void GStatsEnergy::printDump(int32_t procId)
{
I((uint32_t)procId < eProcStore.size());
// dump values
for(size_t i=0;i<eProcStore[procId].size();i++) {
GStatsEnergy *e = eProcStore[procId][i];
double pwr = EnergyMgr::etop(e->getDouble());
ReportTherm::fieldRaw(pwr);
}
}
double GStatsEnergy::getTotalProc(int32_t procId)
{
double total=0;
I((uint32_t)procId < eProcStore.size());
for(size_t i=0;i<eProcStore[procId].size();i++) {
GStatsEnergy *e = eProcStore[procId][i];
total += e->getDouble();
}
return total;
}
void GStatsEnergy::setupDump(int procId)
{
I((unsigned int)procId < eProcStore.size());
//ReportTherm::field("%d\n", eProcStore[procId].size());
for (size_t i = 0; i < eProcStore[procId].size(); i++) {
GStatsEnergy *e = eProcStore[procId][i];
double pwr = EnergyMgr::etop(e->getDouble());
EnergyGroup eg = static_cast<EnergyGroup>(e->getGid()) ;
PowerGroup pg = EnergyStore::getPowerGroup(eg);
ReportTherm::field("%s\t", e->name);
}
}
void GStatsEnergy::dump(int32_t procId)
{
double pVals[MaxPowerGroup];
for(int32_t c=0; c < MaxPowerGroup; c++)
pVals[c] = 0.0;
I((uint32_t)procId < eProcStore.size());
// calculate the values
for(size_t i=0;i<eProcStore[procId].size();i++) {
GStatsEnergy *e = eProcStore[procId][i];
pVals[e->getGid()] += EnergyMgr::etop(e->getDouble());
}
// dump the values
for(int32_t j=1; j < ClockPower;j++)
Report::field("Proc(%d):%s=%g",procId, EnergyStore::getStr(static_cast<PowerGroup>(j)), pVals[j]);
}
void GStatsEnergy::setupDump(int32_t procId)
{
I((uint32_t)procId < eProcStore.size());
for (size_t i = 0; i < eProcStore[procId].size(); i++) {
GStatsEnergy *e = eProcStore[procId][i];
ReportTherm::field("%s\t", e->name);
}
ReportTherm::field("\n");
#if 0
for (size_t i = 0; i < eProcStore[procId].size(); i++) {
GStatsEnergy *e = eProcStore[procId][i];
e->inc(); // charge unit energy to compute power densities
double pwr = EnergyMgr::etop(e->getDouble());
ReportTherm::field("%g\t", pwr);
}
ReportTherm::field("\n");
#endif
}
void GStatsEnergy::printDump(int procId, int cycle)
{
double pVals[MaxPowerGroup];
for(int c=0; c < MaxPowerGroup; c++)
pVals[c] = 0.0;
I((unsigned int)procId < eProcStore.size());
// calculate the values
for(size_t i=0;i<eProcStore[procId].size();i++) {
GStatsEnergy *e = eProcStore[procId][i];
double pwr = EnergyMgr::etop(e->getDouble());
EnergyGroup eg = static_cast<EnergyGroup>(e->getGid()) ;
// change 11/29/04 DVDB
PowerGroup pg = EnergyStore::getPowerGroup(eg);
ReportTherm::field("%f\t", EnergyMgr::etop(e->getDouble()));
pVals[static_cast<unsigned int>(pg)] += pwr;
}
}
