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/*
* Copyright (c) 2011-2017 Advanced Micro Devices, Inc.
* All rights reserved.
*
* For use for simulation and test purposes only
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* 3. Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef __GPU_COMPUTE_WAVEFRONT_HH__
#define __GPU_COMPUTE_WAVEFRONT_HH__
#include <cassert>
#include <deque>
#include <list>
#include <memory>
#include <unordered_map>
#include <vector>
#include "arch/gpu_isa.hh"
#include "base/logging.hh"
#include "base/types.hh"
#include "config/the_gpu_isa.hh"
#include "gpu-compute/compute_unit.hh"
#include "gpu-compute/dispatcher.hh"
#include "gpu-compute/gpu_dyn_inst.hh"
#include "gpu-compute/hsa_queue_entry.hh"
#include "gpu-compute/lds_state.hh"
#include "gpu-compute/misc.hh"
#include "params/Wavefront.hh"
#include "sim/sim_object.hh"
class Wavefront : public SimObject
{
public:
enum status_e {
// wavefront is stalled
S_STOPPED,
// wavefront is returning from a kernel
S_RETURNING,
// wavefront is running normally
S_RUNNING,
// wavefront is stalled
S_STALLED,
/**
* wavefront has unsatisfied wait counts
*
* while in this state the WF will only execute if
* the oldest instruction is the waitcnt. while in
* S_WAITCNT, the wavefront will not be ready until
* all of its waitcnts have been satisfied. the
* scoreboard ready() function will check the status
* of the waitcnts whenever the WF is in S_WAITCNT,
* and once they are satisfied, it will resume normal
* operation.
*/
S_WAITCNT,
/**
* WF is stalled at a barrier.
*/
S_BARRIER
};
// HW slot id where the WF is mapped to inside a SIMD unit
const int wfSlotId;
int kernId;
// SIMD unit where the WV has been scheduled
const int simdId;
// id of the execution unit (or pipeline) where the oldest instruction
// of the WF is scheduled
int execUnitId;
int flatLmUnitId;
int flatGmUnitId;
// pointer to parent CU
ComputeUnit *computeUnit;
int maxIbSize;
std::deque<GPUDynInstPtr> instructionBuffer;
bool pendingFetch;
bool dropFetch;
// last tick during which all WFs in the CU are not idle
Tick lastNonIdleTick;
// Execution unit resource ID's associated with this WF
// These are static mappings set at WF slot construction and
// based off of the simdId and wfSlotId.
// Index to scalarALUs resource vector in CU
int scalarAlu;
// Indices into readyList/dispatchList of resources used by this
// wavefront
int scalarAluGlobalIdx;
int globalMem;
int localMem;
int scalarMem;
// number of VGPRs required by WF
uint32_t maxVgprs;
// number of SGPRs required by WF
uint32_t maxSgprs;
void freeResources();
GPUDynInstPtr nextInstr();
void setStatus(status_e newStatus);
status_e getStatus() { return status; }
void resizeRegFiles(int num_vregs, int num_sregs);
bool isGmInstruction(GPUDynInstPtr ii);
bool isLmInstruction(GPUDynInstPtr ii);
bool isOldestInstWaitcnt();
bool isOldestInstGMem();
bool isOldestInstLMem();
bool isOldestInstPrivMem();
bool isOldestInstFlatMem();
bool isOldestInstVectorALU();
bool isOldestInstScalarALU();
bool isOldestInstScalarMem();
bool isOldestInstBarrier();
// used for passing spill address to DDInstGPU
std::vector<Addr> lastAddr;
std::vector<uint32_t> workItemId[3];
std::vector<uint32_t> workItemFlatId;
/* kernel launch parameters */
uint32_t workGroupId[3];
uint32_t workGroupSz[3];
uint32_t gridSz[3];
uint32_t wgId;
uint32_t wgSz;
/* the actual WG size can differ than the maximum size */
uint32_t actualWgSz[3];
uint32_t actualWgSzTotal;
void computeActualWgSz(HSAQueueEntry *task);
// wavefront id within a workgroup
uint32_t wfId;
uint32_t maxDynWaveId;
uint32_t dispatchId;
// vector and scalar memory requests pending in memory system
int outstandingReqs;
// outstanding global memory write requests
int outstandingReqsWrGm;
// outstanding local memory write requests
int outstandingReqsWrLm;
// outstanding global memory read requests
int outstandingReqsRdGm;
// outstanding local memory read requests
int outstandingReqsRdLm;
// outstanding scalar memory read requests
int scalarOutstandingReqsRdGm;
// outstanding scalar memory write requests
int scalarOutstandingReqsWrGm;
int rdLmReqsInPipe;
int rdGmReqsInPipe;
int wrLmReqsInPipe;
int wrGmReqsInPipe;
int scalarRdGmReqsInPipe;
int scalarWrGmReqsInPipe;
int memTraceBusy;
uint64_t lastTrace;
// number of virtual vector registers reserved by WF
int reservedVectorRegs;
// number of virtual scalar registers reserved by WF
int reservedScalarRegs;
// Index into the Vector Register File's namespace where the WF's registers
// will live while the WF is executed
uint32_t startVgprIndex;
// Index into the Scalar Register File's namespace where the WF's registers
// will live while the WF is executed
uint32_t startSgprIndex;
// Old value of destination gpr (for trace)
std::vector<uint32_t> oldVgpr;
// Id of destination gpr (for trace)
uint32_t oldVgprId;
// Tick count of last old_vgpr copy
uint64_t oldVgprTcnt;
// Old value of destination gpr (for trace)
std::vector<uint64_t> oldDgpr;
// Id of destination gpr (for trace)
uint32_t oldDgprId;
// Tick count of last old_vgpr copy
uint64_t oldDgprTcnt;
// Execution mask at wavefront start
VectorMask initMask;
// a pointer to the fraction of the LDS allocated
// to this workgroup (thus this wavefront)
LdsChunk *ldsChunk;
// unique WF id over all WFs executed across all CUs
uint64_t wfDynId;
// Wavefront slot stats
// Number of instructions executed by this wavefront slot across all
// dynamic wavefronts
Stats::Scalar numInstrExecuted;
// Number of cycles this WF spends in SCH stage
Stats::Scalar schCycles;
// Number of stall cycles encounterd by this WF in SCH stage
Stats::Scalar schStalls;
// The following stats sum to the value of schStalls, and record, per
// WF slot, what the cause of each stall was at a coarse granularity.
