From 87f4c956c48aa7e66162c73dabba199f7c25638a Mon Sep 17 00:00:00 2001 From: Andreas Hansson Date: Fri, 9 May 2014 18:58:48 -0400 Subject: mem: Add DRAM power states to the controller This patch adds power states to the controller. These states and the transitions can be used together with the Micron power model. As a more elaborate use-case, the transitions can be used to drive the DRAMPower tool. At the moment, the power-down modes are not used, and this patch simply serves to capture the idle, auto refresh and active modes. The patch adds a third state machine that interacts with the refresh state machine. --- src/mem/SConscript | 1 + src/mem/dram_ctrl.cc | 218 ++++++++++++++++++++++++++++++++++++++------------- src/mem/dram_ctrl.hh | 65 +++++++++++++-- 3 files changed, 222 insertions(+), 62 deletions(-) (limited to 'src/mem') diff --git a/src/mem/SConscript b/src/mem/SConscript index c513004d2..ca1080162 100644 --- a/src/mem/SConscript +++ b/src/mem/SConscript @@ -81,6 +81,7 @@ CompoundFlag('Bus', ['BaseBus', 'BusAddrRanges', 'CoherentBus', DebugFlag('Bridge') DebugFlag('CommMonitor') DebugFlag('DRAM') +DebugFlag('DRAMState') DebugFlag('LLSC') DebugFlag('MMU') DebugFlag('MemoryAccess') diff --git a/src/mem/dram_ctrl.cc b/src/mem/dram_ctrl.cc index 13ab60e35..3774220b5 100644 --- a/src/mem/dram_ctrl.cc +++ b/src/mem/dram_ctrl.cc @@ -45,6 +45,7 @@ #include "base/bitfield.hh" #include "base/trace.hh" #include "debug/DRAM.hh" +#include "debug/DRAMState.hh" #include "debug/Drain.hh" #include "mem/dram_ctrl.hh" #include "sim/system.hh" @@ -56,8 +57,9 @@ DRAMCtrl::DRAMCtrl(const DRAMCtrlParams* p) : port(name() + ".port", *this), retryRdReq(false), retryWrReq(false), rowHitFlag(false), busState(READ), - respondEvent(this), refreshEvent(this), - nextReqEvent(this), drainManager(NULL), + nextReqEvent(this), respondEvent(this), activateEvent(this), + prechargeEvent(this), refreshEvent(this), powerEvent(this), + drainManager(NULL), deviceBusWidth(p->device_bus_width), burstLength(p->burst_length), deviceRowBufferSize(p->device_rowbuffer_size), devicesPerRank(p->devices_per_rank), @@ -81,8 +83,9 @@ DRAMCtrl::DRAMCtrl(const DRAMCtrlParams* p) : maxAccessesPerRow(p->max_accesses_per_row), frontendLatency(p->static_frontend_latency), backendLatency(p->static_backend_latency), - busBusyUntil(0), refreshDueAt(0), refreshState(REF_IDLE), prevArrival(0), - nextReqTime(0), idleStartTick(0), numBanksActive(0) + busBusyUntil(0), refreshDueAt(0), refreshState(REF_IDLE), + pwrStateTrans(PWR_IDLE), pwrState(PWR_IDLE), prevArrival(0), + nextReqTime(0), pwrStateTick(0), numBanksActive(0) { // create the bank states based on the dimensions of the ranks and // banks @@ -154,7 +157,7 @@ DRAMCtrl::startup() { // update the start tick for the precharge accounting to the // current tick - idleStartTick = curTick(); + pwrStateTick = curTick(); // shift the bus busy time sufficiently far ahead that we never // have to worry about negative values when computing the time for @@ -885,16 +888,6 @@ DRAMCtrl::recordActivate(Tick act_tick, uint8_t rank, uint8_t bank, DPRINTF(DRAM, "Activate at tick %d\n", act_tick); - // idleStartTick is the tick when all the banks were - // precharged. Thus, the difference between act_tick and - // idleStartTick gives the time for which the DRAM is in an idle - // state with all banks precharged. Note that we may end up - // "changing history" by scheduling an activation before an - // already scheduled precharge, effectively canceling it out. - if (numBanksActive == 0 && act_tick > idleStartTick) { - prechargeAllTime += act_tick - idleStartTick; - } - // update the open row assert(banks[rank][bank].openRow == Bank::NO_ROW); banks[rank][bank].openRow = row; @@ -916,6 +909,7 @@ DRAMCtrl::recordActivate(Tick act_tick, uint8_t rank, uint8_t bank, // next activate must not happen before tRRD banks[rank][i].actAllowedAt = act_tick + tRRD; } + // tRC should be added to activation tick of the bank currently accessed, // where tRC = tRAS + tRP, this is just for a check as actAllowedAt for same // bank is already captured by bank.freeAt and bank.tRASDoneAt @@ -951,6 +945,24 @@ DRAMCtrl::recordActivate(Tick act_tick, uint8_t rank, uint8_t bank, // next activate must not happen before end of window banks[rank][j].actAllowedAt = actTicks[rank].back() + tXAW; } + + // at the point when this activate takes place, make sure we + // transition to the active power state + if (!activateEvent.scheduled()) + schedule(activateEvent, act_tick); + else if (activateEvent.when() > act_tick) + // move it sooner in time + reschedule(activateEvent, act_tick); +} + +void +DRAMCtrl::processActivateEvent() +{ + // we should transition to the active state as soon as any bank is active + if (pwrState != PWR_ACT) + // note that at this point numBanksActive could be back at + // zero again due to a precharge scheduled in the future + schedulePowerEvent(PWR_ACT, curTick()); } void @@ -973,12 +985,27 @@ DRAMCtrl::prechargeBank(Bank& bank, Tick free_at) DPRINTF(DRAM, "Precharged bank, done at tick %lld, now got %d active\n", bank.freeAt, numBanksActive); + // if we look at the current number of active banks we might be + // tempted to think the DRAM is now idle, however this can be + // undone by an activate that is scheduled to happen before we + // would have reached the idle state, so schedule an event and + // rather check once we actually make it to the point in time when + // the (last) precharge takes place + if (!prechargeEvent.scheduled()) + schedule(prechargeEvent, free_at); + else if (prechargeEvent.when() < free_at) + reschedule(prechargeEvent, free_at); +} + +void +DRAMCtrl::processPrechargeEvent() +{ // if we reached zero, then special conditions apply as we track // if all banks are precharged for the power models if (numBanksActive == 0) { - idleStartTick = std::max(idleStartTick, bank.freeAt); - DPRINTF(DRAM, "All banks precharged at tick: %ld\n", - idleStartTick); + // we should transition to the idle state when the last bank + // is precharged + schedulePowerEvent(PWR_IDLE, curTick()); } } @@ -1412,31 +1439,39 @@ DRAMCtrl::processRefreshEvent() // at this point, ensure that all banks are precharged if (refreshState == REF_PRE) { - DPRINTF(DRAM, "Precharging all\n"); - - // precharge any active bank - for (int i = 0; i < ranksPerChannel; i++) { - for (int j = 0; j < banksPerRank; j++) { - if (banks[i][j].openRow != Bank::NO_ROW) { - // respect both causality and any existing bank - // constraints - Tick free_at = std::max(std::max(banks[i][j].freeAt, - banks[i][j].tRASDoneAt), - curTick()) + tRP; - - prechargeBank(banks[i][j], free_at); + // precharge any active bank if we are not already in the idle + // state + if (pwrState != PWR_IDLE) { + DPRINTF(DRAM, "Precharging all\n"); + for (int i = 0; i < ranksPerChannel; i++) { + for (int j = 0; j < banksPerRank; j++) { + if (banks[i][j].openRow != Bank::NO_ROW) { + // respect both causality and any existing bank + // constraints + Tick free_at = + std::max(std::max(banks[i][j].freeAt, + banks[i][j].tRASDoneAt), + curTick()) + tRP; + + prechargeBank(banks[i][j], free_at); + } } } - } + } else { + DPRINTF(DRAM, "All banks already precharged, starting refresh\n"); - if (numBanksActive != 0) - panic("Refresh scheduled with %d active banks\n", numBanksActive); + // go