-/* Copyright (c) 2009-2011, 2013. The SimGrid Team.
+/* Copyright (c) 2009-2011, 2013-2014. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
#include "cpu_cas01.hpp"
#include "cpu_ti.hpp"
+#include "plugins/energy.hpp"
#include "maxmin_private.hpp"
#include "simgrid/sg_config.h"
* CallBacks *
*************/
-static void parse_cpu_init(sg_platf_host_cbarg_t host){
- ((CpuCas01ModelPtr)surf_cpu_model_pm)->parseInit(host);
-}
-
-static void cpu_add_traces_cpu(){
- surf_cpu_model_pm->addTraces();
-}
-
static void cpu_define_callbacks()
{
sg_platf_host_add_cb(parse_cpu_init);
- sg_platf_postparse_add_cb(cpu_add_traces_cpu);
+ sg_platf_postparse_add_cb(add_traces_cpu);
}
/*********
xbt_assert(host, "Host %s undefined", elm);
xbt_assert(trace, "Trace %s undefined", trace_name);
- host->p_stateEvent = tmgr_history_add_trace(history, trace, 0.0, 0, static_cast<ResourcePtr>(host));
+ host->setStateEvent(tmgr_history_add_trace(history, trace, 0.0, 0, static_cast<ResourcePtr>(host)));
}
xbt_dict_foreach(trace_connect_list_power, cursor, trace_name, elm) {
xbt_assert(host, "Host %s undefined", elm);
xbt_assert(trace, "Trace %s undefined", trace_name);
- host->p_powerEvent =
- tmgr_history_add_trace(history, trace, 0.0, 0, static_cast<ResourcePtr>(host));
+ host->setPowerEvent(tmgr_history_add_trace(history, trace, 0.0, 0, static_cast<ResourcePtr>(host)));
}
}
p_powerPeakList = powerPeak;
m_pstate = pstate;
- p_energy = xbt_new(s_energy_cpu_cas01_t, 1);
- p_energy->total_energy = 0;
- p_energy->power_range_watts_list = getWattsRangeList();
- p_energy->last_updated = surf_get_clock();
-
XBT_DEBUG("CPU create: peak=%f, pstate=%d", m_powerPeak, m_pstate);
m_core = core;
- m_stateCurrent = stateInitial;
+ setState(stateInitial);
if (powerTrace)
p_powerEvent = tmgr_history_add_trace(history, powerTrace, 0.0, 0, static_cast<ResourcePtr>(this));
}
CpuCas01::~CpuCas01(){
- unsigned int iter;
- xbt_dynar_t power_tuple = NULL;
- xbt_dynar_foreach(p_energy->power_range_watts_list, iter, power_tuple)
- xbt_dynar_free(&power_tuple);
- xbt_dynar_free(&p_energy->power_range_watts_list);
- xbt_dynar_free(&p_powerPeakList);
- xbt_free(p_energy);
+ if (getModel() == surf_cpu_model_pm)
+ xbt_dynar_free(&p_powerPeakList);
+}
+
+void CpuCas01::setStateEvent(tmgr_trace_event_t stateEvent)
+{
+ p_stateEvent = stateEvent;
+}
+
+void CpuCas01::setPowerEvent(tmgr_trace_event_t powerEvent)
+{
+ p_powerEvent = powerEvent;
+}
+
+xbt_dynar_t CpuCas01::getPowerPeakList(){
+ return p_powerPeakList;
+}
+
+int CpuCas01::getPState()
+{
+ return m_pstate;
}
bool CpuCas01::isUsed()
xbt_assert(m_core == 1, "FIXME: add power scaling code also for constraint_core[i]");
m_powerScale = value;
- lmm_update_constraint_bound(surf_cpu_model_pm->getMaxminSystem(), getConstraint(),
+ lmm_update_constraint_bound(getModel()->getMaxminSystem(), getConstraint(),
m_core * m_powerScale *
m_powerPeak);
#ifdef HAVE_TRACING
m_powerPeak);
#endif
while ((var = lmm_get_var_from_cnst
- (surf_cpu_model_pm->getMaxminSystem(), getConstraint(), &elem))) {
+ (getModel()->getMaxminSystem(), getConstraint(), &elem))) {
CpuCas01ActionPtr action = static_cast<CpuCas01ActionPtr>(static_cast<ActionPtr>(lmm_variable_id(var)));
- lmm_update_variable_bound(surf_cpu_model_pm->getMaxminSystem(),
+ lmm_update_variable_bound(getModel()->getMaxminSystem(),
action->getVariable(),
m_powerScale * m_powerPeak);
}
xbt_assert(m_core == 1, "FIXME: add state change code also for constraint_core[i]");
