2fb632dbda
branch prediction, and makes memory dependence work properly. SConscript: Added return address stack, tournament predictor. cpu/base_cpu.cc: Added debug break and print statements. cpu/base_dyn_inst.cc: cpu/base_dyn_inst.hh: Comment out possibly unneeded variables. cpu/beta_cpu/2bit_local_pred.cc: 2bit predictor no longer speculatively updates itself. cpu/beta_cpu/alpha_dyn_inst.hh: Comment formatting. cpu/beta_cpu/alpha_full_cpu.hh: Formatting cpu/beta_cpu/alpha_full_cpu_builder.cc: Added new parameters for branch predictors, and IQ parameters. cpu/beta_cpu/alpha_full_cpu_impl.hh: Register stats. cpu/beta_cpu/alpha_params.hh: Added parameters for IQ, branch predictors, and store sets. cpu/beta_cpu/bpred_unit.cc: Removed one class. cpu/beta_cpu/bpred_unit.hh: Add in RAS, stats. Changed branch predictor unit functionality so that it holds a history of past branches so it can update, and also hold a proper history of the RAS so it can be restored on branch mispredicts. cpu/beta_cpu/bpred_unit_impl.hh: Added in stats, history of branches, RAS. Now bpred unit actually modifies the instruction's predicted next PC. cpu/beta_cpu/btb.cc: Add in sanity checks. cpu/beta_cpu/comm.hh: Add in communication where needed, remove it where it's not. cpu/beta_cpu/commit.hh: cpu/beta_cpu/rename.hh: cpu/beta_cpu/rename_impl.hh: Add in stats. cpu/beta_cpu/commit_impl.hh: Stats, update what is sent back on branch mispredict. cpu/beta_cpu/cpu_policy.hh: Change the bpred unit being used. cpu/beta_cpu/decode.hh: cpu/beta_cpu/decode_impl.hh: Stats. cpu/beta_cpu/fetch.hh: Stats, change squash so it can handle squashes from decode differently than squashes from commit. cpu/beta_cpu/fetch_impl.hh: Add in stats. Change how a cache line is fetched. Update to work with caches. Also have separate functions for different behavior if squash is coming from decode vs commit. cpu/beta_cpu/free_list.hh: Remove some old comments. cpu/beta_cpu/full_cpu.cc: cpu/beta_cpu/full_cpu.hh: Added function to remove instructions from back of instruction list until a certain sequence number. cpu/beta_cpu/iew.hh: Stats, separate squashing behavior due to branches vs memory. cpu/beta_cpu/iew_impl.hh: Stats, separate squashing behavior for branches vs memory. cpu/beta_cpu/inst_queue.cc: Debug stuff cpu/beta_cpu/inst_queue.hh: Stats, change how mem dep unit works, debug stuff cpu/beta_cpu/inst_queue_impl.hh: Stats, change how mem dep unit works, debug stuff. Also add in parameters that used to be hardcoded. cpu/beta_cpu/mem_dep_unit.hh: cpu/beta_cpu/mem_dep_unit_impl.hh: Add in stats, change how memory dependence unit works. It now holds the memory instructions that are waiting for their memory dependences to resolve. It provides which instructions are ready directly to the IQ. cpu/beta_cpu/regfile.hh: Fix up sanity checks. cpu/beta_cpu/rename_map.cc: Fix loop variable type. cpu/beta_cpu/rob_impl.hh: Remove intermediate DynInstPtr cpu/beta_cpu/store_set.cc: Add in debugging statements. cpu/beta_cpu/store_set.hh: Reorder function arguments to match the rest of the calls. --HG-- extra : convert_revision : aabf9b1fecd1d743265dfc3b174d6159937c6f44
743 lines
24 KiB
C++
743 lines
24 KiB
C++
#include <list>
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#include "cpu/beta_cpu/rename.hh"
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template <class Impl>
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SimpleRename<Impl>::SimpleRename(Params ¶ms)
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: iewToRenameDelay(params.iewToRenameDelay),
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decodeToRenameDelay(params.decodeToRenameDelay),
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commitToRenameDelay(params.commitToRenameDelay),
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renameWidth(params.renameWidth),
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commitWidth(params.commitWidth),
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numInst(0)
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{
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_status = Idle;
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}
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template <class Impl>
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void
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SimpleRename<Impl>::regStats()
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{
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renameSquashCycles
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.name(name() + ".renameSquashCycles")
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.desc("Number of cycles rename is squashing")
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.prereq(renameSquashCycles);
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renameIdleCycles
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.name(name() + ".renameIdleCycles")
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.desc("Number of cycles rename is idle")
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.prereq(renameIdleCycles);
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renameBlockCycles
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.name(name() + ".renameBlockCycles")
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.desc("Number of cycles rename is blocking")
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.prereq(renameBlockCycles);
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renameUnblockCycles
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.name(name() + ".renameUnblockCycles")
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.desc("Number of cycles rename is unblocking")
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.prereq(renameUnblockCycles);
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renameRenamedInsts
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.name(name() + ".renameRenamedInsts")
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.desc("Number of instructions processed by rename")
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.prereq(renameRenamedInsts);
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renameSquashedInsts
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.name(name() + ".renameSquashedInsts")
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.desc("Number of squashed instructions processed by rename")
