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be4b8874f7
This avoids new warnings due to D68912 adds -Wrange-loop-analysis to -Wall. Differential Revision: https://reviews.llvm.org/D71857
365 lines
12 KiB
C++
365 lines
12 KiB
C++
//===--------------------- ResourceManager.cpp ------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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/// \file
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///
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/// The classes here represent processor resource units and their management
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/// strategy. These classes are managed by the Scheduler.
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///
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//===----------------------------------------------------------------------===//
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#include "llvm/MCA/HardwareUnits/ResourceManager.h"
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#include "llvm/MCA/Support.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/raw_ostream.h"
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namespace llvm {
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namespace mca {
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#define DEBUG_TYPE "llvm-mca"
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ResourceStrategy::~ResourceStrategy() = default;
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static uint64_t selectImpl(uint64_t CandidateMask,
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uint64_t &NextInSequenceMask) {
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// The upper bit set in CandidateMask identifies our next candidate resource.
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CandidateMask = 1ULL << getResourceStateIndex(CandidateMask);
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NextInSequenceMask &= (CandidateMask | (CandidateMask - 1));
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return CandidateMask;
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}
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uint64_t DefaultResourceStrategy::select(uint64_t ReadyMask) {
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// This method assumes that ReadyMask cannot be zero.
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uint64_t CandidateMask = ReadyMask & NextInSequenceMask;
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if (CandidateMask)
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return selectImpl(CandidateMask, NextInSequenceMask);
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NextInSequenceMask = ResourceUnitMask ^ RemovedFromNextInSequence;
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RemovedFromNextInSequence = 0;
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CandidateMask = ReadyMask & NextInSequenceMask;
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if (CandidateMask)
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return selectImpl(CandidateMask, NextInSequenceMask);
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NextInSequenceMask = ResourceUnitMask;
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CandidateMask = ReadyMask & NextInSequenceMask;
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return selectImpl(CandidateMask, NextInSequenceMask);
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}
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void DefaultResourceStrategy::used(uint64_t Mask) {
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if (Mask > NextInSequenceMask) {
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RemovedFromNextInSequence |= Mask;
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return;
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}
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NextInSequenceMask &= (~Mask);
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if (NextInSequenceMask)
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return;
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NextInSequenceMask = ResourceUnitMask ^ RemovedFromNextInSequence;
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RemovedFromNextInSequence = 0;
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}
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ResourceState::ResourceState(const MCProcResourceDesc &Desc, unsigned Index,
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uint64_t Mask)
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: ProcResourceDescIndex(Index), ResourceMask(Mask),
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BufferSize(Desc.BufferSize), IsAGroup(countPopulation(ResourceMask) > 1) {
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if (IsAGroup) {
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ResourceSizeMask =
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ResourceMask ^ 1ULL << getResourceStateIndex(ResourceMask);
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} else {
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ResourceSizeMask = (1ULL << Desc.NumUnits) - 1;
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}
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ReadyMask = ResourceSizeMask;
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AvailableSlots = BufferSize == -1 ? 0U : static_cast<unsigned>(BufferSize);
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Unavailable = false;
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}
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bool ResourceState::isReady(unsigned NumUnits) const {
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return (!isReserved() || isADispatchHazard()) &&
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countPopulation(ReadyMask) >= NumUnits;
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}
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ResourceStateEvent ResourceState::isBufferAvailable() const {
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if (isADispatchHazard() && isReserved())
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return RS_RESERVED;
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if (!isBuffered() || AvailableSlots)
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return RS_BUFFER_AVAILABLE;
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return RS_BUFFER_UNAVAILABLE;
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}
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#ifndef NDEBUG
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void ResourceState::dump() const {
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dbgs() << "MASK=" << format_hex(ResourceMask, 16)
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<< ", SZMASK=" << format_hex(ResourceSizeMask, 16)
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<< ", RDYMASK=" << format_hex(ReadyMask, 16)
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<< ", BufferSize=" << BufferSize
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<< ", AvailableSlots=" << AvailableSlots
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<< ", Reserved=" << Unavailable << '\n';
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}
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#endif
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static std::unique_ptr<ResourceStrategy>
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getStrategyFor(const ResourceState &RS) {
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if (RS.isAResourceGroup() || RS.getNumUnits() > 1)
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return std::make_unique<DefaultResourceStrategy>(RS.getReadyMask());
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return std::unique_ptr<ResourceStrategy>(nullptr);
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}
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ResourceManager::ResourceManager(const MCSchedModel &SM)
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: Resources(SM.getNumProcResourceKinds() - 1),
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Strategies(SM.getNumProcResourceKinds() - 1),
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Resource2Groups(SM.getNumProcResourceKinds() - 1, 0),
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ProcResID2Mask(SM.getNumProcResourceKinds(), 0),
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ResIndex2ProcResID(SM.getNumProcResourceKinds() - 1, 0),
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ProcResUnitMask(0), ReservedResourceGroups(0),
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AvailableBuffers(~0ULL), ReservedBuffers(0) {
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computeProcResourceMasks(SM, ProcResID2Mask);
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// initialize vector ResIndex2ProcResID.