if (value > 0) {
- if(m_stateCurrent == SURF_RESOURCE_OFF)
+ if(getState() == SURF_RESOURCE_OFF)
xbt_dynar_push_as(host_that_restart, char*, (char *)getName());
- m_stateCurrent = SURF_RESOURCE_ON;
+ setState(SURF_RESOURCE_ON);
} else {
lmm_constraint_t cnst = getConstraint();
- m_stateCurrent = SURF_RESOURCE_OFF;
+ setState(SURF_RESOURCE_OFF);
- while ((var = lmm_get_var_from_cnst(surf_cpu_model_pm->getMaxminSystem(), cnst, &elem))) {
+ while ((var = lmm_get_var_from_cnst(getModel()->getMaxminSystem(), cnst, &elem))) {
ActionPtr action = static_cast<ActionPtr>(lmm_variable_id(var));
if (action->getState() == SURF_ACTION_RUNNING ||
{
XBT_IN("(%s,%g)", getName(), size);
- CpuCas01ActionPtr action = new CpuCas01Action(surf_cpu_model_pm, size, m_stateCurrent != SURF_RESOURCE_ON,
+ CpuCas01ActionPtr action = new CpuCas01Action(getModel(), size, getState() != SURF_RESOURCE_ON,
m_powerScale * m_powerPeak, getConstraint());
XBT_OUT();
CpuActionPtr CpuCas01::sleep(double duration)
{
if (duration > 0)
- duration = MAX(duration, MAXMIN_PRECISION);
+ duration = MAX(duration, sg_surf_precision);
XBT_IN("(%s,%g)", getName(), duration);
- CpuCas01ActionPtr action = new CpuCas01Action(surf_cpu_model_pm, 1.0, m_stateCurrent != SURF_RESOURCE_ON,
+ CpuCas01ActionPtr action = new CpuCas01Action(getModel(), 1.0, getState() != SURF_RESOURCE_ON,
m_powerScale * m_powerPeak, getConstraint());
action->getStateSet()->push_back(*action);
}
- lmm_update_variable_weight(surf_cpu_model_pm->getMaxminSystem(),
+ lmm_update_variable_weight(getModel()->getMaxminSystem(),
action->getVariable(), 0.0);
- if (surf_cpu_model_pm->getUpdateMechanism() == UM_LAZY) { // remove action from the heap
- action->heapRemove(surf_cpu_model_pm->getActionHeap());
+ if (getModel()->getUpdateMechanism() == UM_LAZY) { // remove action from the heap
+ action->heapRemove(getModel()->getActionHeap());
// this is necessary for a variable with weight 0 since such
// variables are ignored in lmm and we need to set its max_duration
// correctly at the next call to share_resources
- surf_cpu_model_pm->getModifiedSet()->push_front(*action);
+ getModel()->getModifiedSet()->push_front(*action);
}
XBT_OUT();
return action;
}
-xbt_dynar_t CpuCas01::getWattsRangeList()
-{
- xbt_dynar_t power_range_list;
- xbt_dynar_t power_tuple;
- int i = 0, pstate_nb=0;
- xbt_dynar_t current_power_values;
- double min_power, max_power;
-
- if (getProperties() == NULL)
- return NULL;
-
- char* all_power_values_str = (char*)xbt_dict_get_or_null(getProperties(), "power_per_state");
-
- if (all_power_values_str == NULL)
- return NULL;
-
-
- power_range_list = xbt_dynar_new(sizeof(xbt_dynar_t), NULL);
- xbt_dynar_t all_power_values = xbt_str_split(all_power_values_str, ",");
-
- pstate_nb = xbt_dynar_length(all_power_values);
- for (i=0; i< pstate_nb; i++)
- {
- /* retrieve the power values associated with the current pstate */
- current_power_values = xbt_str_split(xbt_dynar_get_as(all_power_values, i, char*), ":");
- xbt_assert(xbt_dynar_length(current_power_values) > 1,
- "Power properties incorrectly defined - could not retrieve min and max power values for host %s",
- getName());
-
- /* min_power corresponds to the idle power (cpu load = 0) */
- /* max_power is the power consumed at 100% cpu load */
- min_power = atof(xbt_dynar_get_as(current_power_values, 0, char*));
- max_power = atof(xbt_dynar_get_as(current_power_values, 1, char*));
-
