#ifdef SYSTEMC /* * $Id: Branch_Target_Buffer_Glue_genMealy_predict.cpp 128 2009-06-26 08:43:23Z rosiere $ * * [ Description ] * */ #include "Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Branch_Target_Buffer/Branch_Target_Buffer_Glue/include/Branch_Target_Buffer_Glue.h" namespace morpheo { namespace behavioural { namespace core { namespace multi_front_end { namespace front_end { namespace prediction_unit { namespace branch_target_buffer { namespace branch_target_buffer_glue { #undef FUNCTION #define FUNCTION "Branch_Target_Buffer_Glue::genMealy_predict" void Branch_Target_Buffer_Glue::genMealy_predict (void) { log_begin(Branch_Target_Buffer_Glue,FUNCTION); log_function(Branch_Target_Buffer_Glue,FUNCTION,_name.c_str()); if (PORT_READ(in_NRESET)) { for (uint32_t i=0; i<_param->_nb_inst_predict; i++) { log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * PREDICT [%d]",i); Tcontrol_t val = PORT_READ(in_PREDICT_VAL [i]); Tcontrol_t register_ack = PORT_READ(in_PREDICT_REGISTER_ACK [i]); Tcontrol_t sort_val = (_param->_have_port_victim)?PORT_READ(in_PREDICT_SORT_VAL [i]):true; Tcontrol_t victim_ack = (_param->_have_port_victim)?PORT_READ(in_PREDICT_VICTIM_ACK [i]):true; log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * val : %d",val ); log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * register_ack : %d",register_ack); log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * port_victim : %d",_param->_have_port_victim); log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * sort_val : %d",sort_val ); log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * victim_ack : %d",victim_ack ); Tptr_t index = (_param->_have_port_victim)?PORT_READ(in_PREDICT_SORT_INDEX [i]):0; Tcontrol_t hit = // (_param->_have_port_victim)?sort_val: PORT_READ(in_PREDICT_REGISTER_HIT [i][index]); Tgeneral_data_t address_src = PORT_READ(in_PREDICT_REGISTER_ADDRESS_SRC [i][index]); log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * index : %d" ,index ); log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * hit : %d" ,hit ); log_printf(TRACE,Branch_Target_Buffer_Glue,FUNCTION," * address_src : %.8x",address_src); // Multiplexor PORT_WRITE(out_PREDICT_HIT [i],hit); PORT_WRITE(out_PREDICT_ADDRESS_SRC [i],address_src); PORT_WRITE(out_PREDICT_ADDRESS_DEST [i],PORT_READ(in_PREDICT_REGISTER_ADDRESS_DEST [i][index])); PORT_WRITE(out_PREDICT_CONDITION [i],PORT_READ(in_PREDICT_REGISTER_CONDITION [i][index])); PORT_WRITE(out_PREDICT_LAST_TAKE [i],PORT_READ(in_PREDICT_REGISTER_LAST_TAKE [i][index])); PORT_WRITE(out_PREDICT_IS_ACCURATE [i],PORT_READ(in_PREDICT_REGISTER_IS_ACCURATE [i][index])); PORT_WRITE(out_PREDICT_ACK [i], ( // val and register_ack and // sort_val and victim_ack )); PORT_WRITE(out_PREDICT_REGISTER_VAL [i], ( val and // register_ack and // sort_val and victim_ack )); if (_param->_have_port_victim) { PORT_WRITE(out_PREDICT_VICTIM_VAL [i], ( val and register_ack // and // sort_val and // victim_ack )); PORT_WRITE(out_PREDICT_VICTIM_HIT [i], hit); if (not _param->_is_full_associative) PORT_WRITE(out_PREDICT_VICTIM_ADDRESS [i], (address_src >> _param->_shift_bank)&_param->_mask_bank); PORT_WRITE(out_PREDICT_VICTIM_INDEX [i], index); } } } else { for (uint32_t i=0; i<_param->_nb_inst_predict; i++) { PORT_WRITE(out_PREDICT_ACK [i], 0); PORT_WRITE(out_PREDICT_REGISTER_VAL [i], 0); if (_param->_have_port_victim) PORT_WRITE(out_PREDICT_VICTIM_VAL [i], 0); } } log_end(Branch_Target_Buffer_Glue,FUNCTION); }; }; // end namespace branch_target_buffer_glue }; // end namespace branch_target_buffer }; // end namespace prediction_unit }; // end namespace front_end }; // end namespace multi_front_end }; // end namespace core }; // end namespace behavioural }; // end namespace morpheo #endif