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for (unsigned I = 1, E = SM.getNumProcResourceKinds(); I < E; ++I) {
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unsigned Index = getResourceStateIndex(ProcResID2Mask[I]);
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ResIndex2ProcResID[Index] = I;
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}
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for (unsigned I = 1, E = SM.getNumProcResourceKinds(); I < E; ++I) {
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uint64_t Mask = ProcResID2Mask[I];
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unsigned Index = getResourceStateIndex(Mask);
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Resources[Index] =
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std::make_unique<ResourceState>(*SM.getProcResource(I), I, Mask);
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Strategies[Index] = getStrategyFor(*Resources[Index]);
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}
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for (unsigned I = 1, E = SM.getNumProcResourceKinds(); I < E; ++I) {
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uint64_t Mask = ProcResID2Mask[I];
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unsigned Index = getResourceStateIndex(Mask);
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const ResourceState &RS = *Resources[Index];
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if (!RS.isAResourceGroup()) {
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ProcResUnitMask |= Mask;
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continue;
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}
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uint64_t GroupMaskIdx = 1ULL << Index;
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Mask -= GroupMaskIdx;
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while (Mask) {
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// Extract lowest set isolated bit.
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uint64_t Unit = Mask & (-Mask);
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unsigned IndexUnit = getResourceStateIndex(Unit);
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Resource2Groups[IndexUnit] |= GroupMaskIdx;
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Mask ^= Unit;
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}
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}
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AvailableProcResUnits = ProcResUnitMask;
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}
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void ResourceManager::setCustomStrategyImpl(std::unique_ptr<ResourceStrategy> S,
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uint64_t ResourceMask) {
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unsigned Index = getResourceStateIndex(ResourceMask);
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assert(Index < Resources.size() && "Invalid processor resource index!");
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assert(S && "Unexpected null strategy in input!");
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Strategies[Index] = std::move(S);
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}
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unsigned ResourceManager::resolveResourceMask(uint64_t Mask) const {
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return ResIndex2ProcResID[getResourceStateIndex(Mask)];
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}
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unsigned ResourceManager::getNumUnits(uint64_t ResourceID) const {
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return Resources[getResourceStateIndex(ResourceID)]->getNumUnits();
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}
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// Returns the actual resource consumed by this Use.
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// First, is the primary resource ID.
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// Second, is the specific sub-resource ID.
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ResourceRef ResourceManager::selectPipe(uint64_t ResourceID) {
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unsigned Index = getResourceStateIndex(ResourceID);
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assert(Index < Resources.size() && "Invalid resource use!");
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ResourceState &RS = *Resources[Index];
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assert(RS.isReady() && "No available units to select!");
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// Special case where RS is not a group, and it only declares a single
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// resource unit.
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if (!RS.isAResourceGroup() && RS.getNumUnits() == 1)
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return std::make_pair(ResourceID, RS.getReadyMask());
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uint64_t SubResourceID = Strategies[Index]->select(RS.getReadyMask());
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if (RS.isAResourceGroup())
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return selectPipe(SubResourceID);
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return std::make_pair(ResourceID, SubResourceID);
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}
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void ResourceManager::use(const ResourceRef &RR) {
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// Mark the sub-resource referenced by RR as used.
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unsigned RSID = getResourceStateIndex(RR.first);
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ResourceState &RS = *Resources[RSID];
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RS.markSubResourceAsUsed(RR.second);
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// Remember to update the resource strategy for non-group resources with
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// multiple units.
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if (RS.getNumUnits() > 1)
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Strategies[RSID]->used(RR.second);
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// If there are still available units in RR.first,
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// then we are done.
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if (RS.isReady())
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return;
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AvailableProcResUnits ^= RR.first;
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// Notify groups that RR.first is no longer available.
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uint64_t Users = Resource2Groups[RSID];
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while (Users) {
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// Extract lowest set isolated bit.
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unsigned GroupIndex = getResourceStateIndex(Users & (-Users));
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ResourceState &CurrentUser = *Resources[GroupIndex];
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CurrentUser.markSubResourceAsUsed(RR.first);
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Strategies[GroupIndex]->used(RR.first);
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// Reset lowest set bit.
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Users &= Users - 1;
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}
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}
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void ResourceManager::release(const ResourceRef &RR) {
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unsigned RSID = getResourceStateIndex(RR.first);
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ResourceState &RS = *Resources[RSID];
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bool WasFullyUsed = !RS.isReady();
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RS.releaseSubResource(RR.second);
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if (!WasFullyUsed)
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return;
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AvailableProcResUnits ^= RR.first;
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// Notify groups that RR.first is now available again.
