/* * $Id: test.cpp 81 2008-04-15 18:40:01Z rosiere $ * * [ Description ] * * Test */ #include "Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Branch_Target_Buffer/Branch_Target_Buffer_Glue/SelfTest/include/test.h" #include "Common/include/Test.h" #include "Behavioural/include/Allocation.h" #define NB_ITERATION 1 #define CYCLE_MAX (128*NB_ITERATION) #define LABEL(str...) \ { \ msg (_("{%d} "),static_cast(sc_simulation_time())); \ msg (str); \ msg (_("\n")); \ } while(0) #define SC_START(cycle_offset) \ do \ { \ /*cout << "SC_START (begin)" << endl;*/ \ \ uint32_t cycle_current = static_cast(sc_simulation_time()); \ if (cycle_offset != 0) \ { \ cout << "##########[ cycle "<< cycle_current+cycle_offset << " ]" << endl; \ } \ \ if (cycle_current > CYCLE_MAX) \ { \ TEST_KO("Maximal cycles Reached"); \ } \ \ sc_start(cycle_offset); \ \ /*cout << "SC_START (end )" << endl;*/ \ } while(0) void test (string name, morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::branch_target_buffer::branch_target_buffer_glue::Parameters * _param) { msg(_("<%s> : Simulation SystemC.\n"),name.c_str()); #ifdef STATISTICS morpheo::behavioural::Parameters_Statistics * _parameters_statistics = new morpheo::behavioural::Parameters_Statistics (5,50); #endif Branch_Target_Buffer_Glue * _Branch_Target_Buffer_Glue = new Branch_Target_Buffer_Glue (name.c_str(), #ifdef STATISTICS _parameters_statistics, #endif _param); #ifdef SYSTEMC /********************************************************************* * Déclarations des signaux *********************************************************************/ string rename; sc_clock * in_CLOCK = new sc_clock ("clock", 1.0, 0.5); sc_signal * in_NRESET = new sc_signal ("NRESET"); ALLOC1_SC_SIGNAL( in_PREDICT_VAL ," in_PREDICT_VAL ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_ACK ,"out_PREDICT_ACK ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_HIT ,"out_PREDICT_HIT ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_ADDRESS_SRC ,"out_PREDICT_ADDRESS_SRC ",Tgeneral_data_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_ADDRESS_DEST ,"out_PREDICT_ADDRESS_DEST ",Tgeneral_data_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_CONDITION ,"out_PREDICT_CONDITION ",Tbranch_condition_t,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_LAST_TAKE ,"out_PREDICT_LAST_TAKE ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_IS_ACCURATE ,"out_PREDICT_IS_ACCURATE ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_REGISTER_VAL ,"out_PREDICT_REGISTER_VAL ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL( in_PREDICT_REGISTER_ACK ," in_PREDICT_REGISTER_ACK ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC2_SC_SIGNAL( in_PREDICT_REGISTER_HIT ," in_PREDICT_REGISTER_HIT ",Tcontrol_t ,_param->_nb_inst_predict,_param->_associativity); ALLOC2_SC_SIGNAL( in_PREDICT_REGISTER_ADDRESS_SRC ," in_PREDICT_REGISTER_ADDRESS_SRC ",Tgeneral_data_t ,_param->_nb_inst_predict,_param->_associativity); ALLOC2_SC_SIGNAL( in_PREDICT_REGISTER_ADDRESS_DEST," in_PREDICT_REGISTER_ADDRESS_DEST",Tgeneral_data_t ,_param->_nb_inst_predict,_param->_associativity); ALLOC2_SC_SIGNAL( in_PREDICT_REGISTER_CONDITION ," in_PREDICT_REGISTER_CONDITION ",Tbranch_condition_t,_param->_nb_inst_predict,_param->_associativity); ALLOC2_SC_SIGNAL( in_PREDICT_REGISTER_LAST_TAKE ," in_PREDICT_REGISTER_LAST_TAKE ",Tcontrol_t ,_param->_nb_inst_predict,_param->_associativity); ALLOC2_SC_SIGNAL( in_PREDICT_REGISTER_IS_ACCURATE ," in_PREDICT_REGISTER_IS_ACCURATE ",Tcontrol_t ,_param->_nb_inst_predict,_param->_associativity); ALLOC1_SC_SIGNAL( in_PREDICT_SORT_VAL ," in_PREDICT_SORT_VAL ",Tptr_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL( in_PREDICT_SORT_INDEX ," in_PREDICT_SORT_INDEX ",Tptr_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_VICTIM_VAL ,"out_PREDICT_VICTIM_VAL ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL( in_PREDICT_VICTIM_ACK ," in_PREDICT_VICTIM_ACK ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_VICTIM_HIT ,"out_PREDICT_VICTIM_HIT ",Tcontrol_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_VICTIM_ADDRESS ,"out_PREDICT_VICTIM_ADDRESS ",Tgeneral_data_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL(out_PREDICT_VICTIM_INDEX ,"out_PREDICT_VICTIM_INDEX ",Tptr_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL( in_PREDICT_VICTIM_VICTIM ,"out_PREDICT_VICTIM_VICTIM ",Tptr_t ,_param->_nb_inst_predict); ALLOC1_SC_SIGNAL( in_DECOD_VAL ," in_DECOD_VAL ",Tcontrol_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL(out_DECOD_ACK ,"out_DECOD_ACK ",Tcontrol_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL( in_DECOD_ADDRESS_SRC ," in_DECOD_ADDRESS_SRC ",Tgeneral_data_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL(out_DECOD_REGISTER_VAL ,"out_DECOD_REGISTER_VAL ",Tcontrol_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL( in_DECOD_REGISTER_ACK ," in_DECOD_REGISTER_ACK ",Tcontrol_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL(out_DECOD_VICTIM_VAL ,"out_DECOD_VICTIM_VAL ",Tcontrol_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL( in_DECOD_VICTIM_ACK ," in_DECOD_VICTIM_ACK ",Tcontrol_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL(out_DECOD_VICTIM_ADDRESS ,"out_DECOD_VICTIM_ADDRESS ",Tgeneral_data_t ,_param->_nb_inst_decod); ALLOC1_SC_SIGNAL( in_UPDATE_VAL ," in_UPDATE_VAL ",Tcontrol_t ,_param->_nb_inst_update); ALLOC1_SC_SIGNAL(out_UPDATE_ACK ,"out_UPDATE_ACK ",Tcontrol_t ,_param->_nb_inst_update); ALLOC1_SC_SIGNAL( in_UPDATE_ADDRESS_SRC ," in_UPDATE_ADDRESS_SRC ",Tgeneral_data_t ,_param->_nb_inst_update); ALLOC1_SC_SIGNAL(out_UPDATE_REGISTER_VAL ,"out_UPDATE_REGISTER_VAL ",Tcontrol_t ,_param->_nb_inst_update); ALLOC1_SC_SIGNAL( in_UPDATE_REGISTER_ACK ," in_UPDATE_REGISTER_ACK ",Tcontrol_t ,_param->_nb_inst_update); ALLOC1_SC_SIGNAL(out_UPDATE_VICTIM_VAL ,"out_UPDATE_VICTIM_VAL ",Tcontrol_t ,_param->_nb_inst_update); ALLOC1_SC_SIGNAL( in_UPDATE_VICTIM_ACK ," in_UPDATE_VICTIM_ACK ",Tcontrol_t ,_param->_nb_inst_update); ALLOC1_SC_SIGNAL(out_UPDATE_VICTIM_ADDRESS ,"out_UPDATE_VICTIM_ADDRESS ",Tgeneral_data_t ,_param->_nb_inst_update); /******************************************************** * Instanciation ********************************************************/ msg(_("<%s> : Instanciation of _Branch_Target_Buffer_Glue.\n"),name.c_str()); (*(_Branch_Target_Buffer_Glue->in_CLOCK)) (*(in_CLOCK)); (*(_Branch_Target_Buffer_Glue->in_NRESET)) (*(in_NRESET)); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_VAL ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_ACK ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_HIT ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_ADDRESS_SRC ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_ADDRESS_DEST ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_CONDITION ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_LAST_TAKE ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_IS_ACCURATE ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_REGISTER_VAL ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_REGISTER_ACK ,_param->_nb_inst_predict); INSTANCE2_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_REGISTER_HIT ,_param->_nb_inst_predict,_param->_associativity); INSTANCE2_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_REGISTER_ADDRESS_SRC ,_param->_nb_inst_predict,_param->_associativity); INSTANCE2_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_REGISTER_ADDRESS_DEST,_param->_nb_inst_predict,_param->_associativity); INSTANCE2_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_REGISTER_CONDITION ,_param->_nb_inst_predict,_param->_associativity); INSTANCE2_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_REGISTER_LAST_TAKE ,_param->_nb_inst_predict,_param->_associativity); INSTANCE2_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_REGISTER_IS_ACCURATE ,_param->_nb_inst_predict,_param->_associativity); if (_param->_have_port_victim) { INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_SORT_VAL ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_SORT_INDEX ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_VICTIM_VAL ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_VICTIM_ACK ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_VICTIM_HIT ,_param->_nb_inst_predict); if (not _param->_is_full_associative) INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_VICTIM_ADDRESS ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_PREDICT_VICTIM_INDEX ,_param->_nb_inst_predict); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_PREDICT_VICTIM_VICTIM ,_param->_nb_inst_predict); } INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_DECOD_VAL ,_param->_nb_inst_decod); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_DECOD_ACK ,_param->_nb_inst_decod); if (not _param->_is_full_associative) INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_DECOD_ADDRESS_SRC ,_param->_nb_inst_decod); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_DECOD_REGISTER_VAL ,_param->_nb_inst_decod); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_DECOD_REGISTER_ACK ,_param->_nb_inst_decod); if (_param->_have_port_victim) { INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_DECOD_VICTIM_VAL ,_param->_nb_inst_decod); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_DECOD_VICTIM_ACK ,_param->_nb_inst_decod); if (not _param->_is_full_associative) INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_DECOD_VICTIM_ADDRESS ,_param->_nb_inst_decod); } INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_UPDATE_VAL ,_param->_nb_inst_update); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_UPDATE_ACK ,_param->_nb_inst_update); if (not _param->_is_full_associative) INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_UPDATE_ADDRESS_SRC ,_param->_nb_inst_update); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_UPDATE_REGISTER_VAL ,_param->_nb_inst_update); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_UPDATE_REGISTER_ACK ,_param->_nb_inst_update); if (_param->_have_port_victim) { INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_UPDATE_VICTIM_VAL ,_param->_nb_inst_update); INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue, in_UPDATE_VICTIM_ACK ,_param->_nb_inst_update); if (not _param->_is_full_associative) INSTANCE1_SC_SIGNAL(_Branch_Target_Buffer_Glue,out_UPDATE_VICTIM_ADDRESS ,_param->_nb_inst_update); } msg(_("<%s> : Start Simulation ............\n"),name.c_str()); Time * _time = new Time(); /******************************************************** * Simulation - Begin ********************************************************/ // Initialisation const uint32_t seed = 0; //const uint32_t seed = static_cast(time(NULL)); srand(seed); SC_START(0); LABEL("Initialisation"); LABEL("Reset"); in_NRESET->write(0); SC_START(5); in_NRESET->write(1); LABEL("Loop of Test"); for (uint32_t iteration=0; iteration : ............ Stop Simulation\n"),name.c_str()); delete in_CLOCK; delete in_NRESET; delete [] in_PREDICT_VAL ; delete [] out_PREDICT_ACK ; delete [] out_PREDICT_HIT ; delete [] out_PREDICT_ADDRESS_SRC ; delete [] out_PREDICT_ADDRESS_DEST ; delete [] out_PREDICT_CONDITION ; delete [] out_PREDICT_LAST_TAKE ; delete [] out_PREDICT_IS_ACCURATE ; delete [] out_PREDICT_REGISTER_VAL ; delete [] in_PREDICT_REGISTER_ACK ; delete [] in_PREDICT_REGISTER_HIT ; delete [] in_PREDICT_REGISTER_ADDRESS_SRC ; delete [] in_PREDICT_REGISTER_ADDRESS_DEST; delete [] in_PREDICT_REGISTER_CONDITION ; delete [] in_PREDICT_REGISTER_LAST_TAKE ; delete [] in_PREDICT_REGISTER_IS_ACCURATE ; delete [] in_PREDICT_SORT_VAL ; delete [] in_PREDICT_SORT_INDEX ; delete [] out_PREDICT_VICTIM_VAL ; delete [] in_PREDICT_VICTIM_ACK ; delete [] out_PREDICT_VICTIM_HIT ; delete [] out_PREDICT_VICTIM_ADDRESS ; delete [] out_PREDICT_VICTIM_INDEX ; delete [] in_PREDICT_VICTIM_VICTIM ; delete [] in_DECOD_VAL ; delete [] out_DECOD_ACK ; delete [] in_DECOD_ADDRESS_SRC ; delete [] out_DECOD_REGISTER_VAL ; delete [] in_DECOD_REGISTER_ACK ; delete [] out_DECOD_VICTIM_VAL ; delete [] in_DECOD_VICTIM_ACK ; delete [] out_DECOD_VICTIM_ADDRESS ; delete [] in_UPDATE_VAL ; delete [] out_UPDATE_ACK ; delete [] in_UPDATE_ADDRESS_SRC ; delete [] out_UPDATE_REGISTER_VAL ; delete [] in_UPDATE_REGISTER_ACK ; delete [] out_UPDATE_VICTIM_VAL ; delete [] in_UPDATE_VICTIM_ACK ; delete [] out_UPDATE_VICTIM_ADDRESS ; #endif delete _Branch_Target_Buffer_Glue; #ifdef STATISTICS delete _parameters_statistics; #endif }