- power_tuple = xbt_dynar_new(sizeof(double), NULL);
- xbt_dynar_push_as(power_tuple, double, min_power);
- xbt_dynar_push_as(power_tuple, double, max_power);
-
- xbt_dynar_push_as(power_range_list, xbt_dynar_t, power_tuple);
- xbt_dynar_free(¤t_power_values);
- }
- xbt_dynar_free(&all_power_values);
- return power_range_list;
-}
-
-/**
- * Computes the power consumed by the host according to the current pstate and processor load
- *
- */
-double CpuCas01::getCurrentWattsValue(double cpu_load)
-{
- xbt_dynar_t power_range_list = p_energy->power_range_watts_list;
-
- if (power_range_list == NULL)
- {
- XBT_DEBUG("No power range properties specified for host %s", getName());
- return 0;
- }
- xbt_assert(xbt_dynar_length(power_range_list) == xbt_dynar_length(p_powerPeakList),
- "The number of power ranges in the properties does not match the number of pstates for host %s",
- getName());
-
- /* retrieve the power values associated with the current pstate */
- xbt_dynar_t current_power_values = xbt_dynar_get_as(power_range_list, m_pstate, xbt_dynar_t);
-
- /* min_power corresponds to the idle power (cpu load = 0) */
- /* max_power is the power consumed at 100% cpu load */
- double min_power = xbt_dynar_get_as(current_power_values, 0, double);
- double max_power = xbt_dynar_get_as(current_power_values, 1, double);
- double power_slope = max_power - min_power;
-
- double current_power = min_power + cpu_load * power_slope;
-
- XBT_DEBUG("[get_current_watts] min_power=%f, max_power=%f, slope=%f", min_power, max_power, power_slope);
- XBT_DEBUG("[get_current_watts] Current power (watts) = %f, load = %f", current_power, cpu_load);
-
- return current_power;
-}
-
-/**
- * Updates the total energy consumed as the sum of the current energy and
- * the energy consumed by the current action
- */
-void CpuCas01::updateEnergy(double cpu_load)
-{
- double start_time = p_energy->last_updated;
- double finish_time = surf_get_clock();
-
- XBT_DEBUG("[cpu_update_energy] action time interval=(%f-%f), current power peak=%f, current pstate=%d",
- start_time, finish_time, m_powerPeak, m_pstate);
- double current_energy = p_energy->total_energy;
- double action_energy = getCurrentWattsValue(cpu_load)*(finish_time-start_time);
-
- p_energy->total_energy = current_energy + action_energy;
- p_energy->last_updated = finish_time;
-
- XBT_DEBUG("[cpu_update_energy] old_energy_value=%f, action_energy_value=%f", current_energy, action_energy);
-}
-
double CpuCas01::getCurrentPowerPeak()
{
return m_powerPeak;
m_powerPeak = new_power_peak;
}
-double CpuCas01::getConsumedEnergy()
-{
- return p_energy->total_energy;
-}
-
/**********
* Action *
**********/
lmm_variable_new(model->getMaxminSystem(), static_cast<ActionPtr>(this),
1.0, power, 1))
{
- m_suspended = 0; /* Should be useless because of the
- calloc but it seems to help valgrind... */
-
+ m_suspended = 0;
if (model->getUpdateMechanism() == UM_LAZY) {
m_indexHeap = -1;
m_lastUpdate = surf_get_clock();
}
lmm_expand(model->getMaxminSystem(), constraint, getVariable(), 1.0);
}
-
-
-/**
- * Update the CPU total energy for a finished action
- *
- */
-void CpuCas01Action::updateEnergy()
-{
- CpuCas01Ptr cpu = static_cast<CpuCas01Ptr>(lmm_constraint_id(lmm_get_cnst_from_var
- (getModel()->getMaxminSystem(),
- getVariable(), 0)));
-
- if(cpu->p_energy->last_updated < surf_get_clock()) {
- double load = lmm_constraint_get_usage(cpu->getConstraint()) / cpu->m_powerPeak;
- cpu->updateEnergy(load);
- }
-}