
    }

    retval = PAPI_cleanup_eventset( thr_vars[tid].EnergyEventSet );
    if (retval != PAPI_OK) {
	   papi_fail(__FILE__, __LINE__, 
                             "PAPI_cleanup_eventset()",retval);
    }

    retval = PAPI_destroy_eventset( &(thr_vars[tid].EnergyEventSet) );
    if (retval != PAPI_OK) {
	   papi_fail(__FILE__, __LINE__, 
                              "PAPI_destroy_eventset()",retval);
    }
  #endif

}
Ejemplo n.º 17
0
void compute() {
#if PAPI
    int EventCode, retval;
    int EventSet = PAPI_NULL;
    long long PAPI_Counters[MAX_COUNTERS];

    /* Initialize the library */
    retval = PAPI_library_init(PAPI_VER_CURRENT);

    if  (retval != PAPI_VER_CURRENT) {
        fprintf(stderr, "PAPI library init error!\n");
        exit(1); 
    }

    /* PAPI create event */
    if (PAPI_create_eventset(&EventSet) != PAPI_OK) {
        fprintf(stderr, "create event set: %s", PAPI_strerror(retval));
    }

    for (int i = 0; i < NUMCOUNTERS; i++) {
        if ( (retval = PAPI_add_named_event(EventSet, events[i])) != PAPI_OK) {
            fprintf(stderr, "add named event: %s", PAPI_strerror(retval));
        }
    }

    retval = PAPI_start(EventSet);
#endif
    
    float matice1[rozmer][rozmer];
    float matice2[rozmer][rozmer];
    float matice3[rozmer][rozmer];
    //Main multiply code
    int j,k,m;
    for(j = 0; j < rozmer; j++)
    {
        for (k = 0; k < rozmer; k++)
        {
            float temp = 0;
            for (m = 0; m < rozmer; m++)
            {
                temp = temp + matice1[j][m] * matice2[m][k];
            }
            matice3[j][k] = temp;
        }
    }

#if PAPI
    retval = PAPI_stop(EventSet, PAPI_Counters);
    if (retval != PAPI_OK) exit(1);

    for (int j = 0; j < NUMCOUNTERS; j++) {
        printf("%20lld %s\n", PAPI_Counters[j], events[j]);
    //    fprintf(stderr, "%lld\n ", PAPI_Counters[j]);
    }
#endif
}
Ejemplo n.º 18
0
void
Thread( int t, int n )
{
	int retval, num_tests = 1;
	int EventSet1 = PAPI_NULL;
	int PAPI_event, mask1;
	int num_events1;
	long long **values;
	long long elapsed_us, elapsed_cyc;
	char event_name[PAPI_MAX_STR_LEN];

	/* add PAPI_TOT_CYC and one of the events in PAPI_FP_INS, PAPI_FP_OPS or
	   PAPI_TOT_INS, depending on the availability of the event on the
	   platform */
	EventSet1 = add_two_events( &num_events1, &PAPI_event, &mask1 );

	retval = PAPI_event_code_to_name( PAPI_event, event_name );
	if ( retval != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_event_code_to_name", retval );

	values = allocate_test_space( num_tests, num_events1 );

	retval = PAPI_start( EventSet1 );
	if ( retval != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_start", retval );

	elapsed_us = PAPI_get_real_usec(  );

	elapsed_cyc = PAPI_get_real_cyc(  );

	do_flops( n );

	elapsed_us = PAPI_get_real_usec(  ) - elapsed_us;

	elapsed_cyc = PAPI_get_real_cyc(  ) - elapsed_cyc;

	retval = PAPI_stop( EventSet1, values[0] );
	if ( retval != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_stop", retval );

	remove_test_events( &EventSet1, mask1 );

	if ( !TESTS_QUIET ) {
		printf( "Thread %#x %-12s : \t%lld\n", t, event_name,
				values[0][1] );
		printf( "Thread %#x PAPI_TOT_CYC : \t%lld\n", t, 
			values[0][0] );
	}

	free_test_space( values, num_tests );
	if ( !TESTS_QUIET ) {
		printf( "Thread %#x Real usec    : \t%lld\n", t, elapsed_us );
		printf( "Thread %#x Real cycles  : \t%lld\n", t, elapsed_cyc );
	}
	PAPI_unregister_thread(  );
}
Ejemplo n.º 19
0
long long papi_stop(){

	if (papi_supported) {
		if ((papi_err = PAPI_stop(eventSet, &value)) != PAPI_OK) {
			return -1;
		}
		return value;
	}
	return -1;
}
Ejemplo n.º 20
0
int
main( int argc, char **argv )
{
  double c, a = 0.999, b = 1.001;
	int n = 1000;
	int EventSet = PAPI_NULL;
	int retval;
	int i, j = 0;
	long long g1[2];

