double sampling_rate;
explicit Governor(simgrid::s4u::Host* ptr) : host(ptr) { init(); }
+ virtual ~Governor() = default;
void init()
{
}
}
- virtual void update() {}
+ virtual void update() = 0;
+ virtual std::string getName() = 0;
double samplingRate() { return sampling_rate; }
};
public:
explicit Performance(simgrid::s4u::Host* ptr) : Governor(ptr) {}
- void update() { host->setPstate(0); }
+ void update() override { host->setPstate(0); }
+ std::string getName() override { return "Performance"; }
};
class Powersave : public Governor {
public:
explicit Powersave(simgrid::s4u::Host* ptr) : Governor(ptr) {}
- void update() { host->setPstate(host->getPstatesCount() - 1); }
+ void update() override { host->setPstate(host->getPstatesCount() - 1); }
+ std::string getName() override { return "Powersave"; }
};
class OnDemand : public Governor {
public:
explicit OnDemand(simgrid::s4u::Host* ptr) : Governor(ptr) {}
- void update()
+ std::string getName() override { return "OnDemand"; }
+ void update() override
{
double load = sg_host_get_current_load(host);
- if (load > freq_up_threshold) {
+ // FIXME I don't like that we multiply with the getCoreCount() just here...
+ if (load*host->getCoreCount() > freq_up_threshold) {
host->setPstate(0); /* Run at max. performance! */
- XBT_INFO("Changed to pstate %f", 0.0);
+ XBT_INFO("Load: %f > threshold: %f --> changed to pstate %i", load * host->getCoreCount(), freq_up_threshold, 0);
} else {
/* The actual implementation uses a formula here: (See Kernel file cpufreq_ondemand.c:158)
*
- * freq_next = min_f + load * (max_f - min_f) / 100;
+ * freq_next = min_f + load * (max_f - min_f) / 100
*
* So they assume that frequency increases by 100 MHz. We will just use
- * lowest_pstate - load*pstatesCount();
+ * lowest_pstate - load*pstatesCount()
*/
int max_pstate = host->getPstatesCount() - 1;
+ int new_pstate = max_pstate - load * max_pstate;
+ host->setPstate(new_pstate);
- host->setPstate(max_pstate - load * max_pstate);
- XBT_INFO("Changed to pstate %f -- check: %i", max_pstate - load * max_pstate, host->getPstate());
+ XBT_DEBUG("Load: %f --> changed to pstate %i", load*host->getCoreCount(), new_pstate);
}
}
};
public:
explicit Conservative(simgrid::s4u::Host* ptr) : Governor(ptr) {}
- void update()
+ virtual std::string getName() override { return "Conservative"; }
+ virtual void update() override
{
- double load = sg_host_get_current_load(host);
+ double load = sg_host_get_current_load(host)*host->getCoreCount();
int pstate = host->getPstate();
if (load > freq_up_threshold) {
if (pstate != 0) {
host->setPstate(pstate - 1);
- XBT_INFO("Increasing performance to pstate %d", pstate - 1);
+ XBT_INFO("Load: %f > threshold: %f -> increasing performance to pstate %d", load, freq_up_threshold, pstate - 1);
}
else {
- XBT_DEBUG("Cannot speed up even more, already in slowest pstate %d", pstate);
+ XBT_DEBUG("Load: %f > threshold: %f -> but cannot speed up even more, already in highest pstate %d", load, freq_up_threshold, pstate);
}
- }
-
- if (load < freq_down_threshold) {
+ } else if (load < freq_down_threshold) {
int max_pstate = host->getPstatesCount() - 1;
if (pstate != max_pstate) { // Are we in the slowest pstate already?
host->setPstate(pstate + 1);
- XBT_INFO("Slowing down to pstate %d", pstate + 1);
+ XBT_INFO("Load: %f < threshold: %f -> slowing down to pstate %d", load, freq_down_threshold, pstate + 1);
}
else {
- XBT_DEBUG("Cannot slow down even more, already in slowest pstate %d", pstate);
+ XBT_DEBUG("Load: %f < threshold: %f -> cannot slow down even more, already in slowest pstate %d", load, freq_down_threshold, pstate);
}
}
}
};
-}
class HostDvfs {
public:
HostDvfs::~HostDvfs() = default;
}
}
+}
-using simgrid::plugin::HostDvfs;
+using simgrid::plugin::dvfs::HostDvfs;
/* **************************** events callback *************************** */
static void on_host_added(simgrid::s4u::Host& host)
boost::algorithm::to_lower(dvfs_governor);
}
- simgrid::plugin::dvfs::Governor governor(daemonProc->getHost());
- if (dvfs_governor == "conservative") {
- governor = simgrid::plugin::dvfs::Conservative(daemonProc->getHost());
- }
+ auto governor = [&dvfs_governor, &daemonProc]() {
+ if (dvfs_governor == "conservative") {
+ return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
+ new simgrid::plugin::dvfs::Conservative(daemonProc->getHost()));
+ } else if (dvfs_governor == "ondemand") {
+ return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
+ new simgrid::plugin::dvfs::OnDemand(daemonProc->getHost()));
+ } else if (dvfs_governor == "performance") {
+ return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
+ new simgrid::plugin::dvfs::Performance(daemonProc->getHost()));
+ } else if (dvfs_governor == "powersave") {
+ return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
+ new simgrid::plugin::dvfs::Powersave(daemonProc->getHost()));
+ } else {
+ XBT_CRITICAL("No governor specified for host %s, falling back to Performance",
+ daemonProc->getHost()->getCname());
+ return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
+ new simgrid::plugin::dvfs::Performance(daemonProc->getHost()));
+ }
+ }();
while (1) {
// Sleep *before* updating; important for startup (i.e., t = 0).
// In the beginning, we want to go with the pstates specified in the platform file
// (so we sleep first)
- simgrid::s4u::this_actor::sleep_for(governor.samplingRate());
- governor.update();
- XBT_INFO("Governor just updated!");
+ simgrid::s4u::this_actor::sleep_for(governor->samplingRate());
+ governor->update();
+ XBT_DEBUG("Governor (%s) just updated!", governor->getName().c_str());
}
XBT_WARN("I should have never reached this point: daemons should be killed when all regular processes are done");
}
/* **************************** Public interface *************************** */
-SG_BEGIN_DECL()
+extern "C" {
/** \ingroup SURF_plugin_load
* \brief Initializes the HostDvfs plugin
xbt_cfg_register_string("plugin/dvfs/governor", "performance", nullptr,
"Which Governor should be used that adapts the CPU frequency?");
}
-
-SG_END_DECL()
+}