/* =============================================================================
* main
* =============================================================================
*/
MAIN(argc, argv)
{
GOTO_REAL();
SETUP_NUMBER_TASKS(6);
/*
* Initialization
*/
parseArgs(argc, (char** const)argv);
SIM_GET_NUM_CPU(global_numThread);
TM_STARTUP(global_numThread, 0);
P_MEMORY_STARTUP(global_numThread);
SETUP_NUMBER_THREADS(global_numThread);
thread_startup(global_numThread);
int repeat = global_repeats;
double time_total = 0.0;
double energy_total = 0.0;
for (; repeat > 0; --repeat) {
global_meshPtr = mesh_alloc();
assert(global_meshPtr);
long initNumElement = mesh_read(global_meshPtr, global_inputPrefix);
global_workHeapPtr = heap_alloc(1, &element_heapCompare);
assert(global_workHeapPtr);
long initNumBadElement = initializeWork(global_workHeapPtr, global_meshPtr);
TIMER_T start;
TIMER_READ(start);
GOTO_SIM();
thread_start(process, NULL);
GOTO_REAL();
TIMER_T stop;
TIMER_READ(stop);
double time_tmp = TIMER_DIFF_SECONDS(start, stop);
PRINT_STATS();
time_total += time_tmp;
}
printf("Time = %0.3lf\n",
time_total);
fflush(stdout);
TM_SHUTDOWN();
P_MEMORY_SHUTDOWN();
GOTO_SIM();
thread_shutdown();
MAIN_RETURN(0);
}
/* =============================================================================
* main
* =============================================================================
*/
MAIN(argc, argv)
{
/*
* Initialization
*/
parseArgs(argc, (char** const)argv);
SIM_GET_NUM_CPU(global_numThread);
TM_STARTUP(global_numThread);
P_MEMORY_STARTUP(global_numThread);
thread_startup(global_numThread);
global_meshPtr = mesh_alloc();
assert(global_meshPtr);
printf("Angle constraint = %lf\n", global_angleConstraint);
printf("Reading input... ");
long initNumElement = mesh_read(global_meshPtr, (char*)global_inputPrefix);
puts("done.");
global_workHeapPtr = heap_alloc(1, &yada_heapcompare);
assert(global_workHeapPtr);
long initNumBadElement = initializeWork(global_workHeapPtr, global_meshPtr);
printf("Initial number of mesh elements = %li\n", initNumElement);
printf("Initial number of bad elements = %li\n", initNumBadElement);
printf("Starting triangulation...");
fflush(stdout);
/*
* Run benchmark
*/
// NB: Since ASF/PTLSim "REAL" is native execution, and since we are using
// wallclock time, we want to be sure we read time inside the
// simulator, or else we report native cycles spent on the benchmark
// instead of simulator cycles.
GOTO_SIM();
TIMER_T start;
TIMER_READ(start);
#ifdef OTM
#pragma omp parallel
{
process();
}
#else
thread_start((void(*)(void*))process, NULL);
#endif
TIMER_T stop;
TIMER_READ(stop);
// NB: As above, timer reads must be done inside of the simulated region
// for PTLSim/ASF
GOTO_REAL();
puts(" done.");
printf("Elapsed time = %0.3lf\n",
TIMER_DIFF_SECONDS(start, stop));
fflush(stdout);
/*
* Check solution
*/
long finalNumElement = initNumElement + global_totalNumAdded;
printf("Final mesh size = %li\n", finalNumElement);
printf("Number of elements processed = %li\n", global_numProcess);
fflush(stdout);
#if 1
bool isSuccess = mesh_check(global_meshPtr, finalNumElement);
#else
bool isSuccess = true;
#endif
printf("Final mesh is %s\n", (isSuccess ? "valid." : "INVALID!"));
fflush(stdout);
assert(isSuccess);
/*
* TODO: deallocate mesh and work heap
*/
TM_SHUTDOWN();
P_MEMORY_SHUTDOWN();
GOTO_SIM();
thread_shutdown();
MAIN_RETURN(0);
}
/* =============================================================================
* main
* =============================================================================
*/
MAIN(argc, argv)
{