ahead and kick the power state machine into gear if + // we are already idle + schedulePowerEvent(PWR_REF, curTick()); + } - // advance the state refreshState = REF_RUN; + assert(numBanksActive == 0); - // call ourselves in the future - schedule(refreshEvent, std::max(curTick(), idleStartTick)); + // wait for all banks to be precharged, at which point the + // power state machine will transition to the idle state, and + // automatically move to a refresh, at that point it will also + // call this method to get the refresh event loop going again return; } @@ -1444,6 +1479,7 @@ DRAMCtrl::processRefreshEvent() if (refreshState == REF_RUN) { // should never get here with any banks active assert(numBanksActive == 0); + assert(pwrState == PWR_REF); Tick banksFree = curTick() + tRFC; @@ -1463,18 +1499,90 @@ DRAMCtrl::processRefreshEvent() // when scheduling the next one schedule(refreshEvent, refreshDueAt + tREFI - tRP); - // back to business as usual - refreshState = REF_IDLE; + assert(!powerEvent.scheduled()); + + // move to the idle power state once the refresh is done, this + // will also move the refresh state machine to the refresh + // idle state + schedulePowerEvent(PWR_IDLE, banksFree); + + DPRINTF(DRAMState, "Refresh done at %llu and next refresh at %llu\n", + banksFree, refreshDueAt + tREFI); + } +} + +void +DRAMCtrl::schedulePowerEvent(PowerState pwr_state, Tick tick) +{ + // respect causality + assert(tick >= curTick()); + + if (!powerEvent.scheduled()) { + DPRINTF(DRAMState, "Scheduling power event at %llu to state %d\n", + tick, pwr_state); + + // insert the new transition + pwrStateTrans = pwr_state; + + schedule(powerEvent, tick); + } else { + panic("Scheduled power event at %llu to state %d, " + "with scheduled event at %llu to %d\n", tick, pwr_state, + powerEvent.when(), pwrStateTrans); + } +} + +void +DRAMCtrl::processPowerEvent() +{ + // remember where we were, and for how long + Tick duration = curTick() - pwrStateTick; + PowerState prev_state = pwrState; + + // update the accounting + pwrStateTime[prev_state] += duration; - // we are now refreshing until tRFC is done - idleStartTick = banksFree; + pwrState = pwrStateTrans; + pwrStateTick = curTick(); - // kick the normal request processing loop into action again - // as early as possible, i.e. when the request is done, the - // scheduling of this event also prevents any new requests - // from going ahead before the scheduled point in time - nextReqTime = banksFree; - schedule(nextReqEvent, nextReqTime); + if (pwrState == PWR_IDLE) { + DPRINTF(DRAMState, "All banks precharged\n"); + + // if we were refreshing, make sure we start scheduling requests again + if (prev_state == PWR_REF) { + DPRINTF(DRAMState, "Was refreshing for %llu ticks\n", duration); + assert(pwrState == PWR_IDLE); + + // kick things into action again + refreshState = REF_IDLE; + assert(!nextReqEvent.scheduled()); + schedule(nextReqEvent, curTick()); + } else { + assert(prev_state == PWR_ACT); + + // if we have a pending refresh, and are now moving to + // the idle state, direclty transition to a refresh + if (refreshState == REF_RUN) { + // there should be nothing waiting at this point + assert(!powerEvent.scheduled()); + + // update the state in zero time and proceed below + pwrState = PWR_REF; + } + } + } + + // we transition to the refresh state, let the refresh state + // machine know of this state update and let it deal with the + // scheduling of the next power state transition as well as the + // following refresh + if (pwrState == PWR_REF) { + DPRINTF(DRAMState, "Refreshing\n"); + // kick the refresh event loop into action again, and