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.prereq(renameSquashedInsts);
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renameROBFullEvents
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.name(name() + ".renameROBFullEvents")
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.desc("Number of times rename has considered the ROB 'full'")
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.prereq(renameROBFullEvents);
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renameIQFullEvents
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.name(name() + ".renameIQFullEvents")
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.desc("Number of times rename has considered the IQ 'full'")
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.prereq(renameIQFullEvents);
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renameFullRegistersEvents
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.name(name() + ".renameFullRegisterEvents")
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.desc("Number of times there has been no free registers")
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.prereq(renameFullRegistersEvents);
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renameRenamedOperands
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.name(name() + ".renameRenamedOperands")
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.desc("Number of destination operands rename has renamed")
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.prereq(renameRenamedOperands);
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renameRenameLookups
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.name(name() + ".renameRenameLookups")
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.desc("Number of register rename lookups that rename has made")
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.prereq(renameRenameLookups);
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renameHBPlaceHolders
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.name(name() + ".renameHBPlaceHolders")
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.desc("Number of place holders added to the history buffer")
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.prereq(renameHBPlaceHolders);
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renameCommittedMaps
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.name(name() + ".renameCommittedMaps")
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.desc("Number of HB maps that are committed")
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.prereq(renameCommittedMaps);
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renameUndoneMaps
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.name(name() + ".renameUndoneMaps")
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.desc("Number of HB maps that are undone due to squashing")
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.prereq(renameUndoneMaps);
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renameValidUndoneMaps
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.name(name() + ".renameValidUndoneMaps")
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.desc("Number of HB maps that are undone, and are not place holders")
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.prereq(renameValidUndoneMaps);
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}
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template <class Impl>
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void
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SimpleRename<Impl>::setCPU(FullCPU *cpu_ptr)
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{
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DPRINTF(Rename, "Rename: Setting CPU pointer.\n");
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cpu = cpu_ptr;
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}
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template <class Impl>
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void
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SimpleRename<Impl>::setTimeBuffer(TimeBuffer<TimeStruct> *tb_ptr)
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{
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DPRINTF(Rename, "Rename: Setting time buffer pointer.\n");
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timeBuffer = tb_ptr;
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// Setup wire to read information from time buffer, from IEW stage.
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fromIEW = timeBuffer->getWire(-iewToRenameDelay);
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// Setup wire to read infromation from time buffer, from commit stage.
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fromCommit = timeBuffer->getWire(-commitToRenameDelay);
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// Setup wire to write information to previous stages.
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toDecode = timeBuffer->getWire(0);
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}
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template <class Impl>
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void
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SimpleRename<Impl>::setRenameQueue(TimeBuffer<RenameStruct> *rq_ptr)
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{
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DPRINTF(Rename, "Rename: Setting rename queue pointer.\n");
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renameQueue = rq_ptr;
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// Setup wire to write information to future stages.
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toIEW = renameQueue->getWire(0);
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}
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template <class Impl>
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void
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SimpleRename<Impl>::setDecodeQueue(TimeBuffer<DecodeStruct> *dq_ptr)
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{
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DPRINTF(Rename, "Rename: Setting decode queue pointer.\n");
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decodeQueue = dq_ptr;
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// Setup wire to get information from decode.
