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MI-Sched: Model "reserved" processor resources.
This allows a target to use MI-Sched as an in-order scheduler that will model strict resource conflicts without defining a processor itinerary. Instead, the target can now use the new per-operand machine model and define in-order resources with BufferSize=0. For example, this would allow restricting the type of operations that can be formed into a dispatch group. (Normally NumMicroOps is sufficient to enforce dispatch groups). If the intent is to model latency in in-order pipeline, as opposed to resource conflicts, then a resource with BufferSize=1 should be defined instead. This feature is only casually tested as there are no in-tree targets using it yet. However, Hal will be experimenting with POWER7. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@196517 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -292,7 +292,8 @@ namespace llvm {
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bool isScheduleHigh : 1; // True if preferable to schedule high.
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bool isScheduleLow : 1; // True if preferable to schedule low.
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bool isCloned : 1; // True if this node has been cloned.
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bool isUnbuffered : 1; // Reads an unbuffered resource.
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bool isUnbuffered : 1; // Uses an unbuffered resource.
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bool hasReservedResource : 1; // Uses a reserved resource.
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Sched::Preference SchedulingPref; // Scheduling preference.
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private:
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@ -318,9 +319,9 @@ namespace llvm {
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hasPhysRegDefs(false), hasPhysRegClobbers(false), isPending(false),
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isAvailable(false), isScheduled(false), isScheduleHigh(false),
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isScheduleLow(false), isCloned(false), isUnbuffered(false),
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SchedulingPref(Sched::None), isDepthCurrent(false),
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isHeightCurrent(false), Depth(0), Height(0), TopReadyCycle(0),
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BotReadyCycle(0), CopyDstRC(NULL), CopySrcRC(NULL) {}
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hasReservedResource(false), SchedulingPref(Sched::None),
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isDepthCurrent(false), isHeightCurrent(false), Depth(0), Height(0),
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TopReadyCycle(0), BotReadyCycle(0), CopyDstRC(NULL), CopySrcRC(NULL) {}
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/// SUnit - Construct an SUnit for post-regalloc scheduling to represent
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/// a MachineInstr.
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@ -333,9 +334,9 @@ namespace llvm {
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hasPhysRegDefs(false), hasPhysRegClobbers(false), isPending(false),
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isAvailable(false), isScheduled(false), isScheduleHigh(false),
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isScheduleLow(false), isCloned(false), isUnbuffered(false),
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SchedulingPref(Sched::None), isDepthCurrent(false),
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isHeightCurrent(false), Depth(0), Height(0), TopReadyCycle(0),
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BotReadyCycle(0), CopyDstRC(NULL), CopySrcRC(NULL) {}
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hasReservedResource(false), SchedulingPref(Sched::None),
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isDepthCurrent(false), isHeightCurrent(false), Depth(0), Height(0),
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TopReadyCycle(0), BotReadyCycle(0), CopyDstRC(NULL), CopySrcRC(NULL) {}
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/// SUnit - Construct a placeholder SUnit.
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SUnit()
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@ -347,9 +348,9 @@ namespace llvm {
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hasPhysRegDefs(false), hasPhysRegClobbers(false), isPending(false),
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isAvailable(false), isScheduled(false), isScheduleHigh(false),
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isScheduleLow(false), isCloned(false), isUnbuffered(false),
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SchedulingPref(Sched::None), isDepthCurrent(false),
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isHeightCurrent(false), Depth(0), Height(0), TopReadyCycle(0),
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BotReadyCycle(0), CopyDstRC(NULL), CopySrcRC(NULL) {}
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hasReservedResource(false), SchedulingPref(Sched::None),
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isDepthCurrent(false), isHeightCurrent(false), Depth(0), Height(0),
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TopReadyCycle(0), BotReadyCycle(0), CopyDstRC(NULL), CopySrcRC(NULL) {}
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/// \brief Boundary nodes are placeholders for the boundary of the
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/// scheduling region.
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@ -1322,6 +1322,8 @@ void CopyConstrain::apply(ScheduleDAGMI *DAG) {
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// GenericScheduler - Implementation of the generic MachineSchedStrategy.
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//===----------------------------------------------------------------------===//
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static const unsigned InvalidCycle = ~0U;
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namespace {
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/// GenericScheduler shrinks the unscheduled zone using heuristics to balance
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/// the schedule.
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@ -1491,6 +1493,10 @@ public:
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// Is the scheduled region resource limited vs. latency limited.
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bool IsResourceLimited;
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// Record the highest cycle at which each resource has been reserved by a
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// scheduled instruction.
