-/* Copyright (c) 2010-2018. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2010-2019. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
#include "simgrid/plugins/dvfs.h"
#include "simgrid/plugins/load.h"
#include "simgrid/s4u/Engine.hpp"
+#include "src/internal_config.h" // HAVE_SMPI
#include "src/kernel/activity/ExecImpl.hpp"
#include "src/plugins/vm/VirtualMachineImpl.hpp"
+#if HAVE_SMPI
#include "src/smpi/plugins/ampi/ampi.hpp"
+#endif
#include <xbt/config.hpp>
#include <boost/algorithm/string.hpp>
+#if HAVE_SMPI
+#include "src/smpi/include/smpi_request.hpp"
+#endif
SIMGRID_REGISTER_PLUGIN(host_dvfs, "Dvfs support", &sg_host_dvfs_plugin_init)
[](double val){if (val != 0.1) sg_host_dvfs_plugin_init();});
static simgrid::config::Flag<std::string> cfg_governor("plugin/dvfs/governor",
- "Which Governor should be used that adapts the CPU frequency?", "performance",
-
- std::map<std::string, std::string>({
- {"adagio", "TODO: Doc"},
- {"conservative", "TODO: Doc"},
- {"ondemand", "TODO: Doc"},
- {"performance", "TODO: Doc"},
- {"powersave", "TODO: Doc"},
- }),
-
- [](std::string val) { if (val != "performance") sg_host_dvfs_plugin_init(); });
+ "Which Governor should be used that adapts the CPU frequency?",
+ "performance",
+
+ std::map<std::string, std::string>({
+#if HAVE_SMPI
+ {"adagio", "TODO: Doc"},
+#endif
+ {"conservative", "TODO: Doc"}, {"ondemand", "TODO: Doc"},
+ {"performance", "TODO: Doc"}, {"powersave", "TODO: Doc"},
+ }),
+
+ [](const std::string& val) {
+ if (val != "performance")
+ sg_host_dvfs_plugin_init();
+ });
+
+static simgrid::config::Flag<int>
+ cfg_min_pstate("plugin/dvfs/min-pstate", {"plugin/dvfs/min_pstate"},
+ "Which pstate is the minimum (and hence fastest) pstate for this governor?", 0);
+
+static const int max_pstate_not_limited = -1;
+static simgrid::config::Flag<int>
+ cfg_max_pstate("plugin/dvfs/max-pstate", {"plugin/dvfs/max_pstate"},
+ "Which pstate is the maximum (and hence slowest) pstate for this governor?", max_pstate_not_limited);
/** @addtogroup SURF_plugin_load
private:
simgrid::s4u::Host* const host_;
double sampling_rate_;
+ int min_pstate; //< Never use a pstate less than this one
+ int max_pstate; //< Never use a pstate larger than this one
public:
-
- explicit Governor(simgrid::s4u::Host* ptr) : host_(ptr) { init(); }
+ explicit Governor(simgrid::s4u::Host* ptr)
+ : host_(ptr)
+ , min_pstate(cfg_min_pstate)
+ , max_pstate(cfg_max_pstate == max_pstate_not_limited ? host_->get_pstate_count() - 1 : cfg_max_pstate)
+ {
+ init();
+ }
virtual ~Governor() = default;
virtual std::string get_name() const = 0;
simgrid::s4u::Host* get_host() const { return host_; }
+ int get_min_pstate() const { return min_pstate; }
+ int get_max_pstate() const { return max_pstate; }
void init()
{
const char* local_sampling_rate_config = host_->get_property(cfg_sampling_rate.get_name());
- double global_sampling_rate_config = cfg_sampling_rate;
if (local_sampling_rate_config != nullptr) {
sampling_rate_ = std::stod(local_sampling_rate_config);
} else {
- sampling_rate_ = global_sampling_rate_config;
+ sampling_rate_ = cfg_sampling_rate;
+ }
+ const char* local_min_pstate_config = host_->get_property(cfg_min_pstate.get_name());
+ if (local_min_pstate_config != nullptr) {
+ min_pstate = std::stoi(local_min_pstate_config);
}
+
+ const char* local_max_pstate_config = host_->get_property(cfg_max_pstate.get_name());
+ if (local_max_pstate_config != nullptr) {
+ max_pstate = std::stod(local_max_pstate_config);
+ }
+ xbt_assert(max_pstate <= host_->get_pstate_count() - 1, "Value for max_pstate too large!");
+ xbt_assert(min_pstate <= max_pstate, "min_pstate is larger than max_pstate!");
+ xbt_assert(0 <= min_pstate, "min_pstate is negative!");
}
virtual void update() = 0;
explicit Performance(simgrid::s4u::Host* ptr) : Governor(ptr) {}
std::string get_name() const override { return "Performance"; }
- void update() override { get_host()->set_pstate(0); }
+ void update() override { get_host()->set_pstate(get_min_pstate()); }
};
/**
explicit Powersave(simgrid::s4u::Host* ptr) : Governor(ptr) {}
std::string get_name() const override { return "Powersave"; }
- void update() override { get_host()->set_pstate(get_host()->get_pstate_count() - 1); }
+ void update() override { get_host()->set_pstate(get_max_pstate()); }
};
/**
sg_host_load_reset(get_host()); // Only consider the period between two calls to this method!
