-/* Copyright (c) 2013-2020. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2013-2021. 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. */
constexpr double EPSILON = 0.000000001;
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(surf_cpu_ti, surf_cpu, "Logging specific to the SURF CPU TRACE INTEGRATION module");
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(cpu_ti, res_cpu, "CPU resource, Trace Integration model");
namespace simgrid {
namespace kernel {
CpuTiProfile::CpuTiProfile(const profile::Profile* profile)
{
- double integral = 0;
- double time = 0;
+ double integral = 0;
+ double time = 0;
unsigned nb_points = profile->event_list.size() + 1;
time_points_.reserve(nb_points);
integral_.reserve(nb_points);
{
if ((a < 0.0) || (a > b)) {
xbt_die("Error, invalid integration interval [%.2f,%.2f]. "
- "You probably have a task executing with negative computation amount. Check your code.", a, b);
+ "You probably have a task executing with negative computation amount. Check your code.",
+ a, b);
}
if (fabs(a - b) < EPSILON)
return 0.0;
a_index = ceil(a / last_time_);
double b_index = floor(b / last_time_);
- if (a_index > b_index) { /* Same chunk */
+ if (a_index > b_index) { /* Same chunk */
return profile_->integrate_simple(a - (a_index - 1) * last_time_, b - b_index * last_time_);
}
double CpuTiProfile::integrate_simple_point(double a) const
{
double integral = 0;
- double a_aux = a;
+ double a_aux = a;
int ind = binary_search(time_points_, a);
integral += integral_[ind];
/* Sanity checks */
if ((a < 0.0) || (amount < 0.0)) {
- XBT_CRITICAL ("Error, invalid parameters [a = %.2f, amount = %.2f]. "
- "You probably have a task executing with negative computation amount. Check your code.", a, amount);
+ XBT_CRITICAL("Error, invalid parameters [a = %.2f, amount = %.2f]. "
+ "You probably have a task executing with negative computation amount. Check your code.",
+ a, amount);
xbt_abort();
}
*/
double CpuTiTmgr::get_power_scale(double a) const
{
- double reduced_a = a - floor(a / last_time_) * last_time_;
+ double reduced_a = a - floor(a / last_time_) * last_time_;
int point = CpuTiProfile::binary_search(profile_->time_points_, reduced_a);
kernel::profile::DatedValue val = speed_profile_->event_list.at(point);
return val.value_;
surf_cpu_model_pm = nullptr;
}
-Cpu* CpuTiModel::create_cpu(s4u::Host* host, const std::vector<double>& speed_per_pstate, int core)
+Cpu* CpuTiModel::create_cpu(s4u::Host* host, const std::vector<double>& speed_per_pstate)
{
- return new CpuTi(this, host, speed_per_pstate, core);
+ return (new CpuTi(host, speed_per_pstate))->set_model(this);
}
double CpuTiModel::next_occurring_event(double now)
/************
* Resource *
************/
-CpuTi::CpuTi(CpuTiModel* model, s4u::Host* host, const std::vector<double>& speed_per_pstate, int core)
- : Cpu(model, host, speed_per_pstate, core)
+CpuTi::CpuTi(s4u::Host* host, const std::vector<double>& speed_per_pstate) : Cpu(host, speed_per_pstate)
{
- xbt_assert(core == 1, "Multi-core not handled by this model yet");
-
speed_.peak = speed_per_pstate.front();
XBT_DEBUG("CPU create: peak=%f", speed_.peak);
} else if (event == state_event_) {
if (value > 0) {
if (not is_on()) {
- XBT_VERB("Restart actors on host %s", get_host()->get_cname());
- get_host()->turn_on();
+ XBT_VERB("Restart actors on host %s", get_iface()->get_cname());
+ get_iface()->turn_on();
}
} else {
- get_host()->turn_off();
+ get_iface()->turn_off();
double date = surf_get_clock();
/* put all action running on cpu to failed */