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fromDecode = decodeQueue->getWire(-decodeToRenameDelay);
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}
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template <class Impl>
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void
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SimpleRename<Impl>::setRenameMap(RenameMap *rm_ptr)
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{
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DPRINTF(Rename, "Rename: Setting rename map pointer.\n");
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renameMap = rm_ptr;
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}
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template <class Impl>
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void
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SimpleRename<Impl>::setFreeList(FreeList *fl_ptr)
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{
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DPRINTF(Rename, "Rename: Setting free list pointer.\n");
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freeList = fl_ptr;
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}
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template <class Impl>
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void
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SimpleRename<Impl>::dumpHistory()
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{
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typename list<RenameHistory>::iterator buf_it = historyBuffer.begin();
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while (buf_it != historyBuffer.end())
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{
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cprintf("Seq num: %i\nArch reg: %i New phys reg: %i Old phys "
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"reg: %i\n", (*buf_it).instSeqNum, (int)(*buf_it).archReg,
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(int)(*buf_it).newPhysReg, (int)(*buf_it).prevPhysReg);
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buf_it++;
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}
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}
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template <class Impl>
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void
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SimpleRename<Impl>::block()
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{
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DPRINTF(Rename, "Rename: Blocking.\n");
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// Set status to Blocked.
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_status = Blocked;
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// Add the current inputs onto the skid buffer, so they can be
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// reprocessed when this stage unblocks.
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skidBuffer.push(*fromDecode);
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// Note that this stage only signals previous stages to stall when
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// it is the cause of the stall originates at this stage. Otherwise
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// the previous stages are expected to check all possible stall signals.
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}
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template <class Impl>
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inline void
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SimpleRename<Impl>::unblock()
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{
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DPRINTF(Rename, "Rename: Read instructions out of skid buffer this "
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"cycle.\n");
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// Remove the now processed instructions from the skid buffer.
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skidBuffer.pop();
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// If there's still information in the skid buffer, then
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// continue to tell previous stages to stall. They will be
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// able to restart once the skid buffer is empty.
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if (!skidBuffer.empty()) {
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toDecode->renameInfo.stall = true;
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} else {
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DPRINTF(Rename, "Rename: Done unblocking.\n");
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_status = Running;
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}
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}
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template <class Impl>
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void
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SimpleRename<Impl>::doSquash()
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{
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typename list<RenameHistory>::iterator hb_it = historyBuffer.begin();
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InstSeqNum squashed_seq_num = fromCommit->commitInfo.doneSeqNum;
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#ifdef FULL_SYSTEM
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assert(!historyBuffer.empty());
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#else
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// After a syscall squashes everything, the history buffer may be empty
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// but the ROB may still be squashing instructions.
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if (historyBuffer.empty()) {
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return;
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}
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#endif // FULL_SYSTEM
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// Go through the most recent instructions, undoing the mappings
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// they did and freeing up the registers.
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while ((*hb_it).instSeqNum > squashed_seq_num)
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{
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assert(hb_it != historyBuffer.end());
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DPRINTF(Rename, "Rename: Removing history entry with sequence "
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"number %i.\n", (*hb_it).instSeqNum);
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// If it's not simply a place holder, then add the registers.
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if (!(*hb_it).placeHolder) {
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// Tell the rename map to set the architected register to the
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// previous physical register that it was renamed to.
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renameMap->setEntry(hb_it->archReg, hb_it->prevPhysReg);
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// Put the renamed physical register back on the free list.
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freeList->addReg(hb_it->newPhysReg);
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++renameValidUndoneMaps;
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}
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historyBuffer.erase(hb_it++);
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++renameUndoneMaps;
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}
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}
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template <class Impl>
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void
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SimpleRename<Impl>::squash()
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{
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DPRINTF(Rename, "Rename: Squashing instructions.\n");
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// Set the status to Squashing.
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_status = Squashing;
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numInst = 0;
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// Clear the skid buffer in case it has any data in it.