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SmallVector<unsigned, 16> ReservedCycles;
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#ifndef NDEBUG
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// Remember the greatest operand latency as an upper bound on the number of
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// times we should retry the pending queue because of a hazard.
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@ -1518,6 +1524,7 @@ public:
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MaxExecutedResCount = 0;
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ZoneCritResIdx = 0;
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IsResourceLimited = false;
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ReservedCycles.clear();
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#ifndef NDEBUG
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MaxObservedLatency = 0;
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#endif
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@ -1587,6 +1594,8 @@ public:
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/// cycle.
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unsigned getLatencyStallCycles(SUnit *SU);
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unsigned getNextResourceCycle(unsigned PIdx, unsigned Cycles);
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bool checkHazard(SUnit *SU);
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unsigned findMaxLatency(ArrayRef<SUnit*> ReadySUs);
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@ -1708,8 +1717,10 @@ init(ScheduleDAGMI *dag, const TargetSchedModel *smodel, SchedRemainder *rem) {
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DAG = dag;
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SchedModel = smodel;
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Rem = rem;
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if (SchedModel->hasInstrSchedModel())
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if (SchedModel->hasInstrSchedModel()) {
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ExecutedResCounts.resize(SchedModel->getNumProcResourceKinds());
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ReservedCycles.resize(SchedModel->getNumProcResourceKinds(), InvalidCycle);
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}
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}
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/// Initialize the per-region scheduling policy.
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@ -1890,6 +1901,20 @@ unsigned GenericScheduler::SchedBoundary::getLatencyStallCycles(SUnit *SU) {
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return 0;
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}
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/// Compute the next cycle at which the given processor resource can be
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/// scheduled.
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unsigned GenericScheduler::SchedBoundary::
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getNextResourceCycle(unsigned PIdx, unsigned Cycles) {
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unsigned NextUnreserved = ReservedCycles[PIdx];
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// If this resource has never been used, always return cycle zero.
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if (NextUnreserved == InvalidCycle)
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return 0;
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// For bottom-up scheduling add the cycles needed for the current operation.
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if (!isTop())
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NextUnreserved += Cycles;
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return NextUnreserved;
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}
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/// Does this SU have a hazard within the current instruction group.
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///
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/// The scheduler supports two modes of hazard recognition. The first is the
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@ -1913,6 +1938,15 @@ bool GenericScheduler::SchedBoundary::checkHazard(SUnit *SU) {
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<< SchedModel->getNumMicroOps(SU->getInstr()) << '\n');
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return true;
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}
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if (SchedModel->hasInstrSchedModel() && SU->hasReservedResource) {
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const MCSchedClassDesc *SC = DAG->getSchedClass(SU);
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for (TargetSchedModel::ProcResIter
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PI = SchedModel->getWriteProcResBegin(SC),
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PE = SchedModel->getWriteProcResEnd(SC); PI != PE; ++PI) {
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if (getNextResourceCycle(PI->ProcResourceIdx, PI->Cycles) > CurrCycle)
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return true;
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}
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}
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return false;
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}
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@ -2097,7 +2131,7 @@ void GenericScheduler::SchedBoundary::incExecutedResources(unsigned PIdx,
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/// \return the next cycle at which the instruction may execute without
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/// oversubscribing resources.
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unsigned GenericScheduler::SchedBoundary::
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countResource(unsigned PIdx, unsigned Cycles, unsigned ReadyCycle) {
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countResource(unsigned PIdx, unsigned Cycles, unsigned NextCycle) {
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unsigned Factor = SchedModel->getResourceFactor(PIdx);
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unsigned Count = Factor * Cycles;
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DEBUG(dbgs() << " " << getResourceName(PIdx)
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@ -2116,8 +2150,14 @@ countResource(unsigned PIdx, unsigned Cycles, unsigned ReadyCycle) {
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<< getResourceName(PIdx) << ": "
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<< getResourceCount(PIdx) / SchedModel->getLatencyFactor() << "c\n");
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}
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// TODO: We don't yet model reserved resources. It's not hard though.
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return CurrCycle;
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// For reserved resources, record the highest cycle using the resource.
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unsigned NextAvailable = getNextResourceCycle(PIdx, Cycles);
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if (NextAvailable > CurrCycle) {
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DEBUG(dbgs() << " Resource conflict: "
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<< SchedModel->getProcResource(PIdx)->Name << " reserved until @"
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<< NextAvailable << "\n");
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}
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return NextAvailable;
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}
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/// Move the boundary of scheduled code by one SUnit.