// Cycles WF is selected by scheduler, but RFs cannot support instruction
Stats::Scalar schRfAccessStalls;
// Cycles spent waiting for execution resources
Stats::Scalar schResourceStalls;
// cycles spent waiting for RF reads to complete in SCH stage
Stats::Scalar schOpdNrdyStalls;
// LDS arbitration stall cycles. WF attempts to execute LM instruction,
// but another wave is executing FLAT, which requires LM and GM and forces
// this WF to stall.
Stats::Scalar schLdsArbStalls;
// number of times an instruction of a WF is blocked from being issued
// due to WAR and WAW dependencies
Stats::Scalar numTimesBlockedDueWAXDependencies;
// number of times an instruction of a WF is blocked from being issued
// due to WAR and WAW dependencies
Stats::Scalar numTimesBlockedDueRAWDependencies;
// dyn inst id (per SIMD) of last instruction exec from this wave
uint64_t lastInstExec;
// Distribution to track the distance between producer and consumer
// for vector register values
Stats::Distribution vecRawDistance;
// Map to track the dyn instruction id of each vector register value
// produced, indexed by physical vector register ID
std::unordered_map<int,uint64_t> rawDist;
// Distribution to track the number of times every vector register
// value produced is consumed.
Stats::Distribution readsPerWrite;
// Counts the number of reads performed to each physical register
// - counts are reset to 0 for each dynamic wavefront launched
std::vector<int> vecReads;
void initRegState(HSAQueueEntry *task, int wgSizeInWorkItems);
// context for save/restore
uint8_t *context;
typedef WavefrontParams Params;
Wavefront(const Params *p);
~Wavefront();
virtual void init();
void
setParent(ComputeUnit *cu)
{
computeUnit = cu;
}
void validateRequestCounters();
void start(uint64_t _wfDynId, uint64_t _base_ptr);
void exec();
// called by SCH stage to reserve
std::vector<int> reserveResources();
bool stopFetch();
void regStats();
Addr pc() const;
void pc(Addr new_pc);
VectorMask& execMask();
bool execMask(int lane) const;
void discardFetch();
bool waitCntsSatisfied();
void setWaitCnts(int vm_wait_cnt, int exp_wait_cnt, int lgkm_wait_cnt);
void clearWaitCnts();
void incVMemInstsIssued();
void incExpInstsIssued();
void incLGKMInstsIssued();
void decVMemInstsIssued();
void decExpInstsIssued();
void decLGKMInstsIssued();
/** Freeing VRF space */
void freeRegisterFile();
TheGpuISA::GPUISA&
gpuISA()
{
return _gpuISA;
}
void barrierId(int bar_id);
int barrierId() const;
bool hasBarrier() const;
void releaseBarrier();
private:
TheGpuISA::GPUISA _gpuISA;
void reserveGmResource(GPUDynInstPtr ii);
void reserveLmResource(GPUDynInstPtr ii);
/**
* the following are used for waitcnt instructions
* vmWaitCnt: once set, we wait for the oustanding
* number of vector mem instructions to be
* at, or below vmWaitCnt.
*
* expWaitCnt: once set, we wait for the outstanding
* number outstanding VM writes or EXP
* insts to be at, or below expWaitCnt.
*
* lgkmWaitCnt: once set, we wait for the oustanding
* number of LDS, GDS, scalar memory,
* and message instructions to be at, or
* below lgkmCount. we currently do not
* support GDS/message ops.
*/
int vmWaitCnt;
int expWaitCnt;
int lgkmWaitCnt;
int vmemInstsIssued;
int expInstsIssued;
int lgkmInstsIssued;
status_e status;
Addr _pc;
VectorMask _execMask;
int barId;
};
#endif // __GPU_COMPUTE_WAVEFRONT_HH__