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while (!skidBuffer.empty())
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{
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skidBuffer.pop();
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}
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doSquash();
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}
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template<class Impl>
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void
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SimpleRename<Impl>::removeFromHistory(InstSeqNum inst_seq_num)
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{
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DPRINTF(Rename, "Rename: Removing a committed instruction from the "
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"history buffer, until sequence number %lli.\n", inst_seq_num);
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typename list<RenameHistory>::iterator hb_it = historyBuffer.end();
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--hb_it;
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if (hb_it->instSeqNum > inst_seq_num) {
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DPRINTF(Rename, "Rename: Old sequence number encountered. Ensure "
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"that a syscall happened recently.\n");
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return;
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}
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while ((*hb_it).instSeqNum != inst_seq_num)
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{
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// Make sure we haven't gone off the end of the list.
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assert(hb_it != historyBuffer.end());
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// In theory instructions at the end of the history buffer
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// should be older than the instruction being removed, which
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// means they will have a lower sequence number. Also the
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// instruction being removed from the history really should
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// be the last instruction in the list, as it is the instruction
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// that was just committed that is being removed.
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assert(hb_it->instSeqNum < inst_seq_num);
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DPRINTF(Rename, "Rename: Freeing up older rename of reg %i, sequence"
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" number %i.\n",
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(*hb_it).prevPhysReg, (*hb_it).instSeqNum);
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if (!(*hb_it).placeHolder) {
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freeList->addReg((*hb_it).prevPhysReg);
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++renameCommittedMaps;
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}
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historyBuffer.erase(hb_it--);
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}
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// Finally free up the previous register of the finished instruction
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// itself.
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if (!(*hb_it).placeHolder) {
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freeList->addReg(hb_it->prevPhysReg);
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++renameCommittedMaps;
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}
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historyBuffer.erase(hb_it);
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}
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template <class Impl>
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inline void
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SimpleRename<Impl>::renameSrcRegs(DynInstPtr &inst)
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{
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unsigned num_src_regs = inst->numSrcRegs();
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// Get the architectual register numbers from the source and
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// destination operands, and redirect them to the right register.
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// Will need to mark dependencies though.
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for (int src_idx = 0; src_idx < num_src_regs; src_idx++)
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{
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RegIndex src_reg = inst->srcRegIdx(src_idx);
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// Look up the source registers to get the phys. register they've
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// been renamed to, and set the sources to those registers.
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PhysRegIndex renamed_reg = renameMap->lookup(src_reg);
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DPRINTF(Rename, "Rename: Looking up arch reg %i, got "
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"physical reg %i.\n", (int)src_reg, (int)renamed_reg);
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inst->renameSrcReg(src_idx, renamed_reg);
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// Either incorporate it into the info passed back,
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// or make another function call to see if that register is
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// ready or not.
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if (renameMap->isReady(renamed_reg)) {
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DPRINTF(Rename, "Rename: Register is ready.\n");
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inst->markSrcRegReady(src_idx);
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}
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++renameRenameLookups;
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}
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}
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template <class Impl>
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inline void
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SimpleRename<Impl>::renameDestRegs(DynInstPtr &inst)
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{
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typename SimpleRenameMap::RenameInfo rename_result;
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unsigned num_dest_regs = inst->numDestRegs();
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// If it's an instruction with no destination registers, then put
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// a placeholder within the history buffer. It might be better
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// to not put it in the history buffer at all (other than branches,
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// which always need at least a place holder), and differentiate
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// between instructions with and without destination registers
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// when getting from commit the instructions that committed.
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if (num_dest_regs == 0) {
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RenameHistory hb_entry(inst->seqNum);
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historyBuffer.push_front(hb_entry);
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DPRINTF(Rename, "Rename: Adding placeholder instruction to "
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"history buffer, sequence number %lli.\n",
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inst->seqNum);
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++renameHBPlaceHolders;
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} else {
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// Rename the destination registers.
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for (int dest_idx = 0; dest_idx < num_dest_regs; dest_idx++)
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{
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RegIndex dest_reg = inst->destRegIdx(dest_idx);
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// Get the physical register that the destination will be
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// renamed to.
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rename_result = renameMap->rename(dest_reg);
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DPRINTF(Rename, "Rename: Renaming arch reg %i to physical "
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"reg %i.\n", (int)dest_reg,
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(int)rename_result.first);
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// Record the rename information so that a history can be kept.