	tests_quiet( argc, argv );	/* Set TESTS_QUIET variable */

	if ( ( retval =
		   PAPI_library_init( PAPI_VER_CURRENT ) ) != PAPI_VER_CURRENT )
		test_fail( __FILE__, __LINE__, "PAPI_library_init", retval );


	if ( ( retval = PAPI_create_eventset( &EventSet ) ) != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_create_eventset", retval );

	if ( PAPI_query_event( PAPI_L2_TCM ) == PAPI_OK )
		j++;

	if ( j == 1 &&
		 ( retval = PAPI_add_event( EventSet, PAPI_L2_TCM ) ) != PAPI_OK ) {
		if ( retval != PAPI_ECNFLCT )
			test_fail( __FILE__, __LINE__, "PAPI_add_event", retval );
		j--;				 /* The event was not added */
	}

	i = j;
	if ( PAPI_query_event( PAPI_L2_DCM ) == PAPI_OK )
		j++;

	if ( j == ( i + 1 ) &&
		 ( retval = PAPI_add_event( EventSet, PAPI_L2_DCM ) ) != PAPI_OK ) {
		if ( retval != PAPI_ECNFLCT )
			test_fail( __FILE__, __LINE__, "PAPI_add_event", retval );
		j--;				 /* The event was not added */
	}

	if ( j ) {
		if ( ( retval = PAPI_start( EventSet ) ) != PAPI_OK )
			test_fail( __FILE__, __LINE__, "PAPI_start", retval );
		for ( i = 0; i < n; i++ ) {
			c = a * b;
		}
		if (!TESTS_QUIET) fprintf(stdout,"c=%lf\n",c);

		if ( ( retval = PAPI_stop( EventSet, g1 ) ) != PAPI_OK )
			test_fail( __FILE__, __LINE__, "PAPI_stop", retval );
	}
	test_pass( __FILE__, NULL, 0 );
	exit( 1 );
}
Ejemplo n.º 21
0
static int
check_event( int event_code, char *name )
{
	int retval;
	char errstring[PAPI_MAX_STR_LEN];
	long long values;
	int EventSet = PAPI_NULL;

   /* Is there an issue with older machines? */
   /* Disable for now, add back once we can reproduce */
//	if ( PENTIUM4 ) {
//		if ( strcmp( name, "REPLAY_EVENT:BR_MSP" ) == 0 ) {
//			return 1;
//		}
//	}

	retval = PAPI_create_eventset( &EventSet );
	if ( retval != PAPI_OK )
	   test_fail( __FILE__, __LINE__, "PAPI_create_eventset", retval );
   
	retval = PAPI_add_event( EventSet, event_code );
	if ( retval != PAPI_OK ) {
		printf( "Error adding %s\n", name );
		return 0;
	} else {
	  //		printf( "Added %s successfully ", name );
	}

	retval = PAPI_start( EventSet );
	if ( retval != PAPI_OK ) {
		PAPI_perror( retval, errstring, PAPI_MAX_STR_LEN );
		fprintf( stdout, "Error starting %s : %s\n", name, errstring );
	} else {
		retval = PAPI_stop( EventSet, &values );
		if ( retval != PAPI_OK ) {
			PAPI_perror( retval, errstring, PAPI_MAX_STR_LEN );
			fprintf( stdout, "Error stopping %s: %s\n", name, errstring );
			return 0;
		} else {
			printf( "Added and Stopped %s successfully.\n", name );
		}
	}


	retval=PAPI_cleanup_eventset( EventSet );
	if (retval != PAPI_OK ) {
	  test_warn( __FILE__, __LINE__, "PAPI_cleanup_eventset", retval);
	}
	retval=PAPI_destroy_eventset( &EventSet );
	if (retval != PAPI_OK ) {
	  test_warn( __FILE__, __LINE__, "PAPI_destroy_eventset", retval);
	}
	return ( 1 );
}
Ejemplo n.º 22
0
void stop_papi() {
    if (papi_supported) {
        if ((papi_err = PAPI_stop(eventSet, values)) != PAPI_OK) {
            fprintf(stderr, "Could not get values: %s\n", PAPI_strerror(papi_err));
        }
        
        int i;
        for (i = 0; i < en; ++i) {
            printf("%s: %lld\n", event_names[i], values[i]);
        }
    }
}
Ejemplo n.º 23
0
void *
my_thread( void *v )
{
	long num = ( long ) v;
	int n;
	int EventSet = PAPI_NULL;
	long long value;

	int retval = PAPI_register_thread(  );
	if ( retval != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_register_thread", retval );
	pthread_setspecific( key, v );

