//===----------------------- LSUnit.cpp --------------------------*- C++-*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// /// \file /// /// A Load-Store Unit for the llvm-mca tool. /// //===----------------------------------------------------------------------===// #include "llvm/MCA/HardwareUnits/LSUnit.h" #include "llvm/MCA/Instruction.h" #include "llvm/Support/Debug.h" #include "llvm/Support/raw_ostream.h" #define DEBUG_TYPE "llvm-mca" namespace llvm { namespace mca { LSUnit::LSUnit(const MCSchedModel &SM, unsigned LQ, unsigned SQ, bool AssumeNoAlias) : LQ_Size(LQ), SQ_Size(SQ), NoAlias(AssumeNoAlias) { if (SM.hasExtraProcessorInfo()) { const MCExtraProcessorInfo &EPI = SM.getExtraProcessorInfo(); if (!LQ_Size && EPI.LoadQueueID) { const MCProcResourceDesc &LdQDesc = *SM.getProcResource(EPI.LoadQueueID); LQ_Size = LdQDesc.BufferSize; } if (!SQ_Size && EPI.StoreQueueID) { const MCProcResourceDesc &StQDesc = *SM.getProcResource(EPI.StoreQueueID); SQ_Size = StQDesc.BufferSize; } } } #ifndef NDEBUG void LSUnit::dump() const { dbgs() << "[LSUnit] LQ_Size = " << LQ_Size << '\n'; dbgs() << "[LSUnit] SQ_Size = " << SQ_Size << '\n'; dbgs() << "[LSUnit] NextLQSlotIdx = " << LoadQueue.size() << '\n'; dbgs() << "[LSUnit] NextSQSlotIdx = " << StoreQueue.size() << '\n'; } #endif void LSUnit::assignLQSlot(unsigned Index) { assert(!isLQFull()); assert(LoadQueue.count(Index) == 0); LLVM_DEBUG(dbgs() << "[LSUnit] - AssignLQSlot \n"); LoadQueue.insert(Index); } void LSUnit::assignSQSlot(unsigned Index) { assert(!isSQFull()); assert(StoreQueue.count(Index) == 0); LLVM_DEBUG(dbgs() << "[LSUnit] - AssignSQSlot \n"); StoreQueue.insert(Index); } void LSUnit::dispatch(const InstRef &IR) { const InstrDesc &Desc = IR.getInstruction()->getDesc(); unsigned IsMemBarrier = Desc.HasSideEffects; assert((Desc.MayLoad || Desc.MayStore) && "Not a memory operation!"); const unsigned Index = IR.getSourceIndex(); if (Desc.MayLoad) { if (IsMemBarrier) LoadBarriers.insert(Index); assignLQSlot(Index); } if (Desc.MayStore) { if (IsMemBarrier) StoreBarriers.insert(Index); assignSQSlot(Index); } } LSUnit::Status LSUnit::isAvailable(const InstRef &IR) const { const InstrDesc &Desc = IR.getInstruction()->getDesc(); if (Desc.MayLoad && isLQFull()) return LSUnit::LSU_LQUEUE_FULL; if (Desc.MayStore && isSQFull()) return LSUnit::LSU_SQUEUE_FULL; return LSUnit::LSU_AVAILABLE; } unsigned LSUnit::isReady(const InstRef &IR) const { const InstrDesc &Desc = IR.getInstruction()->getDesc(); const unsigned Index = IR.getSourceIndex(); bool IsALoad = Desc.MayLoad; bool IsAStore = Desc.MayStore; assert((IsALoad || IsAStore) && "Not a memory operation!"); assert((!IsALoad || LoadQueue.count(Index) == 1) && "Load not in queue!"); assert((!IsAStore || StoreQueue.count(Index) == 1) && "Store not in queue!"); if (IsALoad && !LoadBarriers.empty()) { unsigned LoadBarrierIndex = *LoadBarriers.begin(); // A younger load cannot pass a older load barrier. if (Index > LoadBarrierIndex) return LoadBarrierIndex; // A load barrier cannot pass a older load. if (Index == LoadBarrierIndex && Index != *LoadQueue.begin()) return *LoadQueue.begin(); } if (IsAStore && !StoreBarriers.empty()) { unsigned StoreBarrierIndex = *StoreBarriers.begin(); // A younger store cannot pass a older store barrier. if (Index > StoreBarrierIndex) return StoreBarrierIndex; // A store barrier cannot pass a older store. if (Index == StoreBarrierIndex && Index != *StoreQueue.begin()) return *StoreQueue.begin(); } // A load may not pass a previous store unless flag 'NoAlias' is set. // A load may pass a previous load. if (NoAlias && IsALoad) return Index; if (StoreQueue.size()) { // A load may not pass a previous store. // A store may not pass a previous store. if (Index > *StoreQueue.begin()) return *StoreQueue.begin(); } // Okay, we are older than the oldest store in the queue. // If there are no pending loads, then we can say for sure that this // instruction is ready. if (isLQEmpty()) return Index; // Check if there are no older loads. if (Index <= *LoadQueue.begin()) return Index; // There is at least one younger load. // // A load may pass a previous load. if (IsALoad) return Index; // A store may not pass a previous load. return *LoadQueue.begin(); } void LSUnit::onInstructionExecuted(const InstRef &IR) { const InstrDesc &Desc = IR.getInstruction()->getDesc(); const unsigned Index = IR.getSourceIndex(); bool IsALoad = Desc.MayLoad; bool IsAStore = Desc.MayStore; if (IsALoad) { if (LoadQueue.erase(Index)) { LLVM_DEBUG(dbgs() << "[LSUnit]: Instruction idx=" << Index << " has been removed from the load queue.\n"); } if (!LoadBarriers.empty() && Index == *LoadBarriers.begin()) { LLVM_DEBUG( dbgs() << "[LSUnit]: Instruction idx=" << Index << " has been removed from the set of load barriers.\n"); LoadBarriers.erase(Index); } } if (IsAStore) { if (StoreQueue.erase(Index)) { LLVM_DEBUG(dbgs() << "[LSUnit]: Instruction idx=" << Index << " has been removed from the store queue.\n"); } if (!StoreBarriers.empty() && Index == *StoreBarriers.begin()) { LLVM_DEBUG( dbgs() << "[LSUnit]: Instruction idx=" << Index << " has been removed from the set of store barriers.\n"); StoreBarriers.erase(Index); } } } } // namespace mca } // namespace llvm