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RenameHistory hb_entry(inst->seqNum, dest_reg,
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rename_result.first,
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rename_result.second);
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historyBuffer.push_front(hb_entry);
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DPRINTF(Rename, "Rename: Adding instruction to history buffer, "
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"sequence number %lli.\n",
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(*historyBuffer.begin()).instSeqNum);
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// Tell the instruction to rename the appropriate destination
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// register (dest_idx) to the new physical register
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// (rename_result.first), and record the previous physical
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// register that the same logical register was renamed to
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// (rename_result.second).
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inst->renameDestReg(dest_idx,
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rename_result.first,
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rename_result.second);
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++renameRenamedOperands;
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}
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}
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}
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template <class Impl>
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inline int
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SimpleRename<Impl>::calcFreeROBEntries()
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{
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return fromCommit->commitInfo.freeROBEntries -
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renameWidth * iewToRenameDelay;
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}
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template <class Impl>
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inline int
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SimpleRename<Impl>::calcFreeIQEntries()
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{
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return fromIEW->iewInfo.freeIQEntries - renameWidth * iewToRenameDelay;
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}
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template<class Impl>
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void
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SimpleRename<Impl>::tick()
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{
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// Rename will need to try to rename as many instructions as it
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// has bandwidth, unless it is blocked.
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// Check if _status is BarrierStall. If so, then check if the number
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// of free ROB entries is equal to the number of total ROB entries.
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// Once equal then wake this stage up. Set status to unblocking maybe.
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if (_status != Blocked && _status != Squashing) {
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DPRINTF(Rename, "Rename: Status is not blocked, will attempt to "
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"run stage.\n");
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// Make sure that the skid buffer has something in it if the
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// status is unblocking.
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assert(_status == Unblocking ? !skidBuffer.empty() : 1);
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rename();
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// If the status was unblocking, then instructions from the skid
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// buffer were used. Remove those instructions and handle
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// the rest of unblocking.
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if (_status == Unblocking) {
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++renameUnblockCycles;
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if (fromDecode->size > 0) {
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// Add the current inputs onto the skid buffer, so they can be
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// reprocessed when this stage unblocks.
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skidBuffer.push(*fromDecode);
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}
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unblock();
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}
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} else if (_status == Blocked) {
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++renameBlockCycles;
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// If stage is blocked and still receiving valid instructions,
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// make sure to store them in the skid buffer.
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if (fromDecode->size > 0) {
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|
block();
|
|
|
|
// Continue to tell previous stage to stall.
|
|
toDecode->renameInfo.stall = true;
|
|
}
|
|
|
|
if (!fromIEW->iewInfo.stall &&
|
|
!fromCommit->commitInfo.stall &&
|
|
calcFreeROBEntries() > 0 &&
|
|
calcFreeIQEntries() > 0 &&
|
|
renameMap->numFreeEntries() > 0) {
|
|
|
|
// Need to be sure to check all blocking conditions above.
|
|
// If they have cleared, then start unblocking.
|
|
DPRINTF(Rename, "Rename: Stall signals cleared, going to "
|
|
"unblock.\n");
|
|
_status = Unblocking;
|
|
|
|
// Continue to tell previous stage to block until this stage
|
|
// is done unblocking.
|
|
toDecode->renameInfo.stall = true;
|
|
} else {
|
|
// Otherwise no conditions have changed. Tell previous
|
|
// stage to continue blocking.
|
|
toDecode->renameInfo.stall = true;
|
|
}
|
|
|
|
if (fromCommit->commitInfo.squash ||
|
|
fromCommit->commitInfo.robSquashing) {
|
|
squash();
|
|
return;
|
|
}
|
|
} else if (_status == Squashing) {
|
|
++renameSquashCycles;
|
|
|
|
if (fromCommit->commitInfo.squash) {
|
|
squash();
|
|
} else if (!fromCommit->commitInfo.squash &&
|
|
!fromCommit->commitInfo.robSquashing) {
|
|
|
|
DPRINTF(Rename, "Rename: Done squashing, going to running.\n");
|
|
_status = Running;
|
|
} else {
|
|
doSquash();
|
|
}
|
|
}
|
|
|
|
// Ugly code, revamp all of the tick() functions eventually.