	count[num] = 0;
	iter[num] = 0;
	last[num] = start;
        
	if ( PAPI_create_eventset( &EventSet ) != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_create_eventset failed", 1 );

	if ( PAPI_add_event( EventSet, EVENT ) != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_add_event failed", 1 );

	if ( PAPI_overflow( EventSet, EVENT, threshold, 0, my_handler ) != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_overflow failed", 1 );

	if ( PAPI_start( EventSet ) != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_start failed", 1 );

	printf( "launched timer in thread %ld\n", num );

	for ( n = 1; n <= program_time; n++ ) {
		do_cycles( num, 1 );
		print_rate( num );
	}

	PAPI_stop( EventSet, &value );

        retval = PAPI_overflow( EventSet, EVENT, 0, 0, my_handler);
	if ( retval != PAPI_OK )
            test_fail( __FILE__, __LINE__, "PAPI_overflow failed to reset the overflow handler", retval );

	if ( PAPI_remove_event( EventSet, EVENT ) != PAPI_OK ) 
	    test_fail( __FILE__, __LINE__, "PAPI_remove_event", 1 );

	if ( PAPI_destroy_eventset( &EventSet ) != PAPI_OK ) 
	    test_fail( __FILE__, __LINE__, "PAPI_destroy_eventset", 1 );

	if ( PAPI_unregister_thread( ) != PAPI_OK != retval ) 
		test_fail( __FILE__, __LINE__, "PAPI_unregister_thread", 1 );

	return ( NULL );
}
Ejemplo n.º 24
0
void Thread( int n ){

	int retval, num_tests = 1;
	int EventSet1 = PAPI_NULL;
	int PAPI_event, mask1;
	int num_events1;
	long long **values;
	long long elapsed_us, elapsed_cyc, L1_DCM;
	char event_name[PAPI_MAX_STR_LEN];

	printf( "Thread %#x started\n", omp_get_thread_num(  ) );
	num_events1 = 2;

	EventSet1 = add_two_events( &num_events1, &PAPI_event, &mask1 );

	retval = PAPI_event_code_to_name( PAPI_event, event_name );
	if ( retval != PAPI_OK )
		test_fail( __FILE__, __LINE__, "PAPI_event_code_to_name", retval );

	values = allocate_test_space( num_tests, num_events1 );

	elapsed_us = PAPI_get_real_usec(  );
	
	elapsed_cyc = PAPI_get_real_cyc(  );

	retval = PAPI_start( EventSet1 );

	do_flops( n );

	retval = PAPI_stop( EventSet1, values[0] );

	elapsed_us = PAPI_get_real_usec(  ) - elapsed_us;

	elapsed_cyc = PAPI_get_real_cyc(  ) - elapsed_cyc;

	remove_test_events( &EventSet1, mask1 );

	if ( !TESTS_QUIET ) {
		printf( "Thread %#x %-12s : \t%lld\n", omp_get_thread_num(  ),
			event_name, values[0][1] );
		printf( "Thread %#x PAPI_TOT_CYC: \t%lld\n", omp_get_thread_num(  ),
			values[0][0] );
		printf( "Thread %#x Real usec   : \t%lld\n", omp_get_thread_num(  ),
			elapsed_us );
		printf( "Thread %#x Real cycles : \t%lld\n", omp_get_thread_num(  ),
			elapsed_cyc );
	}

	free_test_space( values, num_tests );

	PAPI_unregister_thread(  );
	printf( "Thread %#x finished\n", omp_get_thread_num(  ) );
}
Ejemplo n.º 25
0
void compute(int *sequence) {
#if PAPI
    int EventCode, retval;
    int EventSet = PAPI_NULL;
    long long PAPI_Counters[MAX_COUNTERS];

    /* Initialize the library */
    retval = PAPI_library_init(PAPI_VER_CURRENT);

    if  (retval != PAPI_VER_CURRENT) {
        fprintf(stderr, "PAPI library init error!\n");
        exit(1); 
    }

    /* PAPI create event */
    if (PAPI_create_eventset(&EventSet) != PAPI_OK) {
        fprintf(stderr, "create event set: %s", PAPI_strerror(retval));
    }

    int i;
    for (i = 0; i < NUMCOUNTERS; i++) {
        if ( (retval = PAPI_add_named_event(EventSet, events[i])) != PAPI_OK) {
            fprintf(stderr, "add named event: %s", PAPI_strerror(retval));
        }
    }

    retval = PAPI_start(EventSet);
#endif
    
    float matice1[SEQUENCE_CNT];
    float matice2[SEQUENCE_CNT];
    int j, idx;
    for(j = 0; j < SEQUENCE_CNT; j++)
    {
        idx = sequence[j];
        matice2[idx] = 13 % (idx + 1);
        matice1[idx] = matice2[idx] * 231;
      //  printf("%d\t", idx);
    }

