1 /* Copyright (c) 2010, 2012-2015. The SimGrid Team.
2 * All rights reserved. */
4 /* This program is free software; you can redistribute it and/or modify it
5 * under the terms of the license (GNU LGPL) which comes with this package. */
7 #include <src/surf/plugins/energy.hpp>
8 #include <src/surf/cpu_cas01.hpp>
9 #include <src/surf/virtual_machine.hpp>
11 /** @addtogroup SURF_plugin_energy
14 This is the energy plugin, enabling to account not only for computation time,
15 but also for the dissipated energy in the simulated platform.
17 The energy consumption of a CPU depends directly of its current load. Specify that consumption in your platform file as follows:
20 <host id="HostA" power="100.0Mf" >
21 <prop id="watt_per_state" value="100.0:200.0" />
22 <prop id="watt_off" value="10" />
26 The first property means that when your host is up and running, but without anything to do, it will dissipate 100 Watts.
27 If it's fully loaded, it will dissipate 200 Watts. If its load is at 50%, then it will dissipate 150 Watts.
28 The second property means that when your host is turned off, it will dissipate only 10 Watts (please note that these values are arbitrary).
30 If your CPU is using pstates, then you can provide one consumption interval per pstate.
33 <host id="HostB" power="100.0Mf,50.0Mf,20.0Mf" pstate="0" >
34 <prop id="watt_per_state" value="95.0:200.0, 93.0:170.0, 90.0:150.0" />
35 <prop id="watt_off" value="10" />
39 That host has 3 levels of performance with the following performance: 100 Mflop/s, 50 Mflop/s or 20 Mflop/s.
40 It starts at pstate 0 (ie, at 100 Mflop/s). In this case, you have to specify one interval per pstate in the watt_per_state property.
41 In this example, the idle consumption is 95 Watts, 93 Watts and 90 Watts in each pstate while the CPU burn consumption are at 200 Watts,
42 170 Watts and 150 Watts respectively.
44 To change the pstate of a given CPU, use the following functions: #MSG_host_get_nb_pstates(), #MSG_host_set_pstate(), #MSG_host_get_power_peak_at().
46 To simulate the energy-related elements, first call the #sg_energy_plugin_init() before your #MSG_init(),
47 and then use the following function to retrieve the consumption of a given host: #MSG_host_get_consumed_energy().
50 XBT_LOG_NEW_DEFAULT_SUBCATEGORY(surf_energy, surf,
51 "Logging specific to the SURF energy plugin");
56 std::map<simgrid::surf::Host*, HostEnergy*> *surf_energy = NULL;
61 using simgrid::energy::HostEnergy;
62 using simgrid::energy::surf_energy;
64 /* Computes the consumption so far. Called lazily on need. */
65 static void update_consumption(simgrid::surf::Host *host, HostEnergy *host_energy) {
66 double cpu_load = lmm_constraint_get_usage(host->p_cpu->getConstraint()) / host->p_cpu->m_speedPeak;
67 double start_time = host_energy->last_updated;
68 double finish_time = surf_get_clock();
70 double previous_energy = host_energy->total_energy;
72 double instantaneous_consumption;
73 if (host->getState() == SURF_RESOURCE_OFF)
74 instantaneous_consumption = host_energy->watts_off;
76 instantaneous_consumption = host_energy->getCurrentWattsValue(cpu_load);
78 double energy_this_step = instantaneous_consumption*(finish_time-start_time);
80 host_energy->total_energy = previous_energy + energy_this_step;
81 host_energy->last_updated = finish_time;
83 XBT_DEBUG("[cpu_update_energy] period=[%.2f-%.2f]; current power peak=%.0E flop/s; consumption change: %.2f J -> %.2f J",
84 start_time, finish_time, host->p_cpu->m_speedPeak, previous_energy, energy_this_step);
87 /** \ingroup SURF_plugin_energy
88 * \brief Enable energy plugin
89 * \details Enable energy plugin to get joules consumption of each cpu. You should call this function before #MSG_init().