|
|
if (fromCommit->commitInfo.doneSeqNum != 0 && _status != Squashing) {
|
|
#ifndef FULL_SYSTEM
|
|
if (!fromCommit->commitInfo.squash) {
|
|
removeFromHistory(fromCommit->commitInfo.doneSeqNum);
|
|
}
|
|
#else
|
|
removeFromHistory(fromCommit->commitInfo.doneSeqNum);
|
|
#endif
|
|
}
|
|
|
|
// Perhaps put this outside of this function, since this will
|
|
// happen regardless of whether or not the stage is blocked or
|
|
// squashing.
|
|
// Read from the time buffer any necessary data.
|
|
// Read registers that are freed, and add them to the freelist.
|
|
// This is unnecessary due to the history buffer (assuming the history
|
|
// buffer works properly).
|
|
/*
|
|
while(!fromCommit->commitInfo.freeRegs.empty())
|
|
{
|
|
PhysRegIndex freed_reg = fromCommit->commitInfo.freeRegs.back();
|
|
DPRINTF(Rename, "Rename: Adding freed register %i to freelist.\n",
|
|
(int)freed_reg);
|
|
freeList->addReg(freed_reg);
|
|
|
|
fromCommit->commitInfo.freeRegs.pop_back();
|
|
}
|
|
*/
|
|
|
|
}
|
|
|
|
template<class Impl>
|
|
void
|
|
SimpleRename<Impl>::rename()
|
|
{
|
|
// Check if any of the stages ahead of rename are telling rename
|
|
// to squash. The squash() function will also take care of fixing up
|
|
// the rename map and the free list.
|
|
if (fromCommit->commitInfo.squash ||
|
|
fromCommit->commitInfo.robSquashing) {
|
|
DPRINTF(Rename, "Rename: Receiving signal from Commit to squash.\n");
|
|
squash();
|
|
return;
|
|
}
|
|
|
|
// Check if time buffer is telling this stage to stall.
|
|
if (fromIEW->iewInfo.stall ||
|
|
fromCommit->commitInfo.stall) {
|
|
DPRINTF(Rename, "Rename: Receiving signal from IEW/Commit to "
|
|
"stall.\n");
|
|
block();
|
|
return;
|
|
}
|
|
|
|
// Check if the current status is squashing. If so, set its status
|
|
// to running and resume execution the next cycle.
|
|
if (_status == Squashing) {
|
|
DPRINTF(Rename, "Rename: Done squashing.\n");
|
|
_status = Running;
|
|
return;
|
|
}
|
|
|
|
// Check the decode queue to see if instructions are available.
|
|
// If there are no available instructions to rename, then do nothing.
|
|
// Or, if the stage is currently unblocking, then go ahead and run it.
|
|
if (fromDecode->size == 0 && _status != Unblocking) {
|
|
DPRINTF(Rename, "Rename: Nothing to do, breaking out early.\n");
|
|
// Should I change status to idle?
|
|
return;
|
|
}
|
|
|
|
////////////////////////////////////
|
|
// Actual rename part.
|
|
////////////////////////////////////
|
|
|
|
DynInstPtr inst;
|
|
|
|
// If we're unblocking, then we may be in the middle of an instruction
|
|
// group. Subtract off numInst to get the proper number of instructions
|
|
// left.
|
|
int insts_available = _status == Unblocking ?
|
|
skidBuffer.front().size - numInst :
|
|
fromDecode->size;
|
|
|
|
bool block_this_cycle = false;
|
|
|
|
// Will have to do a different calculation for the number of free
|
|
// entries. Number of free entries recorded on this cycle -
|
|
// renameWidth * renameToDecodeDelay
|
|
int free_rob_entries = calcFreeROBEntries();
|
|
int free_iq_entries = calcFreeIQEntries();
|
|
int min_iq_rob = min(free_rob_entries, free_iq_entries);
|
|
|
|
unsigned to_iew_index = 0;
|
|
|
|
// Check if there's any space left.
|
|
if (min_iq_rob <= 0) {
|
|
DPRINTF(Rename, "Rename: Blocking due to no free ROB or IQ "
|
|
"entries.\n"
|
|
"Rename: ROB has %d free entries.\n"
|
|
"Rename: IQ has %d free entries.\n",
|
|
free_rob_entries,
|
|
free_iq_entries);
|
|
block();
|
|
// Tell previous stage to stall.
