X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/f5b4648bcb7aa3c1174e25c9f3cd28867b3b2871..4d51cb5143e6dc58f47707b45a6e09183814768c:/src/surf/cpu_cas01.cpp

diff --git a/src/surf/cpu_cas01.cpp b/src/surf/cpu_cas01.cpp
index 0d56ffe8ee..18df2560c4 100644
--- a/src/surf/cpu_cas01.cpp
+++ b/src/surf/cpu_cas01.cpp
@@ -1,14 +1,17 @@
-/* Copyright (c) 2009-2021. The SimGrid Team. All rights reserved.          */
+/* Copyright (c) 2009-2022. 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. */
 
-#include "cpu_cas01.hpp"
+#include <simgrid/kernel/routing/NetZoneImpl.hpp>
+#include <simgrid/s4u/Engine.hpp>
+
 #include "simgrid/sg_config.hpp"
+#include "src/kernel/EngineImpl.hpp"
 #include "src/kernel/resource/profile/Event.hpp"
+#include "src/surf/cpu_cas01.hpp"
 #include "src/surf/cpu_ti.hpp"
 #include "src/surf/surf_interface.hpp"
-#include "surf/surf.hpp"
 
 XBT_LOG_NEW_DEFAULT_SUBCATEGORY(cpu_cas, res_cpu, "CPU resource, CAS01 model (used by default)");
 
@@ -31,35 +34,33 @@ static simgrid::config::Flag<std::string>
                                "Cannot change the optimization algorithm after the initialization");
                   });
 
+static simgrid::config::Flag<std::string> cfg_cpu_solver("cpu/solver", "Set linear equations solver used by CPU model",
+                                                         "maxmin", &simgrid::kernel::lmm::System::validate_solver);
+
 /*********
  * Model *
  *********/
 void surf_cpu_model_init_Cas01()
 {
   if (cpu_optim_opt == "TI") {
-    simgrid::kernel::resource::CpuTiModel::create_pm_vm_models();
+    simgrid::kernel::resource::CpuTiModel::create_pm_models();
     return;
   }
 
-  simgrid::kernel::resource::Model::UpdateAlgo algo;
-  if (cpu_optim_opt == "Lazy")
-    algo = simgrid::kernel::resource::Model::UpdateAlgo::LAZY;
-  else
-    algo = simgrid::kernel::resource::Model::UpdateAlgo::FULL;
-
-  auto cpu_model_pm = new simgrid::kernel::resource::CpuCas01Model(algo);
-  models_by_type[simgrid::kernel::resource::Model::Type::CPU_PM].push_back(cpu_model_pm);
-  auto cpu_model_vm = new simgrid::kernel::resource::CpuCas01Model(algo);
-  models_by_type[simgrid::kernel::resource::Model::Type::CPU_VM].push_back(cpu_model_vm);
+  auto cpu_model_pm = std::make_shared<simgrid::kernel::resource::CpuCas01Model>("Cpu_Cas01");
+  auto* engine      = simgrid::kernel::EngineImpl::get_instance();
+  engine->add_model(cpu_model_pm);
+  engine->get_netzone_root()->set_cpu_pm_model(cpu_model_pm);
 }
 
 namespace simgrid {
 namespace kernel {
 namespace resource {
 
-CpuCas01Model::CpuCas01Model(Model::UpdateAlgo algo) : CpuModel(algo)
+CpuCas01Model::CpuCas01Model(const std::string& name) : CpuModel(name)
 {
-  all_existing_models.push_back(this);
+  if (config::get_value<std::string>("cpu/optim") == "Lazy")
+    set_update_algorithm(Model::UpdateAlgo::LAZY);
 
   bool select = config::get_value<bool>("cpu/maxmin-selective-update");
 
@@ -69,14 +70,10 @@ CpuCas01Model::CpuCas01Model(Model::UpdateAlgo algo) : CpuModel(algo)
     select = true;
   }
 
-  set_maxmin_system(new lmm::System(select));
-}
-
-CpuCas01Model::~CpuCas01Model()
-{
+  set_maxmin_system(lmm::System::build(config::get_value<std::string>("cpu/solver"), select));
 }
 
-Cpu* CpuCas01Model::create_cpu(s4u::Host* host, const std::vector<double>& speed_per_pstate)
+CpuImpl* CpuCas01Model::create_cpu(s4u::Host* host, const std::vector<double>& speed_per_pstate)
 {
   return (new CpuCas01(host, speed_per_pstate))->set_model(this);
 }
@@ -84,57 +81,47 @@ Cpu* CpuCas01Model::create_cpu(s4u::Host* host, const std::vector<double>& speed
 /************
  * Resource *
  ************/
-bool CpuCas01::is_used() const
-{
-  return get_model()->get_maxmin_system()->constraint_used(get_constraint());
-}
-
 /** @brief take into account changes of speed (either load or max) */
 void CpuCas01::on_speed_change()
 {
-  const lmm::Variable* var;
   const lmm::Element* elem = nullptr;
 
   get_model()->get_maxmin_system()->update_constraint_bound(get_constraint(),
                                                             get_core_count() * speed_.scale * speed_.peak);
-  while ((var = get_constraint()->get_variable(&elem))) {
-    const CpuCas01Action* action = static_cast<CpuCas01Action*>(var->get_id());
 