91 void sg_energy_plugin_init() {
92 if (simgrid::energy::surf_energy == NULL) {
94 simgrid::energy::surf_energy = new std::map<simgrid::surf::Host*, simgrid::energy::HostEnergy*>();
96 /* The following attaches an anonymous function to the Host::onCreation signal */
97 /* Search for "C++ lambda" for more information on the syntax used here */
98 simgrid::surf::Host::onCreation.connect([](simgrid::surf::Host *host) {
99 (*surf_energy)[host] = new HostEnergy(host);
102 simgrid::surf::VMCreatedCallbacks.connect([](simgrid::surf::VirtualMachine* vm) {
103 std::map<simgrid::surf::Host*, HostEnergy*>::iterator host_energy_it = surf_energy->find(vm->p_subWs);
104 xbt_assert(host_energy_it != surf_energy->end(), "The host is not in surf_energy.");
105 (*surf_energy)[vm] = host_energy_it->second;
106 host_energy_it->second->ref(); // protect the HostEnergy from getting deleted too early
109 simgrid::surf::Host::onDestruction.connect([](simgrid::surf::Host *host) {
110 std::map<simgrid::surf::Host*, HostEnergy*>::iterator host_energy_it = surf_energy->find(host);
111 xbt_assert(host_energy_it != surf_energy->end(), "The host is not in surf_energy.");
113 HostEnergy *host_energy = host_energy_it->second;
114 update_consumption(host, host_energy);
116 if (host_energy_it->second->refcount == 1) // Don't display anything for virtual CPUs
117 XBT_INFO("Total energy of host %s: %f Joules", host->getName(), host_energy->getConsumedEnergy());
118 host_energy_it->second->unref();
119 surf_energy->erase(host_energy_it);
121 simgrid::surf::CpuAction::onStateChange.connect([]
122 (simgrid::surf::CpuAction *action,
123 e_surf_action_state_t old,
124 e_surf_action_state_t cur) {
125 const char *name = getActionCpu(action)->getName();
126 simgrid::surf::Host *host = static_cast<simgrid::surf::Host*>(surf_host_resource_priv(sg_host_by_name(name)));
128 HostEnergy *host_energy = (*surf_energy)[host];
130 if(host_energy->last_updated < surf_get_clock())
131 update_consumption(host, host_energy);
135 simgrid::surf::Host::onStateChange.connect([]
136 (simgrid::surf::Host *host,
137 e_surf_resource_state_t oldState,
138 e_surf_resource_state_t newState) {
139 HostEnergy *host_energy = (*surf_energy)[host];
141 if(host_energy->last_updated < surf_get_clock())
142 update_consumption(host, host_energy);
145 simgrid::surf::surfExitCallbacks.connect([]() {
158 HostEnergy::HostEnergy(simgrid::surf::Host *ptr)
162 power_range_watts_list = getWattsRangeList();
163 last_updated = surf_get_clock();
165 if (host->getProperties() != NULL) {
166 char* off_power_str = (char*)xbt_dict_get_or_null(host->getProperties(), "watt_off");
167 if (off_power_str != NULL)
168 watts_off = atof(off_power_str);
175 HostEnergy::~HostEnergy(){
177 xbt_dynar_t power_tuple = NULL;
178 xbt_dynar_foreach(power_range_watts_list, iter, power_tuple)
179 xbt_dynar_free(&power_tuple);
180 xbt_dynar_free(&power_range_watts_list);
184 double HostEnergy::getWattMinAt(int pstate) {
185 xbt_dynar_t power_range_list = power_range_watts_list;
186 xbt_assert(power_range_watts_list, "No power range properties specified for host %s", host->getName());
187 xbt_dynar_t current_power_values = xbt_dynar_get_as(power_range_list, static_cast<simgrid::surf::CpuCas01*>(host->p_cpu)->getPState(), xbt_dynar_t);
