}
CpuL07Model::CpuL07Model(HostL07Model* hmodel, kernel::lmm::System* sys)
- : CpuModel(Model::UpdateAlgo::Full), hostModel_(hmodel)
+ : CpuModel(Model::UpdateAlgo::FULL), hostModel_(hmodel)
{
set_maxmin_system(sys);
}
}
NetworkL07Model::NetworkL07Model(HostL07Model* hmodel, kernel::lmm::System* sys)
- : NetworkModel(Model::UpdateAlgo::Full), hostModel_(hmodel)
+ : NetworkModel(Model::UpdateAlgo::FULL), hostModel_(hmodel)
{
set_maxmin_system(sys);
loopback_ = NetworkL07Model::createLink("__loopback__", 498000000, 0.000015, s4u::Link::SharingPolicy::FATPIPE);
double lat=0.0;
std::vector<kernel::resource::LinkImpl*> route;
- hostList_->at(i)->routeTo(hostList_->at(j), route, &lat);
+ hostList_->at(i)->route_to(hostList_->at(j), route, &lat);
latency = std::max(latency, lat);
for (auto const& link : route)
for (int j = 0; j < host_nb; j++) {
if (bytes_amount[i * host_nb + j] > 0.0) {
std::vector<kernel::resource::LinkImpl*> route;
- hostList_->at(i)->routeTo(hostList_->at(j), route, nullptr);
+ hostList_->at(i)->route_to(hostList_->at(j), route, nullptr);
for (auto const& link : route)
model->get_maxmin_system()->expand_add(link->get_constraint(), this->get_variable(),
return hostModel_->execute_parallel(2, host_list, flops_amount, bytes_amount, rate);
}
-Cpu *CpuL07Model::createCpu(simgrid::s4u::Host *host, std::vector<double> *speedPerPstate, int core)
+Cpu* CpuL07Model::create_cpu(simgrid::s4u::Host* host, std::vector<double>* speed_per_pstate, int core)
{
- return new CpuL07(this, host, speedPerPstate, core);
+ return new CpuL07(this, host, speed_per_pstate, core);
}
kernel::resource::LinkImpl* NetworkL07Model::createLink(const std::string& name, double bandwidth, double latency,
* Resource *
************/
-CpuL07::CpuL07(CpuL07Model* model, simgrid::s4u::Host* host, std::vector<double>* speedPerPstate, int core)
- : Cpu(model, host, model->get_maxmin_system()->constraint_new(this, speedPerPstate->front()), speedPerPstate, core)
+CpuL07::CpuL07(CpuL07Model* model, simgrid::s4u::Host* host, std::vector<double>* speed_per_pstate, int core)
+ : Cpu(model, host, model->get_maxmin_system()->constraint_new(this, speed_per_pstate->front()), speed_per_pstate,
+ core)
{
}
}
/** @brief take into account changes of speed (either load or max) */
-void CpuL07::onSpeedChange() {
+void CpuL07::on_speed_change()
+{
kernel::lmm::Variable* var = nullptr;
const kernel::lmm::Element* elem = nullptr;
get_model()->get_maxmin_system()->update_variable_bound(action->get_variable(), speed_.scale * speed_.peak);
}
- Cpu::onSpeedChange();
+ Cpu::on_speed_change();
}
bool LinkL07::is_used()
XBT_DEBUG("Updating cpu %s (%p) with value %g", get_cname(), this, value);
if (triggered == speed_.event) {
speed_.scale = value;
- onSpeedChange();
+ on_speed_change();
tmgr_trace_event_unref(&speed_.event);
} else if (triggered == state_event_) {
{
XBT_DEBUG("Updating link %s (%p) with value=%f", get_cname(), this, value);
if (triggered == bandwidth_.event) {
- setBandwidth(value);
+ set_bandwidth(value);
tmgr_trace_event_unref(&bandwidth_.event);
} else if (triggered == latency_.event) {
- setLatency(value);
+ set_latency(value);
tmgr_trace_event_unref(&latency_.event);
- } else if (triggered == stateEvent_) {
+ } else if (triggered == state_event_) {
if (value > 0)
turn_on();
else
turn_off();
- tmgr_trace_event_unref(&stateEvent_);
+ tmgr_trace_event_unref(&state_event_);
} else {
xbt_die("Unknown event ! \n");
}
}
-void LinkL07::setBandwidth(double value)
+void LinkL07::set_bandwidth(double value)
{
bandwidth_.peak = value;
LinkImpl::on_bandwidth_change();
get_model()->get_maxmin_system()->update_constraint_bound(get_constraint(), bandwidth_.peak * bandwidth_.scale);
}
-void LinkL07::setLatency(double value)
+void LinkL07::set_latency(double value)
{
kernel::lmm::Variable* var = nullptr;
L07Action *action;
if (communicationAmount_[i * hostNb + j] > 0) {
double lat = 0.0;
std::vector<kernel::resource::LinkImpl*> route;
- hostList_->at(i)->routeTo(hostList_->at(j), route, &lat);
+ hostList_->at(i)->route_to(hostList_->at(j), route, &lat);
lat_current = std::max(lat_current, lat * communicationAmount_[i * hostNb + j]);
}