|
|
toDecode->renameInfo.stall = true;
|
|
|
|
if (free_rob_entries <= 0) {
|
|
++renameROBFullEvents;
|
|
} else {
|
|
++renameIQFullEvents;
|
|
}
|
|
|
|
return;
|
|
} else if (min_iq_rob < insts_available) {
|
|
DPRINTF(Rename, "Rename: Will have to block this cycle. Only "
|
|
"%i insts can be renamed due to IQ/ROB limits.\n",
|
|
min_iq_rob);
|
|
|
|
insts_available = min_iq_rob;
|
|
|
|
block_this_cycle = true;
|
|
|
|
if (free_rob_entries < free_iq_entries) {
|
|
++renameROBFullEvents;
|
|
} else {
|
|
++renameIQFullEvents;
|
|
}
|
|
}
|
|
|
|
while (insts_available > 0) {
|
|
DPRINTF(Rename, "Rename: Sending instructions to iew.\n");
|
|
|
|
// Get the next instruction either from the skid buffer or the
|
|
// decode queue.
|
|
inst = _status == Unblocking ? skidBuffer.front().insts[numInst] :
|
|
fromDecode->insts[numInst];
|
|
|
|
if (inst->isSquashed()) {
|
|
DPRINTF(Rename, "Rename: instruction %i with PC %#x is "
|
|
"squashed, skipping.\n",
|
|
inst->seqNum, inst->readPC());
|
|
|
|
// Go to the next instruction.
|
|
++numInst;
|
|
|
|
++renameSquashedInsts;
|
|
|
|
// Decrement how many instructions are available.
|
|
--insts_available;
|
|
|
|
continue;
|
|
}
|
|
|
|
DPRINTF(Rename, "Rename: Processing instruction %i with PC %#x.\n",
|
|
inst->seqNum, inst->readPC());
|
|
|
|
// If it's a trap instruction, then it needs to wait here within
|
|
// rename until the ROB is empty. Needs a way to detect that the
|
|
// ROB is empty. Maybe an event?
|
|
// Would be nice if it could be avoided putting this into a
|
|
// specific stage and instead just put it into the AlphaFullCPU.
|
|
// Might not really be feasible though...
|
|
// (EXCB, TRAPB)
|
|
if (inst->isSerializing()) {
|
|
panic("Rename: Serializing instruction encountered.\n");
|
|
DPRINTF(Rename, "Rename: Serializing instruction "
|
|
"encountered.\n");
|
|
|
|
// Change status over to BarrierStall so that other stages know
|
|
// what this is blocked on.
|
|
_status = BarrierStall;
|
|
|
|
block_this_cycle = true;
|
|
|
|
break;
|
|
}
|
|
|
|
// Check here to make sure there are enough destination registers
|
|
// to rename to. Otherwise block.
|
|
if (renameMap->numFreeEntries() < inst->numDestRegs())
|
|
{
|
|
DPRINTF(Rename, "Rename: Blocking due to lack of free "
|
|
"physical registers to rename to.\n");
|
|
// Need some sort of event based on a register being freed.
|
|
|
|
block_this_cycle = true;
|
|
|
|
++renameFullRegistersEvents;
|
|
|
|
break;
|
|
}
|
|
|
|
renameSrcRegs(inst);
|
|
|
|
renameDestRegs(inst);
|
|
|
|
// Put instruction in rename queue.
|
|
toIEW->insts[to_iew_index] = inst;
|
|
++(toIEW->size);
|
|
|
|
// Decrease the number of free ROB and IQ entries.
|
|
--free_rob_entries;
|
|
--free_iq_entries;
|
|
|
|
// Increment which instruction we're on.
|
|
++to_iew_index;
|
|
++numInst;
|
|
|
|
++renameRenamedInsts;
|
|
|
|
// Decrement how many instructions are available.
|
|
--insts_available;
|
|
}
|
|
|
|
// Check if there's any instructions left that haven't yet been renamed.
|
|
// If so then block.
|
|
if (block_this_cycle) {
|
|
block();
|
|
|
|
toDecode->renameInfo.stall = true;
|
|
} else {
|
|
// If we had a successful rename and didn't have to exit early, then
|
|
// reset numInst so it will refer to the correct instruction on next
|
|
// run.
|
|
numInst = 0;
|
|
}
|
|
}
|