void CoreRecorder::recordAccess(uint64_t startCycle) { assert(eventRecorder.hasRecord()); TimingRecord tr = eventRecorder.popRecord(); TimingEvent* origPrevResp = prevRespEvent; assert(startCycle >= prevRespCycle); assert(tr.reqCycle >= startCycle); if (IsGet(tr.type)) { uint64_t delay = tr.reqCycle - prevRespCycle; TimingEvent* ev = new (eventRecorder) TimingCoreEvent(delay, prevRespCycle - gapCycles, this); ev->setMinStartCycle(prevRespCycle); prevRespEvent->addChild(ev, eventRecorder)->addChild(tr.startEvent, eventRecorder); prevRespEvent = tr.endEvent; prevRespCycle = tr.respCycle; assert(prevRespEvent); } else { assert(IsPut(tr.type)); // Link previous response and this req directly (don't even create a new event) DelayEvent* dr = new (eventRecorder) DelayEvent(tr.reqCycle - prevRespCycle); dr->setMinStartCycle(prevRespCycle); prevRespEvent->addChild(dr, eventRecorder)->addChild(tr.startEvent, eventRecorder); //tr.endEvent not linked to anything, it's a PUT } origPrevResp->produceCrossings(&eventRecorder); eventRecorder.getCrossingStack().clear(); }
void CoreRecorder::recordAccess(uint64_t startCycle) { assert(eventRecorder.numRecords() <= 2); TimingRecord tr = eventRecorder.getRecord(0); TimingEvent* origPrevResp = prevRespEvent; if (tr.type == PUTS || tr.type == PUTX) { //info("Handling PUT+GET"); assert(eventRecorder.numRecords() == 2); TimingRecord tr1 = eventRecorder.getRecord(1); assert(tr1.type == GETX || tr1.type == GETS); assert(startCycle >= prevRespCycle); assert(tr1.reqCycle >= startCycle); assert(tr.reqCycle >= startCycle); uint64_t delay = startCycle - prevRespCycle; TimingCoreEvent* ev = new (eventRecorder) TimingCoreEvent(delay, prevRespCycle - gapCycles, this); ev->setMinStartCycle(prevRespCycle); prevRespEvent->addChild(ev, eventRecorder); DelayEvent* dr = new (eventRecorder) DelayEvent(tr.reqCycle-startCycle); DelayEvent* dr1 = new (eventRecorder) DelayEvent(tr1.reqCycle-startCycle); dr->setMinStartCycle(startCycle); dr1->setMinStartCycle(startCycle); ev->addChild(dr, eventRecorder)->addChild(tr.startEvent, eventRecorder); ev->addChild(dr1, eventRecorder)->addChild(tr1.startEvent, eventRecorder); //tr.endEvent not linked to anything prevRespEvent = tr1.endEvent; prevRespCycle = tr1.respCycle; } else { //info("Handling single GET"); assert(tr.type == GETX || tr.type == GETS); assert(eventRecorder.numRecords() == 1); uint64_t delay = tr.reqCycle - prevRespCycle; TimingEvent* ev = new (eventRecorder) TimingCoreEvent(delay, prevRespCycle - gapCycles, this); ev->setMinStartCycle(prevRespCycle); prevRespEvent->addChild(ev, eventRecorder)->addChild(tr.startEvent, eventRecorder); prevRespEvent = tr.endEvent; prevRespCycle = tr.respCycle; } origPrevResp->produceCrossings(&eventRecorder); eventRecorder.getCrossingStack().clear(); eventRecorder.clearRecords(); }