/* * $Id$ * * [ Description ] * */ #include "Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Direction/Meta_Predictor/Meta_Predictor_Glue/include/Meta_Predictor_Glue.h" namespace morpheo { namespace behavioural { namespace core { namespace multi_front_end { namespace front_end { namespace prediction_unit { namespace direction { namespace meta_predictor { namespace meta_predictor_glue { #ifdef SYSTEMC Meta_Predictor_Glue::Meta_Predictor_Glue (sc_module_name name, #else Meta_Predictor_Glue::Meta_Predictor_Glue (string name, #endif #ifdef STATISTICS morpheo::behavioural::Parameters_Statistics param_statistics, #endif morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::direction::meta_predictor::meta_predictor_glue::Parameters param ): _name (name) ,_param (param) // #ifdef STATISTICS // ,_param_statistics (param_statistics) // #endif { log_printf(FUNC,Meta_Predictor_Glue,"Meta_Predictor_Glue","Begin"); log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","Allocation"); allocation (); #ifdef STATISTICS log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","Allocation of statistics"); // Allocation of statistics _stat = new Statistics (static_cast(_name), param_statistics , param); #endif #ifdef VHDL // generate the vhdl log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","VHDL's generation"); vhdl(); #endif #ifdef SYSTEMC #if defined(STATISTICS) or defined(VHDL_TESTBENCH) log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","method - transition"); SC_METHOD (transition); dont_initialize (); sensitive_pos << *(in_CLOCK); #endif log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","method - genMealy_predict_ack"); SC_METHOD (genMealy_predict_ack); dont_initialize (); for (uint32_t i=0; i<_param._nb_prediction; i++) { sensitive << *(in_PREDICT_PREDICTOR_2_ACK [i]); if (_param._have_meta_predictor) { sensitive << *(in_PREDICT_PREDICTOR_0_ACK [i]) << *(in_PREDICT_PREDICTOR_1_ACK [i]); } } #ifdef SYSTEMCASS_SPECIFIC // List dependency information for (uint32_t i=0; i<_param._nb_prediction; i++) { (*(out_PREDICT_ACK [i])) (*(in_PREDICT_PREDICTOR_2_ACK [i])); if (_param._have_meta_predictor) { (*(out_PREDICT_ACK [i])) (*(in_PREDICT_PREDICTOR_0_ACK [i])); (*(out_PREDICT_ACK [i])) (*(in_PREDICT_PREDICTOR_1_ACK [i])); } } #endif log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","method - genMealy_predict_history"); SC_METHOD (genMealy_predict_history); dont_initialize (); for (uint32_t i=0; i<_param._nb_prediction; i++) { if (_param._predictor_2_have_bht) sensitive << *(in_PREDICT_PREDICTOR_2_BHT_HISTORY [i]); if (_param._predictor_2_have_pht) sensitive << *(in_PREDICT_PREDICTOR_2_PHT_HISTORY [i]); if (_param._have_meta_predictor) { if (_param._predictor_1_have_bht) sensitive << *(in_PREDICT_PREDICTOR_1_BHT_HISTORY [i]); if (_param._predictor_1_have_pht) sensitive << *(in_PREDICT_PREDICTOR_1_PHT_HISTORY [i]); if (_param._predictor_0_have_bht) sensitive << *(in_PREDICT_PREDICTOR_0_BHT_HISTORY [i]); if (_param._predictor_0_have_pht) sensitive << *(in_PREDICT_PREDICTOR_0_PHT_HISTORY [i]); } } #ifdef SYSTEMCASS_SPECIFIC // List dependency information for (uint32_t i=0; i<_param._nb_prediction; i++) { if (_param._predictor_2_have_bht) (*(out_PREDICT_HISTORY [i])) (*(in_PREDICT_PREDICTOR_2_BHT_HISTORY [i])); if (_param._predictor_2_have_pht) (*(out_PREDICT_HISTORY [i])) (*(in_PREDICT_PREDICTOR_2_PHT_HISTORY [i])); if (_param._have_meta_predictor) { if (_param._predictor_1_have_bht) (*(out_PREDICT_HISTORY [i])) (*(in_PREDICT_PREDICTOR_1_BHT_HISTORY [i])); if (_param._predictor_1_have_pht) (*(out_PREDICT_HISTORY [i])) (*(in_PREDICT_PREDICTOR_1_PHT_HISTORY [i])); if (_param._predictor_0_have_bht) (*(out_PREDICT_HISTORY [i])) (*(in_PREDICT_PREDICTOR_0_BHT_HISTORY [i])); if (_param._predictor_0_have_pht) (*(out_PREDICT_HISTORY [i])) (*(in_PREDICT_PREDICTOR_0_PHT_HISTORY [i])); } if (_param._predictor_2_have_bht) (*(out_PREDICT_DIRECTION [i])) (*(in_PREDICT_PREDICTOR_2_BHT_HISTORY [i])); if (_param._predictor_2_have_pht) (*(out_PREDICT_DIRECTION [i])) (*(in_PREDICT_PREDICTOR_2_PHT_HISTORY [i])); if (_param._have_meta_predictor) { if (_param._predictor_1_have_bht) (*(out_PREDICT_DIRECTION [i])) (*(in_PREDICT_PREDICTOR_1_BHT_HISTORY [i])); if (_param._predictor_1_have_pht) (*(out_PREDICT_DIRECTION [i])) (*(in_PREDICT_PREDICTOR_1_PHT_HISTORY [i])); if (_param._predictor_0_have_bht) (*(out_PREDICT_DIRECTION [i])) (*(in_PREDICT_PREDICTOR_0_BHT_HISTORY [i])); if (_param._predictor_0_have_pht) (*(out_PREDICT_DIRECTION [i])) (*(in_PREDICT_PREDICTOR_0_PHT_HISTORY [i])); } } #endif if (_param._have_meta_predictor) { log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","method - genMealy_branch_complete_val"); SC_METHOD (genMealy_branch_complete_val); dont_initialize (); for (uint32_t i=0; i<_param._nb_branch_complete; i++) { sensitive << *(in_BRANCH_COMPLETE_VAL [i]) << *(in_BRANCH_COMPLETE_HISTORY [i]) << *(in_BRANCH_COMPLETE_DIRECTION [i]); } #ifdef SYSTEMCASS_SPECIFIC // List dependency information for (uint32_t i=0; i<_param._nb_branch_complete; i++) { (*(out_BRANCH_COMPLETE_PREDICTOR_2_VAL [i])) (*(in_BRANCH_COMPLETE_VAL [i])); (*(out_BRANCH_COMPLETE_PREDICTOR_2_VAL [i])) (*(in_BRANCH_COMPLETE_HISTORY [i])); (*(out_BRANCH_COMPLETE_PREDICTOR_2_VAL [i])) (*(in_BRANCH_COMPLETE_DIRECTION [i])); (*(out_BRANCH_COMPLETE_PREDICTOR_2_DIRECTION [i])) (*(in_BRANCH_COMPLETE_VAL [i])); (*(out_BRANCH_COMPLETE_PREDICTOR_2_DIRECTION [i])) (*(in_BRANCH_COMPLETE_HISTORY [i])); (*(out_BRANCH_COMPLETE_PREDICTOR_2_DIRECTION [i])) (*(in_BRANCH_COMPLETE_DIRECTION [i])); } #endif } log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","method - genMealy_branch_complete_ack"); SC_METHOD (genMealy_branch_complete_ack); dont_initialize (); for (uint32_t i=0; i<_param._nb_branch_complete; i++) { sensitive << *(in_BRANCH_COMPLETE_PREDICTOR_2_ACK [i]); if (_param._have_meta_predictor) { sensitive << *(in_BRANCH_COMPLETE_PREDICTOR_0_ACK [i]) << *(in_BRANCH_COMPLETE_PREDICTOR_1_ACK [i]); } } #ifdef SYSTEMCASS_SPECIFIC // List dependency information for (uint32_t i=0; i<_param._nb_branch_complete; i++) { (*(out_BRANCH_COMPLETE_ACK [i])) (*(in_BRANCH_COMPLETE_PREDICTOR_2_ACK [i])); if (_param._have_meta_predictor) { (*(out_BRANCH_COMPLETE_ACK [i])) (*(in_BRANCH_COMPLETE_PREDICTOR_0_ACK [i])); (*(out_BRANCH_COMPLETE_ACK [i])) (*(in_BRANCH_COMPLETE_PREDICTOR_1_ACK [i])); } } #endif log_printf(INFO,Meta_Predictor_Glue,"Meta_Predictor_Glue","method - genMealy_branch_complete_history"); SC_METHOD (genMealy_branch_complete_history); dont_initialize (); for (uint32_t i=0; i<_param._nb_branch_complete; i++) { sensitive << *(in_BRANCH_COMPLETE_HISTORY [i]); } #ifdef SYSTEMCASS_SPECIFIC // List dependency information for (uint32_t i=0; i<_param._nb_branch_complete; i++) { if (_param._predictor_2_have_bht) (*(out_BRANCH_COMPLETE_PREDICTOR_2_BHT_HISTORY [i])) (*( in_BRANCH_COMPLETE_HISTORY [i])); if (_param._predictor_2_have_pht) (*(out_BRANCH_COMPLETE_PREDICTOR_2_PHT_HISTORY [i])) (*( in_BRANCH_COMPLETE_HISTORY [i])); if (_param._have_meta_predictor) { if (_param._predictor_1_have_bht) (*(out_BRANCH_COMPLETE_PREDICTOR_1_BHT_HISTORY [i])) (*( in_BRANCH_COMPLETE_HISTORY [i])); if (_param._predictor_1_have_pht) (*(out_BRANCH_COMPLETE_PREDICTOR_1_PHT_HISTORY [i])) (*( in_BRANCH_COMPLETE_HISTORY [i])); if (_param._predictor_0_have_bht) (*(out_BRANCH_COMPLETE_PREDICTOR_0_BHT_HISTORY [i])) (*( in_BRANCH_COMPLETE_HISTORY [i])); if (_param._predictor_0_have_pht) (*(out_BRANCH_COMPLETE_PREDICTOR_0_PHT_HISTORY [i])) (*( in_BRANCH_COMPLETE_HISTORY [i])); } } #endif #endif log_printf(FUNC,Meta_Predictor_Glue,"Meta_Predictor_Glue","End"); }; Meta_Predictor_Glue::~Meta_Predictor_Glue (void) { log_printf(FUNC,Meta_Predictor_Glue,"~Meta_Predictor_Glue","Begin"); #ifdef STATISTICS log_printf(INFO,Meta_Predictor_Glue,"~Meta_Predictor_Glue","Generate Statistics"); _stat->generate_file(statistics(0)); delete _stat; #endif #ifdef SYSTEMC log_printf(INFO,Meta_Predictor_Glue,"~Meta_Predictor_Glue","Dealocation"); deallocation (); #endif log_printf(FUNC,Meta_Predictor_Glue,"~Meta_Predictor_Glue","End"); }; }; // end namespace meta_predictor_glue }; // end namespace meta_predictor }; // end namespace core }; // end namespace multi_front_end }; // end namespace front_end }; // end namespace prediction_unit }; // end namespace direction }; // end namespace behavioural }; // end namespace morpheo