#ifdef VHDL /* * $Id$ * * [ Description ] * */ #include "Behavioural/Stage_1_Ifetch/Predictor/Meta_Predictor/Two_Level_Branch_Predictor/include/Two_Level_Branch_Predictor.h" namespace morpheo { namespace behavioural { namespace stage_1_ifetch { namespace predictor { namespace meta_predictor { namespace two_level_branch_predictor { void Two_Level_Branch_Predictor::vhdl_port (Vhdl & vhdl) { log_printf(FUNC,Two_Level_Branch_Predictor,"vhdl_port","Begin"); vhdl.set_port (" in_CLOCK" , IN, 1); for (uint32_t i=0; i<_param._nb_prediction; i++) { vhdl.set_port (" in_PREDICT_VAL_" +toString(i), IN, 1); vhdl.set_port ("out_PREDICT_ACK_" +toString(i),OUT, 1); vhdl.set_port (" in_PREDICT_ADDRESS_" +toString(i), IN,_param._size_address); if (_param._have_bht) vhdl.set_port ("out_PREDICT_BHT_HISTORY_"+toString(i),OUT,static_cast(ceil(log2(_param._bht_nb_shifter)))); if (_param._have_pht) vhdl.set_port ("out_PREDICT_PHT_HISTORY_"+toString(i),OUT,static_cast(ceil(log2(_param._pht_nb_counter)))); } for (uint32_t i=0; i<_param._nb_branch_complete; i++) { vhdl.set_port (" in_BRANCH_COMPLETE_VAL_" +toString(i), IN, 1); vhdl.set_port ("out_BRANCH_COMPLETE_ACK_" +toString(i),OUT, 1); vhdl.set_port (" in_BRANCH_COMPLETE_ADDRESS_" +toString(i), IN,_param._size_address); if (_param._have_bht) vhdl.set_port (" in_BRANCH_COMPLETE_BHT_HISTORY_"+toString(i), IN,static_cast(ceil(log2(_param._bht_nb_shifter)))); if (_param._have_bht) vhdl.set_port (" in_BRANCH_COMPLETE_PHT_HISTORY_"+toString(i), IN,static_cast(ceil(log2(_param._pht_nb_counter)))); vhdl.set_port (" in_BRANCH_COMPLETE_HIT_" +toString(i), IN, 1); } log_printf(FUNC,Two_Level_Branch_Predictor,"vhdl_port","End"); }; }; // end namespace two_level_branch_predictor }; // end namespace meta_predictor }; // end namespace predictor }; // end namespace stage_1_ifetch }; // end namespace behavioural }; // end namespace morpheo #endif