diff options
author | Neha Agarwal <neha.agarwal@arm.com> | 2013-11-01 11:56:25 -0400 |
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committer | Neha Agarwal <neha.agarwal@arm.com> | 2013-11-01 11:56:25 -0400 |
commit | da6fd72f62578d0a981de8bb37dfb803d6c13f8a (patch) | |
tree | 01f84f28e4e1365fa3232c24a9415a50707ec35b /src | |
parent | ee6b41a1e41656b15f9f77bff5effbba27133603 (diff) | |
download | gem5-da6fd72f62578d0a981de8bb37dfb803d6c13f8a.tar.xz |
mem: Just-in-time write scheduling in DRAM controller
This patch removes the untimed while loop in the write scheduling
mechanism and now schedule commands taking into account the minimum
timing constraint. It also introduces an optimization to track write
queue size and switch from writes to reads if the number of write
requests fall below write low threshold.
Diffstat (limited to 'src')
-rw-r--r-- | src/mem/SimpleDRAM.py | 12 | ||||
-rw-r--r-- | src/mem/simple_dram.cc | 92 | ||||
-rw-r--r-- | src/mem/simple_dram.hh | 15 |
3 files changed, 68 insertions, 51 deletions
diff --git a/src/mem/SimpleDRAM.py b/src/mem/SimpleDRAM.py index 81bb0ff42..c450f8992 100644 --- a/src/mem/SimpleDRAM.py +++ b/src/mem/SimpleDRAM.py @@ -69,12 +69,18 @@ class SimpleDRAM(AbstractMemory): port = SlavePort("Slave port") # the basic configuration of the controller architecture - write_buffer_size = Param.Unsigned(32, "Number of read queue entries") - read_buffer_size = Param.Unsigned(32, "Number of write queue entries") + write_buffer_size = Param.Unsigned(32, "Number of write queue entries") + read_buffer_size = Param.Unsigned(32, "Number of read queue entries") # threshold in percent for when to trigger writes and start # emptying the write buffer as it starts to get full - write_thresh_perc = Param.Percent(70, "Threshold to trigger writes") + write_high_thresh_perc = Param.Percent(70, "Threshold to trigger writes") + + # threshold in percentage for when to stop writes if the read + # queue has an entry. An optimisaton to give reads priority if + # sufficient number of writes are scheduled and write queue has + # sufficient number of free entries + write_low_thresh_perc = Param.Percent(0, "Threshold to stop writes") # scheduler, address map and page policy mem_sched_policy = Param.MemSched('frfcfs', "Memory scheduling policy") diff --git a/src/mem/simple_dram.cc b/src/mem/simple_dram.cc index 7e377b861..2d46b8522 100644 --- a/src/mem/simple_dram.cc +++ b/src/mem/simple_dram.cc @@ -67,7 +67,8 @@ SimpleDRAM::SimpleDRAM(const SimpleDRAMParams* p) : banksPerRank(p->banks_per_rank), channels(p->channels), rowsPerBank(0), readBufferSize(p->read_buffer_size), writeBufferSize(p->write_buffer_size), - writeThresholdPerc(p->write_thresh_perc), + writeHighThresholdPerc(p->write_high_thresh_perc), + writeLowThresholdPerc(p->write_low_thresh_perc), tWTR(p->tWTR), tBURST(p->tBURST), tRCD(p->tRCD), tCL(p->tCL), tRP(p->tRP), tRAS(p->tRAS), tRFC(p->tRFC), tREFI(p->tREFI), tRRD(p->tRRD), @@ -77,7 +78,8 @@ SimpleDRAM::SimpleDRAM(const SimpleDRAMParams* p) : frontendLatency(p->static_frontend_latency), backendLatency(p->static_backend_latency), busBusyUntil(0), writeStartTime(0), - prevArrival(0), numReqs(0) + prevArrival(0), numReqs(0), + numWritesThisTime(0), newTime(0) { // create the bank states based on the dimensions of the ranks and // banks @@ -88,9 +90,10 @@ SimpleDRAM::SimpleDRAM(const SimpleDRAMParams* p) : actTicks[c].resize(activationLimit, 0); } - // round the write threshold percent to a whole number of entries - // in the buffer - writeThreshold = writeBufferSize * writeThresholdPerc / 100.0; + // round the write thresholds percent to a whole number of entries + // in the buffer. + writeHighThreshold = writeBufferSize * writeHighThresholdPerc / 100.0; + writeLowThreshold = writeBufferSize * writeLowThresholdPerc / 100.0; } void @@ -384,29 +387,20 @@ void SimpleDRAM::processWriteEvent() { assert(!writeQueue.empty()); - uint32_t numWritesThisTime = 0; - DPRINTF(DRAM, "Beginning DRAM Writes\n"); + DPRINTF(DRAM, "Beginning DRAM Write\n"); Tick temp1 M5_VAR_USED = std::max(curTick(), busBusyUntil); Tick temp2 M5_VAR_USED = std::max(curTick(), maxBankFreeAt()); - // @todo: are there any dangers with the untimed while loop? - while (!writeQueue.empty()) { - if (numWritesThisTime >= writeThreshold) { - DPRINTF(DRAM, "Hit write threshold %d\n", writeThreshold); - break; - } - - chooseNextWrite(); - DRAMPacket* dram_pkt = writeQueue.front(); - // sanity check - assert(dram_pkt->size <= burstSize); - doDRAMAccess(dram_pkt); + chooseNextWrite(); + DRAMPacket* dram_pkt = writeQueue.front(); + // sanity check + assert(dram_pkt->size <= burstSize); + doDRAMAccess(dram_pkt); - writeQueue.pop_front(); - delete dram_pkt; - numWritesThisTime++; - } + writeQueue.pop_front(); + delete dram_pkt; + numWritesThisTime++; DPRINTF(DRAM, "Completed %d writes, bus busy for %lld ticks,"\ "banks busy for %lld ticks\n", numWritesThisTime, @@ -415,9 +409,28 @@ SimpleDRAM::processWriteEvent() // Update stats avgWrQLen = writeQueue.size(); - // turn the bus back around for reads again - busBusyUntil += tWTR; - stopReads = false; + if (numWritesThisTime >= writeHighThreshold) { + DPRINTF(DRAM, "Hit write threshold %d\n", writeHighThreshold); + } + + // If number of writes in the queue fall below the low thresholds and + // read queue is not empty then schedule a request event else continue + // with writes. The retry above could already have caused it to be + // scheduled, so first check + if (((writeQueue.size() <= writeLowThreshold) && !readQueue.empty()) || + writeQueue.empty()) { + numWritesThisTime = 0; + // turn the bus back around for reads again + busBusyUntil += tWTR; + stopReads = false; + + if (!nextReqEvent.scheduled()) + schedule(nextReqEvent, busBusyUntil); + } else { + assert(!writeEvent.scheduled()); + DPRINTF(DRAM, "Next write scheduled at %lld\n", newTime); + schedule(writeEvent, newTime); + } if (retryWrReq) { retryWrReq = false; @@ -430,13 +443,6 @@ SimpleDRAM::processWriteEvent() drainManager->signalDrainDone(); drainManager = NULL; } - - // Once you're done emptying the write queue, check if there's - // anything in the read queue, and call schedule if required. The - // retry above could already have caused it to be scheduled, so - // first check - if (!nextReqEvent.scheduled()) - schedule(nextReqEvent, busBusyUntil); } @@ -565,7 +571,7 @@ SimpleDRAM::addToWriteQueue(PacketPtr pkt, unsigned int pktCount) accessAndRespond(pkt, frontendLatency); // If your write buffer is starting to fill up, drain it! - if (writeQueue.size() >= writeThreshold && !stopReads){ + if (writeQueue.size() >= writeHighThreshold && !stopReads){ triggerWrites(); } } @@ -602,7 +608,7 @@ SimpleDRAM::printParams() const "Scheduler %s\n" \ "Address mapping %s\n" \ "Page policy %s\n", - name(), readBufferSize, writeBufferSize, writeThreshold, + name(), readBufferSize, writeBufferSize, writeHighThreshold, scheduler, address_mapping, page_policy); DPRINTF(DRAM, "Memory controller %s timing specs\n" \ @@ -1119,6 +1125,10 @@ SimpleDRAM::doDRAMAccess(DRAMPacket* dram_pkt) writeRowHits++; } + // Update the minimum timing between the requests + newTime = (busBusyUntil > tRP + tRCD + tCL) ? + std::max(busBusyUntil - (tRP + tRCD + tCL), curTick()) : curTick(); + // At this point, commonality between reads and writes ends. // For writes, we are done since we long ago responded to the // requestor. We also don't care about stats for writes. For @@ -1142,23 +1152,13 @@ SimpleDRAM::doDRAMAccess(DRAMPacket* dram_pkt) //time moveToRespQ(); - // The absolute soonest you have to start thinking about the - // next request is the longest access time that can occur before - // busBusyUntil. Assuming you need to precharge, - // open a new row, and access, it is tRP + tRCD + tCL - - Tick newTime = (busBusyUntil > tRP + tRCD + tCL ) ? - std::max(busBusyUntil - (tRP + tRCD + tCL) , curTick()) : - curTick(); - + // Schedule the next read event if (!nextReqEvent.scheduled() && !stopReads){ schedule(nextReqEvent, newTime); } else { if (newTime < nextReqEvent.when()) reschedule(nextReqEvent, newTime); } - - } void diff --git a/src/mem/simple_dram.hh b/src/mem/simple_dram.hh index dfb8fc15f..a7a100d7c 100644 --- a/src/mem/simple_dram.hh +++ b/src/mem/simple_dram.hh @@ -472,8 +472,10 @@ class SimpleDRAM : public AbstractMemory uint32_t columnsPerRowBuffer; const uint32_t readBufferSize; const uint32_t writeBufferSize; - const double writeThresholdPerc; - uint32_t writeThreshold; + const double writeHighThresholdPerc; + uint32_t writeHighThreshold; + const double writeLowThresholdPerc; + uint32_t writeLowThreshold; /** * Basic memory timing parameters initialized based on parameter @@ -522,6 +524,15 @@ class SimpleDRAM : public AbstractMemory Tick prevArrival; int numReqs; + // Tracks number of writes done to meet the write threshold + uint32_t numWritesThisTime; + + // The absolute soonest you have to start thinking about the + // next request is the longest access time that can occur before + // busBusyUntil. Assuming you need to precharge, + // open a new row, and access, it is tRP + tRCD + tCL + Tick newTime; + // All statistics that the model needs to capture Stats::Scalar readReqs; Stats::Scalar writeReqs; |