-    get_model()->get_maxmin_system()->update_variable_bound(action->get_variable(),
-                                                            action->requested_core() * speed_.scale * speed_.peak);
+  while (const auto* var = get_constraint()->get_variable(&elem)) {
+    const auto* action = static_cast<CpuCas01Action*>(var->get_id());
+    double bound       = action->requested_core() * speed_.scale * speed_.peak;
+    if (action->get_user_bound() > 0) {
+      bound = std::min(bound, action->get_user_bound());
+    }
+
+    get_model()->get_maxmin_system()->update_variable_bound(action->get_variable(), bound);
   }
 
-  Cpu::on_speed_change();
+  CpuImpl::on_speed_change();
 }
 
 void CpuCas01::apply_event(profile::Event* event, double value)
 {
   if (event == speed_.event) {
-    /* TODO (Hypervisor): do the same thing for constraint_core[i] */
-    xbt_assert(get_core_count() == 1, "FIXME: add speed scaling code also for constraint_core[i]");
-
     speed_.scale = value;
     on_speed_change();
 
     tmgr_trace_event_unref(&speed_.event);
-  } else if (event == state_event_) {
-    /* TODO (Hypervisor): do the same thing for constraint_core[i] */
-    xbt_assert(get_core_count() == 1, "FIXME: add state change code also for constraint_core[i]");
-
+  } else if (event == get_state_event()) {
     if (value > 0) {
       if (not is_on()) {
         XBT_VERB("Restart actors on host %s", get_iface()->get_cname());
         get_iface()->turn_on();
       }
     } else {
-      const lmm::Constraint* cnst = get_constraint();
-      const lmm::Variable* var;
       const lmm::Element* elem = nullptr;
-      double date              = surf_get_clock();
+      double date              = EngineImpl::get_clock();
 
       get_iface()->turn_off();
 
-      while ((var = cnst->get_variable(&elem))) {
+      while (const auto* var = get_constraint()->get_variable(&elem)) {
         Action* action = var->get_id();
 
         if (action->get_state() == Action::State::INITED || action->get_state() == Action::State::STARTED ||
@@ -144,7 +131,7 @@ void CpuCas01::apply_event(profile::Event* event, double value)
         }
       }
     }
-    tmgr_trace_event_unref(&state_event_);
+    unref_state_event();
 
   } else {
     xbt_die("Unknown event!\n");
@@ -152,15 +139,24 @@ void CpuCas01::apply_event(profile::Event* event, double value)
 }
 
 /** @brief Start a new execution on this CPU lasting @param size flops and using one core */
-CpuAction* CpuCas01::execution_start(double size)
+CpuAction* CpuCas01::execution_start(double size, double user_bound)
 {
-  return new CpuCas01Action(get_model(), size, not is_on(), speed_.scale * speed_.peak, get_constraint());
+  return execution_start(size, 1, user_bound);
 }
 
-CpuAction* CpuCas01::execution_start(double size, int requested_cores)
+CpuAction* CpuCas01::execution_start(double size, int requested_cores, double user_bound)
 {
-  return new CpuCas01Action(get_model(), size, not is_on(), speed_.scale * speed_.peak, get_constraint(),
-                            requested_cores);
+  auto* action =
+      new CpuCas01Action(get_model(), size, not is_on(), speed_.scale * speed_.peak, get_constraint(), requested_cores);
+  action->set_user_bound(user_bound);
+  if (user_bound > 0 && user_bound < action->get_bound()) {
+    get_model()->get_maxmin_system()->update_variable_bound(action->get_variable(), user_bound);
+  }
+  if (factor_cb_) {
+    action->set_rate_factor(factor_cb_(size));
+  }
+
+  return action;
 }
 
 CpuAction* CpuCas01::sleep(double duration)
@@ -168,8 +164,8 @@ CpuAction* CpuCas01::sleep(double duration)
   if (duration > 0)
     duration = std::max(duration, sg_surf_precision);
 
-  XBT_IN("(%s,%g)", get_cname(), duration);
-  auto* action = new CpuCas01Action(get_model(), 1.0, not is_on(), speed_.scale * speed_.peak, get_constraint());
+  XBT_IN("(%s, %g)", get_cname(), duration);
+  auto* action = new CpuCas01Action(get_model(), 1.0, not is_on(), speed_.scale * speed_.peak, get_constraint(), 1);
 
   // FIXME: sleep variables should not consume 1.0 in System::expand()
   action->set_max_duration(duration);
@@ -189,6 +185,12 @@ CpuAction* CpuCas01::sleep(double duration)
   return action;
 }
 
+void CpuCas01::set_factor_cb(const std::function<s4u::Host::CpuFactorCb>& cb)
+{
+  xbt_assert(not is_sealed(), "Cannot set CPU factor callback in an already sealed CPU(%s)", get_cname());
+  factor_cb_ = cb;
+}
+
 /**********
  * Action *
  **********/
@@ -203,13 +205,6 @@ CpuCas01Action::CpuCas01Action(Model* model, double cost, bool failed, double sp
   model->get_maxmin_system()->expand(constraint, get_variable(), 1.0);
 }
 
-int CpuCas01Action::requested_core() const
-{
-  return requested_core_;
-}
-
-CpuCas01Action::~CpuCas01Action() = default;
-
 } // namespace resource
 } // namespace kernel
 } // namespace simgrid