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uint64_t Users = Resource2Groups[RSID];
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while (Users) {
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unsigned GroupIndex = getResourceStateIndex(Users & (-Users));
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ResourceState &CurrentUser = *Resources[GroupIndex];
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CurrentUser.releaseSubResource(RR.first);
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Users &= Users - 1;
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}
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}
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ResourceStateEvent
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ResourceManager::canBeDispatched(uint64_t ConsumedBuffers) const {
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if (ConsumedBuffers & ReservedBuffers)
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return ResourceStateEvent::RS_RESERVED;
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if (ConsumedBuffers & (~AvailableBuffers))
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return ResourceStateEvent::RS_BUFFER_UNAVAILABLE;
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return ResourceStateEvent::RS_BUFFER_AVAILABLE;
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}
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void ResourceManager::reserveBuffers(uint64_t ConsumedBuffers) {
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while (ConsumedBuffers) {
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uint64_t CurrentBuffer = ConsumedBuffers & (-ConsumedBuffers);
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ResourceState &RS = *Resources[getResourceStateIndex(CurrentBuffer)];
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ConsumedBuffers ^= CurrentBuffer;
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assert(RS.isBufferAvailable() == ResourceStateEvent::RS_BUFFER_AVAILABLE);
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if (!RS.reserveBuffer())
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AvailableBuffers ^= CurrentBuffer;
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if (RS.isADispatchHazard()) {
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// Reserve this buffer now, and release it once pipeline resources
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// consumed by the instruction become available again.
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// We do this to simulate an in-order dispatch/issue of instructions.
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ReservedBuffers ^= CurrentBuffer;
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}
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}
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}
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void ResourceManager::releaseBuffers(uint64_t ConsumedBuffers) {
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AvailableBuffers |= ConsumedBuffers;
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while (ConsumedBuffers) {
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uint64_t CurrentBuffer = ConsumedBuffers & (-ConsumedBuffers);
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ResourceState &RS = *Resources[getResourceStateIndex(CurrentBuffer)];
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ConsumedBuffers ^= CurrentBuffer;
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RS.releaseBuffer();
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// Do not unreserve dispatch hazard resource buffers. Wait until all
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// pipeline resources have been freed too.
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}
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}
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uint64_t ResourceManager::checkAvailability(const InstrDesc &Desc) const {
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uint64_t BusyResourceMask = 0;
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for (const std::pair<uint64_t, ResourceUsage> &E : Desc.Resources) {
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unsigned NumUnits = E.second.isReserved() ? 0U : E.second.NumUnits;
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unsigned Index = getResourceStateIndex(E.first);
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if (!Resources[Index]->isReady(NumUnits))
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BusyResourceMask |= E.first;
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}
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BusyResourceMask &= ProcResUnitMask;
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if (BusyResourceMask)
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return BusyResourceMask;
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return Desc.UsedProcResGroups & ReservedResourceGroups;
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}
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void ResourceManager::issueInstruction(
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const InstrDesc &Desc,
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SmallVectorImpl<std::pair<ResourceRef, ResourceCycles>> &Pipes) {
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for (const std::pair<uint64_t, ResourceUsage> &R : Desc.Resources) {
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const CycleSegment &CS = R.second.CS;
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if (!CS.size()) {
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releaseResource(R.first);
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continue;
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}
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assert(CS.begin() == 0 && "Invalid {Start, End} cycles!");
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if (!R.second.isReserved()) {
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ResourceRef Pipe = selectPipe(R.first);
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use(Pipe);
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BusyResources[Pipe] += CS.size();
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Pipes.emplace_back(std::pair<ResourceRef, ResourceCycles>(
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Pipe, ResourceCycles(CS.size())));
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} else {
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assert((countPopulation(R.first) > 1) && "Expected a group!");
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// Mark this group as reserved.
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assert(R.second.isReserved());
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reserveResource(R.first);
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BusyResources[ResourceRef(R.first, R.first)] += CS.size();
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}
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}
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}
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void ResourceManager::cycleEvent(SmallVectorImpl<ResourceRef> &ResourcesFreed) {
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for (std::pair<ResourceRef, unsigned> &BR : BusyResources) {
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if (BR.second)
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BR.second--;
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if (!BR.second) {
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// Release this resource.
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const ResourceRef &RR = BR.first;
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if (countPopulation(RR.first) == 1)
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release(RR);
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releaseResource(RR.first);
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ResourcesFreed.push_back(RR);
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}
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}
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for (const ResourceRef &RF : ResourcesFreed)
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BusyResources.erase(RF);
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}
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void ResourceManager::reserveResource(uint64_t ResourceID) {
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const unsigned Index = getResourceStateIndex(ResourceID);
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ResourceState &Resource = *Resources[Index];
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assert(Resource.isAResourceGroup() && !Resource.isReserved() &&
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"Unexpected resource state found!");
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Resource.setReserved();
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ReservedResourceGroups ^= 1ULL << Index;
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}
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void ResourceManager::releaseResource(uint64_t ResourceID) {
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const unsigned Index = getResourceStateIndex(ResourceID);
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ResourceState &Resource = *Resources[Index];
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Resource.clearReserved();
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if (Resource.isAResourceGroup())
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ReservedResourceGroups ^= 1ULL << Index;
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// Now it is safe to release dispatch/issue resources.
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if (Resource.isADispatchHazard())
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ReservedBuffers ^= 1ULL << Index;
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}
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} // namespace mca
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} // namespace llvm
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