if (load > freq_up_threshold_) {
- get_host()->set_pstate(0); /* Run at max. performance! */
- XBT_INFO("Load: %f > threshold: %f --> changed to pstate %i", load, freq_up_threshold_, 0);
+ get_host()->set_pstate(get_min_pstate()); /* Run at max. performance! */
+ XBT_INFO("Load: %f > threshold: %f --> changed to pstate %i", load, freq_up_threshold_, get_min_pstate());
} else {
/* The actual implementation uses a formula here: (See Kernel file cpufreq_ondemand.c:158)
*
* So they assume that frequency increases by 100 MHz. We will just use
* lowest_pstate - load*pstatesCount()
*/
- int max_pstate = get_host()->get_pstate_count() - 1;
// Load is now < freq_up_threshold; exclude pstate 0 (the fastest)
// because pstate 0 can only be selected if load > freq_up_threshold_
- int new_pstate = max_pstate - load * (max_pstate + 1);
+ int new_pstate = get_max_pstate() - load * (get_max_pstate() + 1);
+ if (new_pstate < get_min_pstate())
+ new_pstate = get_min_pstate();
get_host()->set_pstate(new_pstate);
XBT_DEBUG("Load: %f < threshold: %f --> changed to pstate %i", load, freq_up_threshold_, new_pstate);
}
}
-
};
/**
*
* > The CPUfreq governor "conservative", much like the "ondemand"
* > governor, sets the CPU frequency depending on the current usage. It
- * > differs in behaviour in that it gracefully increases and decreases the
+ * > differs in behavior in that it gracefully increases and decreases the
* > CPU speed rather than jumping to max speed the moment there is any load
- * > on the CPU. This behaviour is more suitable in a battery powered
+ * > on the CPU. This behavior is more suitable in a battery powered
* > environment.
*/
class Conservative : public Governor {
sg_host_load_reset(get_host()); // Only consider the period between two calls to this method!
if (load > freq_up_threshold_) {
- if (pstate != 0) {
+ if (pstate != get_min_pstate()) {
get_host()->set_pstate(pstate - 1);
XBT_INFO("Load: %f > threshold: %f -> increasing performance to pstate %d", load, freq_up_threshold_,
pstate - 1);
freq_up_threshold_, pstate);
}
} else if (load < freq_down_threshold_) {
- int max_pstate = get_host()->get_pstate_count() - 1;
- if (pstate != max_pstate) { // Are we in the slowest pstate already?
+ if (pstate != get_max_pstate()) { // Are we in the slowest pstate already?
get_host()->set_pstate(pstate + 1);
XBT_INFO("Load: %f < threshold: %f -> slowing down to pstate %d", load, freq_down_threshold_, pstate + 1);
} else {
}
};
+#if HAVE_SMPI
class Adagio : public Governor {
private:
int best_pstate = 0;
double comp_counter = 0;
double comp_timer = 0;
- std::vector<std::vector<double>> rates;
+ std::vector<std::vector<double>> rates; // Each host + all frequencies of that host
unsigned int task_id = 0;
bool iteration_running = false; /*< Are we currently between iteration_in and iteration_out calls? */
public:
explicit Adagio(simgrid::s4u::Host* ptr)
- : Governor(ptr), rates(100, std::vector<double>(host_->get_pstate_count(), 0.0))
+ : Governor(ptr), rates(100, std::vector<double>(ptr->get_pstate_count(), 0.0))
{
- simgrid::smpi::plugin::ampi::on_iteration_in.connect([this](simgrid::s4u::ActorPtr actor) {
+ simgrid::smpi::plugin::ampi::on_iteration_in.connect([this](simgrid::s4u::Actor const& actor) {
// Every instance of this class subscribes to this event, so one per host
// This means that for any actor, all 'hosts' are normally notified of these
// changes, even those who don't currently run the actor 'proc_id'.
// -> Let's check if this signal call is for us!
