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/*
* Copyright (c) 2013-2015 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.
*
* Author: Sooraj Puthoor
*/
#ifndef __MEM_RUBY_SYSTEM_GPU_COALESCER_HH__
#define __MEM_RUBY_SYSTEM_GPU_COALESCER_HH__
#include <iostream>
#include <unordered_map>
#include "base/statistics.hh"
#include "mem/protocol/HSAScope.hh"
#include "mem/protocol/HSASegment.hh"
#include "mem/protocol/PrefetchBit.hh"
#include "mem/protocol/RubyAccessMode.hh"
#include "mem/protocol/RubyRequestType.hh"
#include "mem/protocol/SequencerRequestType.hh"
#include "mem/request.hh"
#include "mem/ruby/common/Address.hh"
#include "mem/ruby/common/Consumer.hh"
#include "mem/ruby/system/RubyPort.hh"
class DataBlock;
class CacheMsg;
class MachineID;
class CacheMemory;
class RubyGPUCoalescerParams;
HSAScope reqScopeToHSAScope(Request* req);
HSASegment reqSegmentToHSASegment(Request* req);
struct GPUCoalescerRequest
{
PacketPtr pkt;
RubyRequestType m_type;
Cycles issue_time;
GPUCoalescerRequest(PacketPtr _pkt, RubyRequestType _m_type,
Cycles _issue_time)
: pkt(_pkt), m_type(_m_type), issue_time(_issue_time)
{}
};
class RequestDesc
{
public:
RequestDesc(PacketPtr pkt, RubyRequestType p_type, RubyRequestType s_type)
: pkt(pkt), primaryType(p_type), secondaryType(s_type)
{
}
RequestDesc() : pkt(nullptr), primaryType(RubyRequestType_NULL),
secondaryType(RubyRequestType_NULL)
{
}
PacketPtr pkt;
RubyRequestType primaryType;
RubyRequestType secondaryType;
};
std::ostream& operator<<(std::ostream& out, const GPUCoalescerRequest& obj);
class GPUCoalescer : public RubyPort
{
public:
typedef RubyGPUCoalescerParams Params;
GPUCoalescer(const Params *);
~GPUCoalescer();
// Public Methods
void wakeup(); // Used only for deadlock detection
void printProgress(std::ostream& out) const;
void resetStats();
void collateStats();
void regStats();
void writeCallback(Addr address, DataBlock& data);
void writeCallback(Addr address,
MachineType mach,
DataBlock& data);
void writeCallback(Addr address,
MachineType mach,
DataBlock& data,
Cycles initialRequestTime,
Cycles forwardRequestTime,
Cycles firstResponseTime,
bool isRegion);
void writeCallback(Addr address,
MachineType mach,
DataBlock& data,
Cycles initialRequestTime,
Cycles forwardRequestTime,
Cycles firstResponseTime);
void readCallback(Addr address, DataBlock& data);
void readCallback(Addr address,
MachineType mach,
DataBlock& data);
void readCallback(Addr address,
MachineType mach,
DataBlock& data,
Cycles initialRequestTime,
Cycles forwardRequestTime,
Cycles firstResponseTime);
void readCallback(Addr address,
MachineType mach,
DataBlock& data,
Cycles initialRequestTime,
Cycles forwardRequestTime,
Cycles firstResponseTime,
bool isRegion);
/* atomics need their own callback because the data
might be const coming from SLICC */
void atomicCallback(Addr address,
MachineType mach,
const DataBlock& data);
void recordCPReadCallBack(MachineID myMachID, MachineID senderMachID);
void recordCPWriteCallBack(MachineID myMachID, MachineID senderMachID);
// Alternate implementations in VIPER Coalescer
virtual RequestStatus makeRequest(PacketPtr pkt);
int outstandingCount() const { return m_outstanding_count; }
bool
isDeadlockEventScheduled() const
{
return deadlockCheckEvent.scheduled();
}
void
descheduleDeadlockEvent()
{
deschedule(deadlockCheckEvent);
}
bool empty() const;
void print(std::ostream& out) const;
void checkCoherence(Addr address);
void markRemoved();
void removeRequest(GPUCoalescerRequest* request);
void evictionCallback(Addr address);
void completeIssue();
void insertKernel(int wavefront_id, PacketPtr pkt);
void recordRequestType(SequencerRequestType requestType);
Stats::Histogram& getOutstandReqHist() { return m_outstandReqHist; }
Stats::Histogram& getLatencyHist() { return m_latencyHist; }
Stats::Histogram& getTypeLatencyHist(uint32_t t)
{ return *m_typeLatencyHist[t]; }
Stats::Histogram& getMissLatencyHist()
{ return m_missLatencyHist; }
Stats::Histogram& getMissTypeLatencyHist(uint32_t t)
{ return *m_missTypeLatencyHist[t]; }
Stats::Histogram& getMissMachLatencyHist(uint32_t t) const
{ return *m_missMachLatencyHist[t]; }
Stats::Histogram&
getMissTypeMachLatencyHist(uint32_t r, uint32_t t) const
{ return *m_missTypeMachLatencyHist[r][t]; }
Stats::Histogram& getIssueToInitialDelayHist(uint32_t t) const
{ return *m_IssueToInitialDelayHist[t]; }
Stats::Histogram&
getInitialToForwardDelayHist(const MachineType t) const
{ return *m_InitialToForwardDelayHist[t]; }
Stats::Histogram&
getForwardRequestToFirstResponseHist(const MachineType t) const
{ return *m_ForwardToFirstResponseDelayHist[t]; }
Stats::Histogram&
getFirstResponseToCompletionDelayHist(const MachineType t) const
{ return *m_FirstResponseToCompletionDelayHist[t]; }