char exitmsg[1024];
GOTO_REAL();
load_syncchar_map("sync_char.map.yada");
/*
* Initialization
*/
parseArgs(argc, (char** const)argv);
sprintf(exitmsg, "END BENCHMARK %s-parallel-phase\n", argv[0]);
SIM_GET_NUM_CPU(global_numThread);
TM_STARTUP(global_numThread);
P_MEMORY_STARTUP(global_numThread);
thread_startup(global_numThread);
global_meshPtr = mesh_alloc();
assert(global_meshPtr);
printf("Angle constraint = %lf\n", global_angleConstraint);
printf("Reading input... ");
long initNumElement = mesh_read(global_meshPtr, global_inputPrefix);
puts("done.");
global_workHeapPtr = heap_alloc(1, &element_heapCompare);
assert(global_workHeapPtr);
long initNumBadElement = initializeWork(global_workHeapPtr, global_meshPtr);
printf("Initial number of mesh elements = %li\n", initNumElement);
printf("Initial number of bad elements = %li\n", initNumBadElement);
printf("Starting triangulation...");
fflush(stdout);
/*
* Run benchmark
*/
TIMER_T start;
TIMER_READ(start);
OSA_PRINT("entering parallel phase\n",0);
START_INSTRUMENTATION();
GOTO_SIM();
#ifdef OTM
#pragma omp parallel
{
process();
}
#else
thread_start(process, NULL);
#endif
GOTO_REAL();
OSA_PRINT("exiting parallel phase\n",0);
OSA_PRINT(exitmsg,0);
STOP_INSTRUMENTATION();
TIMER_T stop;
TIMER_READ(stop)
puts(" done.");
printf("Elapsed time = %0.3lf\n",
TIMER_DIFF_SECONDS(start, stop));
fflush(stdout);
/*
* Check solution
*/
long finalNumElement = initNumElement + global_totalNumAdded;
printf("Final mesh size = %li\n", finalNumElement);
printf("Number of elements processed = %li\n", global_numProcess);
fflush(stdout);
#if 0
bool_t isSuccess = mesh_check(global_meshPtr, finalNumElement);
#else
bool_t isSuccess = TRUE;
#endif
printf("Final mesh is %s\n", (isSuccess ? "valid." : "INVALID!"));
fflush(stdout);
assert(isSuccess);
/*
* TODO: deallocate mesh and work heap
*/
TM_SHUTDOWN();
P_MEMORY_SHUTDOWN();
GOTO_SIM();
thread_shutdown();
MAIN_RETURN(0);
}
/* =============================================================================
* main
* =============================================================================
*/
int main (int argc, char** argv)
{
/*
* Initialization
*/
parseArgs(argc, (char** const)argv);
thread_startup(global_numThread);
global_meshPtr = mesh_alloc();
assert(global_meshPtr);
printf("Angle constraint = %lf\n", global_angleConstraint);
printf("Reading input... ");
long initNumElement = mesh_read(global_meshPtr, global_inputPrefix);
puts("done.");
global_workHeapPtr = heap_alloc(1, &element_heapCompare);
assert(global_workHeapPtr);
long initNumBadElement = initializeWork(global_workHeapPtr, global_meshPtr);
printf("Initial number of mesh elements = %li\n", initNumElement);
printf("Initial number of bad elements = %li\n", initNumBadElement);
printf("Starting triangulation...");
fflush(stdout);
/*
* Run benchmark
*/
TIMER_T start;
TIMER_READ(start);
#ifdef OTM
#pragma omp parallel
{
process();
}
#else
thread_start(process, NULL);
#endif
TIMER_T stop;
TIMER_READ(stop);
puts(" done.");
printf("Time = %0.3lf\n",
TIMER_DIFF_SECONDS(start, stop));
fflush(stdout);
/*
* Check solution
*/
long finalNumElement = initNumElement + global_totalNumAdded;
printf("Final mesh size = %li\n", finalNumElement);
printf("Number of elements processed = %li\n", global_numProcess);
fflush(stdout);
#if 0
bool_t isSuccess = mesh_check(global_meshPtr, finalNumElement);
#else
bool_t isSuccess = TRUE;
#endif
printf("Final mesh is %s\n", (isSuccess ? "valid." : "INVALID!"));
fflush(stdout);
assert(isSuccess);
/*
* TODO: deallocate mesh and work heap
*/
thread_shutdown();
return 0;
}