    //printf("\n");
#if PAPI
    retval = PAPI_stop(EventSet, PAPI_Counters);

    if (retval != PAPI_OK) exit(1);
    int k;
    for (k = 0; k < NUMCOUNTERS; k++) {
        printf("%20lld %s\n", PAPI_Counters[k], events[k]);
    //    fprintf(stderr, "%lld\n ", PAPI_Counters[k]);
    }
#endif
}
Ejemplo n.º 26
0
void test_papi_destroy(struct test_statistics_t *test_stat)
{
  int retval;
  
  if ((retval = PAPI_stop(test_stat->event_set, test_stat->counters)) != PAPI_OK)
    test_fail(__FILE__, __LINE__, "PAPI_stop", retval);

  if ((retval = PAPI_cleanup_eventset(test_stat->event_set)) != PAPI_OK)
    test_fail(__FILE__, __LINE__, "PAPI_destroy_eventset", retval);
  
  if ((retval = PAPI_destroy_eventset(&(test_stat->event_set))) != PAPI_OK)
    test_fail(__FILE__, __LINE__, "PAPI_destroy_eventset", retval);
}
Ejemplo n.º 27
0
void end_record_cache_access(RRecord & rr)
{
  int retVal;
  retVal = PAPI_stop(g_event_set, endRecords);
  assert(retVal == PAPI_OK);
  retVal = PAPI_cleanup_eventset(g_event_set);
  assert(retVal == PAPI_OK);
  retVal = PAPI_destroy_eventset(&g_event_set);
  assert(retVal == PAPI_OK);
  PAPI_shutdown(); 
  rr.put("L1-cache-misss", endRecords[0] - startRecords[0]);
  rr.put("L1-cache-access", endRecords[1] - startRecords[1]);
}
Ejemplo n.º 28
0
void ipm_hpm_stop() { 
#ifndef HPM_DISABLED
    int 		i,rv;
#ifdef HPM_PAPI
    char 		errstring[PAPI_MAX_STR_LEN];
    char 		event_name[PAPI_MAX_STR_LEN];
    long long int  papi_hpm[MAXSIZE_HPMCOUNTERS];
#endif

    if(task.flags & IPM_HPM_CANCELED) {
	return;
    }

    if(task.hpm_eventset < 0) {
	return;
    }


#ifdef HPM_PAPI

#ifdef CPU_PPC450D
/* then we are on a bluegene P*/
    if (node_rank != 0 ) return;
#endif 

    rv = PAPI_stop(papi_eventset[0], papi_hpm);
    if(rv != PAPI_OK) {
	PAPI_perror(rv, errstring, PAPI_MAX_STR_LEN);
	printf("IPM: %d papi_error hpm_stop %d %s\n",
	       task.mpi_rank,
	       rv,
	       errstring);
    }
#endif
#ifdef HPM_PMAPI
    pm_stop_mythread();
#endif

    /* TAG_EXIT: exit from global is different than exit from non global */
    if(task.flags & IPM_HPM_ACTIVE) {
	if(task.region_current > 0) {
	    printf("IPM: %d exit from region=%d > 0 \n",
		   task.mpi_rank, task.region_current);
	}
    }


    return;
#endif
}
Ejemplo n.º 29
0
static void papiEnd() {
  int rv;

  /* get the values */
  if ((rv = PAPI_stop(papiEventSet, papiResults)) != PAPI_OK)
    handle_error(rv);

  /* Remove all events in the eventset */
  if ((rv = PAPI_cleanup_eventset(papiEventSet)) != PAPI_OK)
    handle_error(rv);
  
  /* Free all memory and data structures, EventSet must be empty. */
  if ((rv = PAPI_destroy_eventset(&papiEventSet)) != PAPI_OK)
    handle_error(rv);
}
Ejemplo n.º 30
0
long_long stop_PAPI(int ind)
{
    long_long values[1];

    if (PAPI_stop(oscrData_timerPAPIEventSet[ind], values) != PAPI_OK)
        OSCR_error("PAPI stop init error!\n", -1);

    if (PAPI_cleanup_eventset(&oscrData_timerPAPIEventSet[ind]) != PAPI_OK)
        OSCR_error("PAPI cleanning Eventset error!\n", -1);

    if (PAPI_destroy_eventset(&oscrData_timerPAPIEventSet[ind]) != PAPI_OK)
        OSCR_error("PAPI destroying Eventset error!\n", -1);

    return (values[0]);
}