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@ -2131,25 +2171,17 @@ void GenericScheduler::SchedBoundary::bumpNode(SUnit *SU) {
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}
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HazardRec->EmitInstruction(SU);
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}
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// checkHazard should prevent scheduling multiple instructions per cycle that
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// exceed the issue width.
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const MCSchedClassDesc *SC = DAG->getSchedClass(SU);
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unsigned IncMOps = SchedModel->getNumMicroOps(SU->getInstr());
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CurrMOps += IncMOps;
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// checkHazard prevents scheduling multiple instructions per cycle that exceed
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// issue width. However, we commonly reach the maximum. In this case
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// opportunistically bump the cycle to avoid uselessly checking everything in
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// the readyQ. Furthermore, a single instruction may produce more than one
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// cycle's worth of micro-ops.
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//
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// TODO: Also check if this SU must end a dispatch group.
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unsigned NextCycle = CurrCycle;
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if (CurrMOps >= SchedModel->getIssueWidth()) {
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++NextCycle;
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DEBUG(dbgs() << " *** Max MOps " << CurrMOps
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<< " at cycle " << CurrCycle << '\n');
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}
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assert(CurrMOps == 0 || (CurrMOps + IncMOps) <= SchedModel->getIssueWidth() &&
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"Cannot scheduling this instructions MicroOps in the current cycle.");
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unsigned ReadyCycle = (isTop() ? SU->TopReadyCycle : SU->BotReadyCycle);
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DEBUG(dbgs() << " Ready @" << ReadyCycle << "c\n");
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unsigned NextCycle = CurrCycle;
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switch (SchedModel->getMicroOpBufferSize()) {
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case 0:
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assert(ReadyCycle <= CurrCycle && "Broken PendingQueue");
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@ -2194,10 +2226,23 @@ void GenericScheduler::SchedBoundary::bumpNode(SUnit *SU) {
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PI = SchedModel->getWriteProcResBegin(SC),
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PE = SchedModel->getWriteProcResEnd(SC); PI != PE; ++PI) {
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unsigned RCycle =
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countResource(PI->ProcResourceIdx, PI->Cycles, ReadyCycle);
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countResource(PI->ProcResourceIdx, PI->Cycles, NextCycle);
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if (RCycle > NextCycle)
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NextCycle = RCycle;
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}
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if (SU->hasReservedResource) {
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// For reserved resources, record the highest cycle using the resource.
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// For top-down scheduling, this is the cycle in which we schedule this
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// instruction plus the number of cycles the operations reserves the
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// resource. For bottom-up is it simply the instruction's cycle.
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for (TargetSchedModel::ProcResIter
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PI = SchedModel->getWriteProcResBegin(SC),
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PE = SchedModel->getWriteProcResEnd(SC); PI != PE; ++PI) {
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unsigned PIdx = PI->ProcResourceIdx;
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if (SchedModel->getProcResource(PIdx)->BufferSize == 0)
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ReservedCycles[PIdx] = isTop() ? NextCycle + PI->Cycles : NextCycle;
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}
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}
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}
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// Update ExpectedLatency and DependentLatency.
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unsigned &TopLatency = isTop() ? ExpectedLatency : DependentLatency;
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@ -2224,6 +2269,16 @@ void GenericScheduler::SchedBoundary::bumpNode(SUnit *SU) {
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(int)(getCriticalCount() - (getScheduledLatency() * LFactor))
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> (int)LFactor;
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}
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// Update CurrMOps after calling bumpCycle to handle stalls, since bumpCycle
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// resets CurrMOps. Loop to handle instructions with more MOps than issue in
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// one cycle. Since we commonly reach the max MOps here, opportunistically
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// bump the cycle to avoid uselessly checking everything in the readyQ.
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CurrMOps += IncMOps;
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while (CurrMOps >= SchedModel->getIssueWidth()) {
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bumpCycle(++NextCycle);
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DEBUG(dbgs() << " *** Max MOps " << CurrMOps
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<< " at cycle " << CurrCycle << '\n');
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}
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DEBUG(dumpScheduledState());
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}
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for (TargetSchedModel::ProcResIter
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PI = SchedModel.getWriteProcResBegin(SC),
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PE = SchedModel.getWriteProcResEnd(SC); PI != PE; ++PI) {
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if (SchedModel.getProcResource(PI->ProcResourceIdx)->BufferSize == 1) {
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switch (SchedModel.getProcResource(PI->ProcResourceIdx)->BufferSize) {
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case 0:
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SU->hasReservedResource = true;
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break;
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case 1:
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SU->isUnbuffered = true;
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break;
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default:
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break;
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}
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}
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}
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