- if (get_host() == actor->get_host()) {
+ if (get_host() == actor.get_host()) {
iteration_running = true;
}
});
- simgrid::smpi::plugin::ampi::on_iteration_out.connect([this](simgrid::s4u::ActorPtr actor) {
- if (get_host() == actor->get_host()) {
+ simgrid::smpi::plugin::ampi::on_iteration_out.connect([this](simgrid::s4u::Actor const& actor) {
+ if (get_host() == actor.get_host()) {
iteration_running = false;
task_id = 0;
}
});
- simgrid::kernel::activity::ExecImpl::on_creation.connect([this](simgrid::kernel::activity::ExecImplPtr activity) {
- if (activity->host_ == get_host())
+ simgrid::s4u::Exec::on_start.connect([this](simgrid::s4u::Actor const&, simgrid::s4u::Exec const& activity) {
+ if (activity.get_host() == get_host())
pre_task();
});
- simgrid::kernel::activity::ExecImpl::on_completion.connect([this](simgrid::kernel::activity::ExecImplPtr activity) {
+ simgrid::s4u::Exec::on_completion.connect([this](simgrid::s4u::Actor const&, simgrid::s4u::Exec const& activity) {
// For more than one host (not yet supported), we can access the host via
// simcalls_.front()->issuer->iface()->get_host()
- if (activity->host_ == get_host() && iteration_running) {
- comp_timer += activity->surf_action_->get_finish_time() - activity->surf_action_->get_start_time();
+ if (activity.get_host() == get_host() && iteration_running) {
+ comp_timer += activity.get_finish_time() - activity.get_start_time();
}
});
+ // FIXME I think that this fires at the same time for all hosts, so when the src sends something,
+ // the dst will be notified even though it didn't even arrive at the recv yet
simgrid::s4u::Link::on_communicate.connect(
- [this](kernel::resource::NetworkAction* action, s4u::Host* src, s4u::Host* dst) {
+ [this](kernel::resource::NetworkAction const&, s4u::Host* src, s4u::Host* dst) {
if ((get_host() == src || get_host() == dst) && iteration_running) {
post_task();
}
void pre_task()
{
- sg_host_load_reset(host_);
- comp_counter = sg_host_get_computed_flops(host_); // Should be 0 because of the reset
+ sg_host_load_reset(get_host());
+ comp_counter = sg_host_get_computed_flops(get_host()); // Should be 0 because of the reset
comp_timer = 0;
start_time = simgrid::s4u::Engine::get_clock();
if (rates.size() <= task_id)
- rates.resize(task_id + 5, std::vector<double>(host_->get_pstate_count(), 0.0));
+ rates.resize(task_id + 5, std::vector<double>(get_host()->get_pstate_count(), 0.0));
if (rates[task_id][best_pstate] == 0)
best_pstate = 0;
- host_->set_pstate(best_pstate); // Load our schedule
+ get_host()->set_pstate(best_pstate); // Load our schedule
XBT_DEBUG("Set pstate to %i", best_pstate);
}
void post_task()
{
- double computed_flops = sg_host_get_computed_flops(host_) - comp_counter;
+ double computed_flops = sg_host_get_computed_flops(get_host()) - comp_counter;
double target_time = (simgrid::s4u::Engine::get_clock() - start_time);
- target_time =
- target_time *
- static_cast<double>(99.0 / 100.0); // FIXME We account for t_copy arbitrarily with 1% -- this needs to be fixed
+ target_time = target_time * 99.0 / 100.0; // FIXME We account for t_copy arbitrarily with 1%
+ // -- this needs to be fixed
bool is_initialized = rates[task_id][best_pstate] != 0;
rates[task_id][best_pstate] = computed_flops / comp_timer;
if (not is_initialized) {
- for (int i = 1; i < host_->get_pstate_count(); i++) {
- rates[task_id][i] = rates[task_id][0] * (host_->get_pstate_speed(i) / host_->get_speed());
+ for (int i = 1; i < get_host()->get_pstate_count(); i++) {
+ rates[task_id][i] = rates[task_id][0] * (get_host()->get_pstate_speed(i) / get_host()->get_speed());
}
- is_initialized = true;
}
- for (int pstate = host_->get_pstate_count() - 1; pstate >= 0; pstate--) {
+ for (int pstate = get_host()->get_pstate_count() - 1; pstate >= 0; pstate--) {
if (computed_flops / rates[task_id][pstate] <= target_time) {
// We just found the pstate we want to use!
best_pstate = pstate;
virtual void update() override {}
};
+#endif
} // namespace dvfs
} // namespace plugin
} // namespace simgrid
} else if (dvfs_governor == "ondemand") {
return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
new simgrid::plugin::dvfs::OnDemand(daemon_proc->get_host()));
- } else if (dvfs_governor == "adagio") {
+ }
+#if HAVE_SMPI
+ else if (dvfs_governor == "adagio") {
return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
new simgrid::plugin::dvfs::Adagio(daemon_proc->get_host()));
- } else if (dvfs_governor == "performance") {
+ }
+#endif
+ else if (dvfs_governor == "performance") {
return std::unique_ptr<simgrid::plugin::dvfs::Governor>(
new simgrid::plugin::dvfs::Performance(daemon_proc->get_host()));
} else if (dvfs_governor == "powersave") {
/* **************************** Public interface *************************** */
-/** @ingroup SURF_plugin_load
+/**
* @brief Initializes the HostDvfs plugin
* @details The HostDvfs plugin provides an API to get the current load of each host.
*/