that + // in turn will schedule a transition to the idle power + // state once the refresh is done + assert(refreshState == REF_RUN); + processRefreshEvent(); } } @@ -1744,13 +1852,15 @@ DRAMCtrl::regStats() pageHitRate = (writeRowHits + readRowHits) / (writeBursts - mergedWrBursts + readBursts - servicedByWrQ) * 100; - prechargeAllPercent - .name(name() + ".prechargeAllPercent") - .desc("Percentage of time for which DRAM has all the banks in " - "precharge state") - .precision(2); - - prechargeAllPercent = prechargeAllTime / simTicks * 100; + pwrStateTime + .init(5) + .name(name() + ".memoryStateTime") + .desc("Time in different power states"); + pwrStateTime.subname(0, "IDLE"); + pwrStateTime.subname(1, "REF"); + pwrStateTime.subname(2, "PRE_PDN"); + pwrStateTime.subname(3, "ACT"); + pwrStateTime.subname(4, "ACT_PDN"); } void diff --git a/src/mem/dram_ctrl.hh b/src/mem/dram_ctrl.hh index af802374a..5f2a2c12b 100644 --- a/src/mem/dram_ctrl.hh +++ b/src/mem/dram_ctrl.hh @@ -260,15 +260,23 @@ class DRAMCtrl : public AbstractMemory * processRespondEvent is called; no parameters are allowed * in these methods */ + void processNextReqEvent(); + EventWrapper nextReqEvent; + void processRespondEvent(); EventWrapper respondEvent; + void processActivateEvent(); + EventWrapper activateEvent; + + void processPrechargeEvent(); + EventWrapper prechargeEvent; + void processRefreshEvent(); EventWrapper refreshEvent; - void processNextReqEvent(); - EventWrapper nextReqEvent; - + void processPowerEvent(); + EventWrapper powerEvent; /** * Check if the read queue has room for more entries @@ -549,6 +557,49 @@ class DRAMCtrl : public AbstractMemory RefreshState refreshState; + /** + * The power state captures the different operational states of + * the DRAM and interacts with the bus read/write state machine, + * and the refresh state machine. In the idle state all banks are + * precharged. From there we either go to an auto refresh (as + * determined by the refresh state machine), or to a precharge + * power down mode. From idle the memory can also go to the active + * state (with one or more banks active), and in turn from there + * to active power down. At the moment we do not capture the deep + * power down and self-refresh state. + */ + enum PowerState { + PWR_IDLE = 0, + PWR_REF, + PWR_PRE_PDN, + PWR_ACT, + PWR_ACT_PDN + }; + + /** + * Since we are taking decisions out of order, we need to keep + * track of what power transition is happening at what time, such + * that we can go back in time and change history. For example, if + * we precharge all banks and schedule going to the idle state, we + * might at a later point decide to activate a bank before the + * transition to idle would have taken place. + */ + PowerState pwrStateTrans; + + /** + * Current power state. + */ + PowerState pwrState; + + /** + * Schedule a power state transition in the future, and + * potentially override an already scheduled transition. + * + * @param pwr_state Power state to transition to + * @param tick Tick when transition should take place + */ + void schedulePowerEvent(PowerState pwr_state, Tick tick); + Tick prevArrival; /** @@ -620,12 +671,10 @@ class DRAMCtrl : public AbstractMemory // DRAM Power Calculation Stats::Formula pageHitRate; - Stats::Formula prechargeAllPercent; - Stats::Scalar prechargeAllTime; + Stats::Vector pwrStateTime; - // To track number of cycles the DRAM is idle, i.e. all the banks - // are precharged - Tick idleStartTick; + // Track when we transitioned to the current power state + Tick pwrStateTick; // To track number of banks which are currently active unsigned int numBanksActive; -- cgit v1.2.3