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5efc27c249
Since r327420, the tool can query the MCSchedModel interface to obtain the reciprocal throughput information. As a consequence, method `ResourceManager::getRThroughput`, and method `Backend::getRThroughput` are no longer needed. This patch simplifies the code by removing the custom RThroughput computation. This patch also refactors class SummaryView by removing the dependency with the Backend object. No functional change intended. llvm-svn: 327425
139 lines
5.1 KiB
C++
139 lines
5.1 KiB
C++
//===--------------------- Backend.h ----------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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/// \file
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///
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/// This file implements an OoO backend for the llvm-mca tool.
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_TOOLS_LLVM_MCA_BACKEND_H
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#define LLVM_TOOLS_LLVM_MCA_BACKEND_H
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#include "Dispatch.h"
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#include "InstrBuilder.h"
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#include "Scheduler.h"
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#include "SourceMgr.h"
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namespace mca {
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class HWEventListener;
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class HWInstructionEvent;
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/// \brief An out of order backend for a specific subtarget.
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///
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/// It emulates an out-of-order execution of instructions. Instructions are
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/// fetched from a MCInst sequence managed by an object of class SourceMgr.
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/// Instructions are firstly dispatched to the schedulers and then executed.
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/// This class tracks the lifetime of an instruction from the moment where
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/// it gets dispatched to the schedulers, to the moment where it finishes
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/// executing and register writes are architecturally committed.
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/// In particular, it monitors changes in the state of every instruction
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/// in flight.
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/// Instructions are executed in a loop of iterations. The number of iterations
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/// is defined by the SourceMgr object.
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/// The Backend entrypoint is method 'Run()' which execute cycles in a loop
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/// until there are new instructions to dispatch, and not every instruction
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/// has been retired.
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/// Internally, the Backend collects statistical information in the form of
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/// histograms. For example, it tracks how the dispatch group size changes
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/// over time.
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class Backend {
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const llvm::MCSubtargetInfo &STI;
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std::unique_ptr<InstrBuilder> IB;
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std::unique_ptr<Scheduler> HWS;
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std::unique_ptr<DispatchUnit> DU;
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SourceMgr &SM;
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unsigned Cycles;
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llvm::DenseMap<unsigned, std::unique_ptr<Instruction>> Instructions;
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std::set<HWEventListener *> Listeners;
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void runCycle(unsigned Cycle);
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public:
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Backend(const llvm::MCSubtargetInfo &Subtarget, const llvm::MCInstrInfo &MCII,
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const llvm::MCRegisterInfo &MRI, SourceMgr &Source,
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unsigned DispatchWidth = 0, unsigned RegisterFileSize = 0,
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unsigned MaxRetirePerCycle = 0, unsigned LoadQueueSize = 0,
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unsigned StoreQueueSize = 0, bool AssumeNoAlias = false)
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: STI(Subtarget),
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HWS(llvm::make_unique<Scheduler>(this, Subtarget.getSchedModel(),
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LoadQueueSize, StoreQueueSize,
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AssumeNoAlias)),
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DU(llvm::make_unique<DispatchUnit>(
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this, MRI, Subtarget.getSchedModel().MicroOpBufferSize,
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RegisterFileSize, MaxRetirePerCycle, DispatchWidth, HWS.get())),
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SM(Source), Cycles(0) {
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IB = llvm::make_unique<InstrBuilder>(MCII, HWS->getProcResourceMasks());
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HWS->setDispatchUnit(DU.get());
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}
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void run() {
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while (SM.hasNext() || !DU->isRCUEmpty())
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runCycle(Cycles++);
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}
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unsigned getNumIterations() const { return SM.getNumIterations(); }
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unsigned getNumInstructions() const { return SM.size(); }
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const Instruction &getInstruction(unsigned Index) const {
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const auto It = Instructions.find(Index);
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assert(It != Instructions.end() && "no running instructions with index");
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assert(It->second);
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return *It->second;
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}
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void eraseInstruction(unsigned Index) { Instructions.erase(Index); }
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unsigned getNumCycles() const { return Cycles; }
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unsigned getTotalRegisterMappingsCreated() const {
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return DU->getTotalRegisterMappingsCreated();
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}
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unsigned getMaxUsedRegisterMappings() const {
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return DU->getMaxUsedRegisterMappings();
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}
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unsigned getDispatchWidth() const { return DU->getDispatchWidth(); }
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const llvm::MCSubtargetInfo &getSTI() const { return STI; }
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const llvm::MCSchedModel &getSchedModel() const {
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return STI.getSchedModel();
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}
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void getBuffersUsage(std::vector<BufferUsageEntry> &Usage) const {
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return HWS->getBuffersUsage(Usage);
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}
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unsigned getNumRATStalls() const { return DU->getNumRATStalls(); }
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unsigned getNumRCUStalls() const { return DU->getNumRCUStalls(); }
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unsigned getNumSQStalls() const { return DU->getNumSQStalls(); }
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unsigned getNumLDQStalls() const { return DU->getNumLDQStalls(); }
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unsigned getNumSTQStalls() const { return DU->getNumSTQStalls(); }
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unsigned getNumDispatchGroupStalls() const {
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return DU->getNumDispatchGroupStalls();
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}
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const llvm::MCInst &getMCInstFromIndex(unsigned Index) const {
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return SM.getMCInstFromIndex(Index);
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}
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const InstrDesc &getInstrDesc(const llvm::MCInst &Inst) const {
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return IB->getOrCreateInstrDesc(STI, Inst);
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}
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const SourceMgr &getSourceMgr() const { return SM; }
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void addEventListener(HWEventListener *Listener);
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void notifyCycleBegin(unsigned Cycle);
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void notifyInstructionEvent(const HWInstructionEvent &Event);
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void notifyResourceAvailable(const ResourceRef &RR);
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void notifyCycleEnd(unsigned Cycle);
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};
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} // namespace mca
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#endif
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