/* * $Id$ * * [ Description ] * * Test */ #include "Behavioural/Core/Multi_Execute_loop/Execute_loop/Network/Read_unit_to_Execution_unit/SelfTest/include/test.h" #include "Common/include/Test.h" #include "Common/include/BitManipulation.h" #include "Behavioural/include/Allocation.h" #include #include #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) class entry_t { public : Tcontext_t _context_id ; public : Tcontext_t _front_end_id ; public : Tcontext_t _ooo_engine_id ; public : Tpacket_t _packet_id ; public : Toperation_t _operation ; public : Ttype_t _type ; public : Tlsq_ptr_t _store_queue_ptr_write; public : Tlsq_ptr_t _load_queue_ptr_write ; public : Tcontrol_t _has_immediat ; public : Tgeneral_data_t _immediat ; public : Tgeneral_data_t _data_ra ; public : Tgeneral_data_t _data_rb ; public : Tspecial_data_t _data_rc ; public : Tcontrol_t _write_rd ; public : Tgeneral_address_t _num_reg_rd ; public : Tcontrol_t _write_re ; public : Tspecial_address_t _num_reg_re ; public : entry_t (Tcontext_t context_id , Tcontext_t front_end_id , Tcontext_t ooo_engine_id , Tpacket_t packet_id , Toperation_t operation , Ttype_t type , Tlsq_ptr_t store_queue_ptr_write, Tlsq_ptr_t load_queue_ptr_write , Tcontrol_t has_immediat , Tgeneral_data_t immediat , Tgeneral_data_t data_ra , Tgeneral_data_t data_rb , Tspecial_data_t data_rc , Tcontrol_t write_rd , Tgeneral_address_t num_reg_rd , Tcontrol_t write_re , Tspecial_address_t num_reg_re ) { _context_id = context_id ; _front_end_id = front_end_id ; _ooo_engine_id = ooo_engine_id ; _packet_id = packet_id ; _operation = operation ; _type = type ; _store_queue_ptr_write = store_queue_ptr_write; _load_queue_ptr_write = load_queue_ptr_write ; _has_immediat = has_immediat ; _immediat = immediat ; _data_ra = data_ra ; _data_rb = data_rb ; _data_rc = data_rc ; _write_rd = write_rd ; _num_reg_rd = num_reg_rd ; _write_re = write_re ; _num_reg_re = num_reg_re ; } }; void test (string name, morpheo::behavioural::core::multi_execute_loop::execute_loop::network::read_unit_to_execution_unit::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 Read_unit_to_Execution_unit * _Read_unit_to_Execution_unit = new Read_unit_to_Execution_unit (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_READ_UNIT_OUT_VAL ," in_READ_UNIT_OUT_VAL" ,Tcontrol_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL(out_READ_UNIT_OUT_ACK ,"out_READ_UNIT_OUT_ACK" ,Tcontrol_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_CONTEXT_ID ," in_READ_UNIT_OUT_CONTEXT_ID" ,Tcontext_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_FRONT_END_ID ," in_READ_UNIT_OUT_FRONT_END_ID" ,Tcontext_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_OOO_ENGINE_ID ," in_READ_UNIT_OUT_OOO_ENGINE_ID" ,Tcontext_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_PACKET_ID ," in_READ_UNIT_OUT_PACKET_ID" ,Tpacket_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_OPERATION ," in_READ_UNIT_OUT_OPERATION" ,Toperation_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_TYPE ," in_READ_UNIT_OUT_TYPE" ,Ttype_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_STORE_QUEUE_PTR_WRITE," in_READ_UNIT_OUT_STORE_QUEUE_PTR_WRITE",Tlsq_ptr_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_LOAD_QUEUE_PTR_WRITE ," in_READ_UNIT_OUT_LOAD_QUEUE_PTR_WRITE" ,Tlsq_ptr_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_HAS_IMMEDIAT ," in_READ_UNIT_OUT_HAS_IMMEDIAT" ,Tcontrol_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_IMMEDIAT ," in_READ_UNIT_OUT_IMMEDIAT" ,Tgeneral_data_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_DATA_RA ," in_READ_UNIT_OUT_DATA_RA" ,Tgeneral_data_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_DATA_RB ," in_READ_UNIT_OUT_DATA_RB" ,Tgeneral_data_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_DATA_RC ," in_READ_UNIT_OUT_DATA_RC" ,Tspecial_data_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_WRITE_RD ," in_READ_UNIT_OUT_WRITE_RD" ,Tcontrol_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_NUM_REG_RD ," in_READ_UNIT_OUT_NUM_REG_RD" ,Tgeneral_address_t,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_WRITE_RE ," in_READ_UNIT_OUT_WRITE_RE" ,Tcontrol_t ,_param->_nb_read_unit); ALLOC1_SC_SIGNAL( in_READ_UNIT_OUT_NUM_REG_RE ," in_READ_UNIT_OUT_NUM_REG_RE" ,Tspecial_address_t,_param->_nb_read_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_VAL ,"out_EXECUTE_UNIT_IN_VAL" ,Tcontrol_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL( in_EXECUTE_UNIT_IN_ACK ," in_EXECUTE_UNIT_IN_ACK" ,Tcontrol_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_CONTEXT_ID ,"out_EXECUTE_UNIT_IN_CONTEXT_ID" ,Tcontext_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_FRONT_END_ID ,"out_EXECUTE_UNIT_IN_FRONT_END_ID" ,Tcontext_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_OOO_ENGINE_ID ,"out_EXECUTE_UNIT_IN_OOO_ENGINE_ID" ,Tcontext_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_PACKET_ID ,"out_EXECUTE_UNIT_IN_PACKET_ID" ,Tpacket_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_OPERATION ,"out_EXECUTE_UNIT_IN_OPERATION" ,Toperation_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_TYPE ,"out_EXECUTE_UNIT_IN_TYPE" ,Ttype_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE,"out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE",Tlsq_ptr_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE ,"out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE" ,Tlsq_ptr_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT ,"out_EXECUTE_UNIT_IN_HAS_IMMEDIAT" ,Tcontrol_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_IMMEDIAT ,"out_EXECUTE_UNIT_IN_IMMEDIAT" ,Tgeneral_data_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_DATA_RA ,"out_EXECUTE_UNIT_IN_DATA_RA" ,Tgeneral_data_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_DATA_RB ,"out_EXECUTE_UNIT_IN_DATA_RB" ,Tgeneral_data_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_DATA_RC ,"out_EXECUTE_UNIT_IN_DATA_RC" ,Tspecial_data_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_WRITE_RD ,"out_EXECUTE_UNIT_IN_WRITE_RD" ,Tcontrol_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_NUM_REG_RD ,"out_EXECUTE_UNIT_IN_NUM_REG_RD" ,Tgeneral_address_t,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_WRITE_RE ,"out_EXECUTE_UNIT_IN_WRITE_RE" ,Tcontrol_t ,_param->_nb_execute_unit); ALLOC1_SC_SIGNAL(out_EXECUTE_UNIT_IN_NUM_REG_RE ,"out_EXECUTE_UNIT_IN_NUM_REG_RE" ,Tspecial_address_t,_param->_nb_execute_unit); /******************************************************** * Instanciation ********************************************************/ msg(_("<%s> : Instanciation of _Read_unit_to_Execution_unit.\n"),name.c_str()); (*(_Read_unit_to_Execution_unit->in_CLOCK)) (*(in_CLOCK)); (*(_Read_unit_to_Execution_unit->in_NRESET)) (*(in_NRESET)); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_VAL ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_READ_UNIT_OUT_ACK ,_param->_nb_read_unit); if (_param->_have_port_context_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_CONTEXT_ID ,_param->_nb_read_unit); if (_param->_have_port_front_end_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_FRONT_END_ID ,_param->_nb_read_unit); if (_param->_have_port_ooo_engine_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_OOO_ENGINE_ID ,_param->_nb_read_unit); if (_param->_have_port_packet_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_PACKET_ID ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_OPERATION ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_TYPE ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_STORE_QUEUE_PTR_WRITE,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_LOAD_QUEUE_PTR_WRITE ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_HAS_IMMEDIAT ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_IMMEDIAT ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_DATA_RA ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_DATA_RB ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_DATA_RC ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_WRITE_RD ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_NUM_REG_RD ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_WRITE_RE ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_READ_UNIT_OUT_NUM_REG_RE ,_param->_nb_read_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_VAL ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit, in_EXECUTE_UNIT_IN_ACK ,_param->_nb_execute_unit); if (_param->_have_port_context_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_CONTEXT_ID ,_param->_nb_execute_unit); if (_param->_have_port_front_end_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_FRONT_END_ID ,_param->_nb_execute_unit); if (_param->_have_port_ooo_engine_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_OOO_ENGINE_ID ,_param->_nb_execute_unit); if (_param->_have_port_packet_id) INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_PACKET_ID ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_OPERATION ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_TYPE ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_HAS_IMMEDIAT ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_IMMEDIAT ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_DATA_RA ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_DATA_RB ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_DATA_RC ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_WRITE_RD ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_NUM_REG_RD ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_WRITE_RE ,_param->_nb_execute_unit); INSTANCE1_SC_SIGNAL(_Read_unit_to_Execution_unit,out_EXECUTE_UNIT_IN_NUM_REG_RE ,_param->_nb_execute_unit); 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); const int32_t percent_transaction_in = 75; const int32_t percent_transaction_out = 75; set read_unit_thread [_param->_nb_read_unit]; set read_unit_type [_param->_nb_read_unit][_param->_nb_thread]; for (uint32_t i=0; i<_param->_nb_read_unit; i++) for (uint32_t j=0; j<_param->_nb_execute_unit; j++) if (_param->_table_routing[i][j]) for (uint32_t k=0; k<_param->_nb_thread; k++) if (_param->_table_execute_thread[j][k]) { read_unit_thread [i].insert(k); for (uint32_t l=0; l<_param->_nb_type; l++) if (_param->_table_execute_type[j][l]) read_unit_type [i][k].insert(l); } //bool ** _table_routing ; //array [nb_read_unit][nb_execute_unit] //bool ** _table_execute_type ; //array [nb_execute_unit][nb_type] //bool ** _table_execute_thread; //array [nb_execute_unit][nb_thread] 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 request [_param->_nb_read_unit]; uint32_t nb_request_in; for (nb_request_in=0; nb_request_in < _param->_nb_packet; ) for (uint32_t i=0; i<_param->_nb_read_unit; i++) { if (nb_request_in >= _param->_nb_packet) break; Tcontext_t context_id ; Tcontext_t front_end_id ; Tcontext_t ooo_engine_id; Tcontext_t num_thread ; // Find compatible thread do { context_id = range (rand(), _param->_size_context_id ); front_end_id = range (rand(), _param->_size_front_end_id ); ooo_engine_id = range (rand(), _param->_size_ooo_engine_id); num_thread = get_num_thread (context_id , _param->_size_context_id , front_end_id , _param->_size_front_end_id , ooo_engine_id, _param->_size_ooo_engine_id); } while (read_unit_thread[i].find(num_thread) == read_unit_thread[i].end()); Ttype_t type; // Find a compatible type do { type = range (rand(), _param->_size_type); } while (read_unit_type[i][num_thread].find(type) == read_unit_type[i][num_thread].end()); request[i].push_back(entry_t (context_id , front_end_id , ooo_engine_id, nb_request_in, range (rand(), _param->_size_operation ), type, range (rand(), _param->_size_store_queue ), range (rand(), _param->_size_load_queue ), range (rand(), 2 ), range (rand(), _param->_size_general_data ), range (rand(), _param->_size_general_data ), range (rand(), _param->_size_general_data ), range (rand(), _param->_size_special_data ), range (rand(), 2 ), range (rand(), _param->_size_general_register), range (rand(), 2 ), range (rand(), _param->_size_special_register) )); nb_request_in++; } uint32_t nb_request_out = 0; while (nb_request_out < nb_request_in) { for (uint32_t i=0; i<_param->_nb_read_unit; i++) { bool val = not request[i].empty() and ((rand()%100) < percent_transaction_in); in_READ_UNIT_OUT_VAL [i]->write(val); if (val) { in_READ_UNIT_OUT_CONTEXT_ID [i] ->write(request[i].front()._context_id ); in_READ_UNIT_OUT_FRONT_END_ID [i] ->write(request[i].front()._front_end_id ); in_READ_UNIT_OUT_OOO_ENGINE_ID [i] ->write(request[i].front()._ooo_engine_id ); in_READ_UNIT_OUT_PACKET_ID [i] ->write(request[i].front()._packet_id ); in_READ_UNIT_OUT_OPERATION [i] ->write(request[i].front()._operation ); in_READ_UNIT_OUT_TYPE [i] ->write(request[i].front()._type ); in_READ_UNIT_OUT_STORE_QUEUE_PTR_WRITE[i] ->write(request[i].front()._store_queue_ptr_write); in_READ_UNIT_OUT_LOAD_QUEUE_PTR_WRITE [i] ->write(request[i].front()._load_queue_ptr_write ); in_READ_UNIT_OUT_HAS_IMMEDIAT [i] ->write(request[i].front()._has_immediat ); in_READ_UNIT_OUT_IMMEDIAT [i] ->write(request[i].front()._immediat ); in_READ_UNIT_OUT_DATA_RA [i] ->write(request[i].front()._data_ra ); in_READ_UNIT_OUT_DATA_RB [i] ->write(request[i].front()._data_rb ); in_READ_UNIT_OUT_DATA_RC [i] ->write(request[i].front()._data_rc ); in_READ_UNIT_OUT_WRITE_RD [i] ->write(request[i].front()._write_rd ); in_READ_UNIT_OUT_NUM_REG_RD [i] ->write(request[i].front()._num_reg_rd ); in_READ_UNIT_OUT_WRITE_RE [i] ->write(request[i].front()._write_re ); in_READ_UNIT_OUT_NUM_REG_RE [i] ->write(request[i].front()._num_reg_re ); } } for (uint32_t i=0; i<_param->_nb_execute_unit; i++) in_EXECUTE_UNIT_IN_ACK [i]->write((rand()%100) < percent_transaction_out); SC_START(0); for (uint32_t i=0; i<_param->_nb_read_unit; i++) if (in_READ_UNIT_OUT_VAL [i]->read() and out_READ_UNIT_OUT_ACK [i]->read()) { LABEL("READ_UNIT_OUT [%d] - Transaction accepted",i); } for (uint32_t i=0; i<_param->_nb_execute_unit; i++) if (out_EXECUTE_UNIT_IN_VAL [i]->read() and in_EXECUTE_UNIT_IN_ACK [i]->read()) { LABEL("EXECUTE_UNIT_IN [%d] - Transaction accepted (%d)",i,nb_request_out); nb_request_out ++; Tpacket_t packet = (_param->_have_port_packet_id)?out_EXECUTE_UNIT_IN_PACKET_ID[i]->read():0; LABEL(" * packet : %d",packet); uint32_t read_unit; // find read_unit for (read_unit=0; read_unit<_param->_nb_read_unit; read_unit++) if (packet == ((_param->_have_port_packet_id)?request[read_unit].front()._packet_id:0)) break; LABEL(" * read_unit source : %d",read_unit); if (_param->_have_port_packet_id) TEST(Tcontext_t ,out_EXECUTE_UNIT_IN_PACKET_ID [i]->read(), request[read_unit].front()._packet_id ); // Authorised link ? read_unit -> execute_unit TEST(bool, _param->_table_routing[read_unit][i], true); if (_param->_have_port_context_id) TEST(Tcontext_t ,out_EXECUTE_UNIT_IN_CONTEXT_ID [i]->read(), request[read_unit].front()._context_id ); if (_param->_have_port_front_end_id) TEST(Tcontext_t ,out_EXECUTE_UNIT_IN_FRONT_END_ID [i]->read(), request[read_unit].front()._front_end_id ); if (_param->_have_port_ooo_engine_id) TEST(Tcontext_t ,out_EXECUTE_UNIT_IN_OOO_ENGINE_ID [i]->read(), request[read_unit].front()._ooo_engine_id ); TEST(Toperation_t ,out_EXECUTE_UNIT_IN_OPERATION [i]->read(), request[read_unit].front()._operation ); TEST(Ttype_t ,out_EXECUTE_UNIT_IN_TYPE [i]->read(), request[read_unit].front()._type ); TEST(Tlsq_ptr_t ,out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE[i]->read(), request[read_unit].front()._store_queue_ptr_write); TEST(Tlsq_ptr_t ,out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i]->read(), request[read_unit].front()._load_queue_ptr_write ); TEST(Tcontrol_t ,out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i]->read(), request[read_unit].front()._has_immediat ); TEST(Tgeneral_data_t ,out_EXECUTE_UNIT_IN_IMMEDIAT [i]->read(), request[read_unit].front()._immediat ); TEST(Tgeneral_data_t ,out_EXECUTE_UNIT_IN_DATA_RA [i]->read(), request[read_unit].front()._data_ra ); TEST(Tgeneral_data_t ,out_EXECUTE_UNIT_IN_DATA_RB [i]->read(), request[read_unit].front()._data_rb ); TEST(Tspecial_data_t ,out_EXECUTE_UNIT_IN_DATA_RC [i]->read(), request[read_unit].front()._data_rc ); TEST(Tcontrol_t ,out_EXECUTE_UNIT_IN_WRITE_RD [i]->read(), request[read_unit].front()._write_rd ); TEST(Tgeneral_address_t,out_EXECUTE_UNIT_IN_NUM_REG_RD [i]->read(), request[read_unit].front()._num_reg_rd ); TEST(Tcontrol_t ,out_EXECUTE_UNIT_IN_WRITE_RE [i]->read(), request[read_unit].front()._write_re ); TEST(Tspecial_address_t,out_EXECUTE_UNIT_IN_NUM_REG_RE [i]->read(), request[read_unit].front()._num_reg_re ); request[read_unit].pop_front(); } SC_START(1); } } /******************************************************** * Simulation - End ********************************************************/ TEST_OK ("End of Simulation"); delete _time; msg(_("<%s> : ............ Stop Simulation\n"),name.c_str()); delete in_CLOCK; delete in_NRESET; delete [] in_READ_UNIT_OUT_VAL ; delete [] out_READ_UNIT_OUT_ACK ; delete [] in_READ_UNIT_OUT_CONTEXT_ID ; delete [] in_READ_UNIT_OUT_FRONT_END_ID ; delete [] in_READ_UNIT_OUT_OOO_ENGINE_ID ; delete [] in_READ_UNIT_OUT_PACKET_ID ; delete [] in_READ_UNIT_OUT_OPERATION ; delete [] in_READ_UNIT_OUT_TYPE ; delete [] in_READ_UNIT_OUT_STORE_QUEUE_PTR_WRITE; delete [] in_READ_UNIT_OUT_LOAD_QUEUE_PTR_WRITE ; delete [] in_READ_UNIT_OUT_HAS_IMMEDIAT ; delete [] in_READ_UNIT_OUT_IMMEDIAT ; delete [] in_READ_UNIT_OUT_DATA_RA ; delete [] in_READ_UNIT_OUT_DATA_RB ; delete [] in_READ_UNIT_OUT_DATA_RC ; delete [] in_READ_UNIT_OUT_WRITE_RD ; delete [] in_READ_UNIT_OUT_NUM_REG_RD ; delete [] in_READ_UNIT_OUT_WRITE_RE ; delete [] in_READ_UNIT_OUT_NUM_REG_RE ; delete [] out_EXECUTE_UNIT_IN_VAL ; delete [] in_EXECUTE_UNIT_IN_ACK ; delete [] out_EXECUTE_UNIT_IN_CONTEXT_ID ; delete [] out_EXECUTE_UNIT_IN_FRONT_END_ID ; delete [] out_EXECUTE_UNIT_IN_OOO_ENGINE_ID ; delete [] out_EXECUTE_UNIT_IN_PACKET_ID ; delete [] out_EXECUTE_UNIT_IN_OPERATION ; delete [] out_EXECUTE_UNIT_IN_TYPE ; delete [] out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE; delete [] out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE ; delete [] out_EXECUTE_UNIT_IN_HAS_IMMEDIAT ; delete [] out_EXECUTE_UNIT_IN_IMMEDIAT ; delete [] out_EXECUTE_UNIT_IN_DATA_RA ; delete [] out_EXECUTE_UNIT_IN_DATA_RB ; delete [] out_EXECUTE_UNIT_IN_DATA_RC ; delete [] out_EXECUTE_UNIT_IN_WRITE_RD ; delete [] out_EXECUTE_UNIT_IN_NUM_REG_RD ; delete [] out_EXECUTE_UNIT_IN_WRITE_RE ; delete [] out_EXECUTE_UNIT_IN_NUM_REG_RE ; #endif delete _Read_unit_to_Execution_unit; #ifdef STATISTICS delete _parameters_statistics; #endif }