model->updateActionsState(NOW, 0.0);
}
+/**
+ * Computes when the next action executed in a
+ * specific model terminates; this is important,
+ * because we can safely skip the amount of time
+ * in which no model (read: not even a single one)
+ * changes its state; so, if for instance network,
+ * cpu, storage don't change (and if we assume they're
+ * the only models we use... simple example here :) )
+ * for 2s, 1s, 3s then we can skip 1s as after this
+ * amount of time the new state needs to be considered.
+ *
+ */
static void surf_share_resources(surf_model_t model)
{
double next_action_end = -1.0;
return get_casted_workstation(resource)->getNbPstates();
}
-void surf_workstation_set_power_peak_at(surf_resource_t resource, int pstate_index){
- return get_casted_workstation(resource)->setPowerPeakAt(pstate_index);
+void surf_workstation_set_pstate(surf_resource_t resource, int pstate_index){
+ get_casted_workstation(resource)->setPstate(pstate_index);
+}
+int surf_workstation_get_pstate(surf_resource_t resource){
+ return get_casted_workstation(resource)->getPstate();
+}
+double surf_workstation_get_wattmin_at(surf_resource_t resource, int pstate){
+ xbt_assert(surf_energy!=NULL, "The Energy plugin is not active. Please call sg_energy_plugin_init() during initialization.");
+ std::map<CpuPtr, CpuEnergyPtr>::iterator cpuIt = surf_energy->find(get_casted_workstation(resource)->p_cpu);
+ return cpuIt->second->getWattMinAt(pstate);
+}
+double surf_workstation_get_wattmax_at(surf_resource_t resource, int pstate){
+ xbt_assert(surf_energy!=NULL, "The Energy plugin is not active. Please call sg_energy_plugin_init() during initialization.");
+ std::map<CpuPtr, CpuEnergyPtr>::iterator cpuIt = surf_energy->find(get_casted_workstation(resource)->p_cpu);
+ return cpuIt->second->getWattMaxAt(pstate);
}
double surf_workstation_get_consumed_energy(surf_resource_t resource){
- xbt_assert(surf_energy!=NULL, "The Energy plugin is not active.");
+ xbt_assert(surf_energy!=NULL, "The Energy plugin is not active. Please call sg_energy_plugin_init() during initialization.");
std::map<CpuPtr, CpuEnergyPtr>::iterator cpuIt = surf_energy->find(get_casted_workstation(resource)->p_cpu);
return cpuIt->second->getConsumedEnergy();
}