// Changed to protected to enable inheritance by VIPER Coalescer
protected:
bool tryCacheAccess(Addr addr, RubyRequestType type,
Addr pc, RubyAccessMode access_mode,
int size, DataBlock*& data_ptr);
// Alternate implementations in VIPER Coalescer
virtual void issueRequest(PacketPtr pkt, RubyRequestType type);
void kernelCallback(int wavfront_id);
void hitCallback(GPUCoalescerRequest* request,
MachineType mach,
DataBlock& data,
bool success,
Cycles initialRequestTime,
Cycles forwardRequestTime,
Cycles firstResponseTime,
bool isRegion);
void recordMissLatency(GPUCoalescerRequest* request,
MachineType mach,
Cycles initialRequestTime,
Cycles forwardRequestTime,
Cycles firstResponseTime,
bool success, bool isRegion);
void completeHitCallback(std::vector<PacketPtr> & mylist, int len);
PacketPtr mapAddrToPkt(Addr address);
RequestStatus getRequestStatus(PacketPtr pkt,
RubyRequestType request_type);
bool insertRequest(PacketPtr pkt, RubyRequestType request_type);
bool handleLlsc(Addr address, GPUCoalescerRequest* request);
// Private copy constructor and assignment operator
GPUCoalescer(const GPUCoalescer& obj);
GPUCoalescer& operator=(const GPUCoalescer& obj);
class IssueEvent : public Event
{
private:
GPUCoalescer *seq;
public:
IssueEvent(GPUCoalescer *_seq);
void process();
const char *description() const;
};
IssueEvent issueEvent;
// Changed to protected to enable inheritance by VIPER Coalescer
protected:
int m_max_outstanding_requests;
int m_deadlock_threshold;
CacheMemory* m_dataCache_ptr;
CacheMemory* m_instCache_ptr;
// The cache access latency for this GPU data cache. This is assessed at the
// beginning of each access. This should be very similar to the
// implementation in Sequencer() as this is very much like a Sequencer
Cycles m_data_cache_hit_latency;
// We need to track both the primary and secondary request types.
// The secondary request type comprises a subset of RubyRequestTypes that
// are understood by the L1 Controller. A primary request type can be any
// RubyRequestType.
typedef std::unordered_map<Addr, std::vector<RequestDesc>> CoalescingTable;
CoalescingTable reqCoalescer;
std::vector<Addr> newRequests;
typedef std::unordered_map<Addr, GPUCoalescerRequest*> RequestTable;
RequestTable m_writeRequestTable;
RequestTable m_readRequestTable;
// Global outstanding request count, across all request tables
int m_outstanding_count;
bool m_deadlock_check_scheduled;
std::unordered_map<int, PacketPtr> kernelEndList;
std::vector<int> newKernelEnds;
int m_store_waiting_on_load_cycles;
int m_store_waiting_on_store_cycles;
int m_load_waiting_on_store_cycles;
int m_load_waiting_on_load_cycles;
bool m_runningGarnetStandalone;
class GPUCoalescerWakeupEvent : public Event
{
private:
GPUCoalescer *m_GPUCoalescer_ptr;
public:
GPUCoalescerWakeupEvent(GPUCoalescer *_seq) :
m_GPUCoalescer_ptr(_seq) {}
void process() { m_GPUCoalescer_ptr->wakeup(); }
const char *description() const
{
return "GPUCoalescer deadlock check";
}
};
GPUCoalescerWakeupEvent deadlockCheckEvent;
bool assumingRfOCoherence;
// m5 style stats for TCP hit/miss counts
Stats::Scalar GPU_TCPLdHits;
Stats::Scalar GPU_TCPLdTransfers;
Stats::Scalar GPU_TCCLdHits;
Stats::Scalar GPU_LdMiss;
Stats::Scalar GPU_TCPStHits;
Stats::Scalar GPU_TCPStTransfers;
Stats::Scalar GPU_TCCStHits;
Stats::Scalar GPU_StMiss;
Stats::Scalar CP_TCPLdHits;
Stats::Scalar CP_TCPLdTransfers;
Stats::Scalar CP_TCCLdHits;
Stats::Scalar CP_LdMiss;
Stats::Scalar CP_TCPStHits;
Stats::Scalar CP_TCPStTransfers;
Stats::Scalar CP_TCCStHits;
Stats::Scalar CP_StMiss;
//! Histogram for number of outstanding requests per cycle.
Stats::Histogram m_outstandReqHist;
//! Histogram for holding latency profile of all requests.
Stats::Histogram m_latencyHist;
std::vector<Stats::Histogram *> m_typeLatencyHist;
//! Histogram for holding latency profile of all requests that
//! miss in the controller connected to this sequencer.
Stats::Histogram m_missLatencyHist;
std::vector<Stats::Histogram *> m_missTypeLatencyHist;
//! Histograms for profiling the latencies for requests that
//! required external messages.
std::vector<Stats::Histogram *> m_missMachLatencyHist;
std::vector< std::vector<Stats::Histogram *> > m_missTypeMachLatencyHist;
//! Histograms for recording the breakdown of miss latency
std::vector<Stats::Histogram *> m_IssueToInitialDelayHist;
std::vector<Stats::Histogram *> m_InitialToForwardDelayHist;
std::vector<Stats::Histogram *> m_ForwardToFirstResponseDelayHist;
std::vector<Stats::Histogram *> m_FirstResponseToCompletionDelayHist;
};
inline std::ostream&
operator<<(std::ostream& out, const GPUCoalescer& obj)
{
obj.print(out);
out << std::flush;
return out;
}
#endif // __MEM_RUBY_SYSTEM_GPU_COALESCER_HH__
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