188 double min_power = xbt_dynar_get_as(current_power_values, 0, double);
191 double HostEnergy::getWattMaxAt(int pstate) {
192 xbt_dynar_t power_range_list = power_range_watts_list;
193 xbt_assert(power_range_watts_list, "No power range properties specified for host %s", host->getName());
194 xbt_dynar_t current_power_values = xbt_dynar_get_as(power_range_list, static_cast<simgrid::surf::CpuCas01*>(host->p_cpu)->getPState(), xbt_dynar_t);
195 double max_power = xbt_dynar_get_as(current_power_values, 1, double);
200 * Computes the power consumed by the host according to the current pstate and processor load
203 double HostEnergy::getCurrentWattsValue(double cpu_load)
205 xbt_dynar_t power_range_list = power_range_watts_list;
206 xbt_assert(power_range_watts_list, "No power range properties specified for host %s", host->getName());
208 /* retrieve the power values associated with the current pstate */
209 xbt_dynar_t current_power_values = xbt_dynar_get_as( power_range_list,
210 static_cast<simgrid::surf::CpuCas01*>(host->p_cpu)->getPState(),
213 /* min_power corresponds to the idle power (cpu load = 0) */
214 /* max_power is the power consumed at 100% cpu load */
215 double min_power = xbt_dynar_get_as(current_power_values, 0, double);
216 double max_power = xbt_dynar_get_as(current_power_values, 1, double);
217 double power_slope = max_power - min_power;
219 double current_power = min_power + cpu_load * power_slope;
221 XBT_DEBUG("[get_current_watts] min_power=%f, max_power=%f, slope=%f", min_power, max_power, power_slope);
222 XBT_DEBUG("[get_current_watts] Current power (watts) = %f, load = %f", current_power, cpu_load);
224 return current_power;
227 double HostEnergy::getConsumedEnergy()
230 if(last_updated < surf_get_clock())
231 update_consumption(host, this);
236 xbt_dynar_t HostEnergy::getWattsRangeList()
238 xbt_dynar_t power_range_list;
239 xbt_dynar_t power_tuple;
240 int i = 0, pstate_nb=0;
241 xbt_dynar_t current_power_values;
242 double min_power, max_power;
244 if (host->getProperties() == NULL)
247 char* all_power_values_str = (char*)xbt_dict_get_or_null(host->getProperties(), "watt_per_state");
249 if (all_power_values_str == NULL)
253 power_range_list = xbt_dynar_new(sizeof(xbt_dynar_t), NULL);
254 xbt_dynar_t all_power_values = xbt_str_split(all_power_values_str, ",");
256 pstate_nb = xbt_dynar_length(all_power_values);
257 for (i=0; i< pstate_nb; i++)
259 /* retrieve the power values associated with the current pstate */
260 current_power_values = xbt_str_split(xbt_dynar_get_as(all_power_values, i, char*), ":");
261 xbt_assert(xbt_dynar_length(current_power_values) > 1,
262 "Power properties incorrectly defined - could not retrieve min and max power values for host %s",
265 /* min_power corresponds to the idle power (cpu load = 0) */
266 /* max_power is the power consumed at 100% cpu load */
267 min_power = atof(xbt_dynar_get_as(current_power_values, 0, char*));
268 max_power = atof(xbt_dynar_get_as(current_power_values, 1, char*));
270 power_tuple = xbt_dynar_new(sizeof(double), NULL);
271 xbt_dynar_push_as(power_tuple, double, min_power);
272 xbt_dynar_push_as(power_tuple, double, max_power);
274 xbt_dynar_push_as(power_range_list, xbt_dynar_t, power_tuple);
275 xbt_dynar_free(¤t_power_values);
277 xbt_dynar_free(&all_power_values);
278 return power_range_list;