#ifdef SYSTEMC /* * $Id: Read_queue_allocation.cpp 88 2008-12-10 18:31:39Z rosiere $ * * [ Description ] * */ #include "Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Read_unit/Read_unit/Read_queue/include/Read_queue.h" namespace morpheo { namespace behavioural { namespace core { namespace multi_execute_loop { namespace execute_loop { namespace multi_read_unit { namespace read_unit { namespace read_queue { void Read_queue::allocation (void) { log_printf(FUNC,Read_queue,"allocation","Begin"); _component = new Component (_usage); Entity * entity = _component->set_entity (_name ,"Read_queue" #ifdef POSITION ,COMBINATORY #endif ); _interfaces = entity->set_interfaces(); // ~~~~~[ Interface : "" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ { Interface * interface = _interfaces->set_interface("" #ifdef POSITION ,IN ,SOUTH, "Generalist interface" #endif ); in_CLOCK = interface->set_signal_clk ("clock" ,1, CLOCK_VHDL_YES); in_NRESET = interface->set_signal_in ("nreset",1, RESET_VHDL_YES); } // ~~~~~[ Interface : "read_queue_in" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ { Interface_fifo * interface = _interfaces->set_interface("read_queue_in" #ifdef POSITION ,IN ,EAST ,"Input of read_queue" #endif ); in_READ_QUEUE_IN_VAL = interface->set_signal_valack_in ("val" , VAL); out_READ_QUEUE_IN_ACK = interface->set_signal_valack_out ("ack" , ACK); if(_param->_have_port_context_id ) in_READ_QUEUE_IN_CONTEXT_ID = interface->set_signal_in ("context_id" ,_param->_size_context_id ); if(_param->_have_port_front_end_id) in_READ_QUEUE_IN_FRONT_END_ID = interface->set_signal_in ("front_end_id" ,_param->_size_front_end_id ); if(_param->_have_port_ooo_engine_id) in_READ_QUEUE_IN_OOO_ENGINE_ID = interface->set_signal_in ("ooo_engine_id",_param->_size_ooo_engine_id ); if(_param->_have_port_rob_ptr ) in_READ_QUEUE_IN_ROB_ID = interface->set_signal_in ("rob_id" ,_param->_size_rob_ptr ); in_READ_QUEUE_IN_OPERATION = interface->set_signal_in ("operation" ,_param->_size_operation ); in_READ_QUEUE_IN_TYPE = interface->set_signal_in ("type" ,_param->_size_type ); in_READ_QUEUE_IN_STORE_QUEUE_PTR_WRITE = interface->set_signal_in ("store_queue_ptr_write", _param->_size_store_queue_ptr); if (_param->_have_port_load_queue_ptr) in_READ_QUEUE_IN_LOAD_QUEUE_PTR_WRITE = interface->set_signal_in ("load_queue_ptr_write" , _param->_size_load_queue_ptr); in_READ_QUEUE_IN_HAS_IMMEDIAT = interface->set_signal_in ("has_immediat",1 ); in_READ_QUEUE_IN_IMMEDIAT = interface->set_signal_in ("immediat" ,_param->_size_general_data ); in_READ_QUEUE_IN_READ_RA = interface->set_signal_in ("read_ra" ,1 ); in_READ_QUEUE_IN_NUM_REG_RA = interface->set_signal_in ("num_reg_ra" ,_param->_size_general_register ); in_READ_QUEUE_IN_READ_RB = interface->set_signal_in ("read_rb" ,1 ); in_READ_QUEUE_IN_NUM_REG_RB = interface->set_signal_in ("num_reg_rb" ,_param->_size_general_register ); in_READ_QUEUE_IN_READ_RC = interface->set_signal_in ("read_rc" ,1 ); in_READ_QUEUE_IN_NUM_REG_RC = interface->set_signal_in ("num_reg_rc" ,_param->_size_special_register ); in_READ_QUEUE_IN_WRITE_RD = interface->set_signal_in ("write_rd" ,1 ); in_READ_QUEUE_IN_NUM_REG_RD = interface->set_signal_in ("num_reg_rd" ,_param->_size_general_register ); in_READ_QUEUE_IN_WRITE_RE = interface->set_signal_in ("write_re" ,1 ); in_READ_QUEUE_IN_NUM_REG_RE = interface->set_signal_in ("num_reg_re" ,_param->_size_special_register ); } // ~~~~~[ Interface : "read_queue_out" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ { Interface_fifo * interface = _interfaces->set_interface("read_queue_out" #ifdef POSITION ,OUT ,EAST ,"Input of read_queue" #endif ); out_READ_QUEUE_OUT_VAL = interface->set_signal_valack_out ("val" , VAL); in_READ_QUEUE_OUT_ACK = interface->set_signal_valack_in ("ack" , ACK); if(_param->_have_port_context_id ) out_READ_QUEUE_OUT_CONTEXT_ID = interface->set_signal_out ("context_id" ,_param->_size_context_id ); if(_param->_have_port_front_end_id) out_READ_QUEUE_OUT_FRONT_END_ID = interface->set_signal_out ("front_end_id" ,_param->_size_front_end_id ); if(_param->_have_port_ooo_engine_id) out_READ_QUEUE_OUT_OOO_ENGINE_ID = interface->set_signal_out ("ooo_engine_id",_param->_size_ooo_engine_id ); if(_param->_have_port_rob_ptr ) out_READ_QUEUE_OUT_ROB_ID = interface->set_signal_out ("rob_id" ,_param->_size_rob_ptr ); out_READ_QUEUE_OUT_OPERATION = interface->set_signal_out ("operation" ,_param->_size_operation ); out_READ_QUEUE_OUT_TYPE = interface->set_signal_out ("type" ,_param->_size_type ); out_READ_QUEUE_OUT_STORE_QUEUE_PTR_WRITE = interface->set_signal_out ("store_queue_ptr_write", _param->_size_store_queue_ptr); if (_param->_have_port_load_queue_ptr) out_READ_QUEUE_OUT_LOAD_QUEUE_PTR_WRITE = interface->set_signal_out ("load_queue_ptr_write" , _param->_size_load_queue_ptr); out_READ_QUEUE_OUT_HAS_IMMEDIAT = interface->set_signal_out ("has_immediat",1 ); out_READ_QUEUE_OUT_IMMEDIAT = interface->set_signal_out ("immediat" ,_param->_size_general_data ); // out_READ_QUEUE_OUT_READ_RA = interface->set_signal_out ("read_ra" ,1 ); out_READ_QUEUE_OUT_NUM_REG_RA = interface->set_signal_out ("num_reg_ra" ,_param->_size_general_register ); out_READ_QUEUE_OUT_DATA_RA_VAL = interface->set_signal_out ("data_ra_val" ,1 ); out_READ_QUEUE_OUT_DATA_RA = interface->set_signal_out ("data_ra" ,_param->_size_general_data ); // out_READ_QUEUE_OUT_READ_RB = interface->set_signal_out ("read_rb" ,1 ); out_READ_QUEUE_OUT_NUM_REG_RB = interface->set_signal_out ("num_reg_rb" ,_param->_size_general_register ); out_READ_QUEUE_OUT_DATA_RB_VAL = interface->set_signal_out ("data_rb_val" ,1 ); out_READ_QUEUE_OUT_DATA_RB = interface->set_signal_out ("data_rb" ,_param->_size_general_data ); // out_READ_QUEUE_OUT_READ_RC = interface->set_signal_out ("read_rc" ,1 ); out_READ_QUEUE_OUT_NUM_REG_RC = interface->set_signal_out ("num_reg_rc" ,_param->_size_special_register ); out_READ_QUEUE_OUT_DATA_RC_VAL = interface->set_signal_out ("data_rc_val" ,1 ); out_READ_QUEUE_OUT_DATA_RC = interface->set_signal_out ("data_rc" ,_param->_size_special_data ); out_READ_QUEUE_OUT_WRITE_RD = interface->set_signal_out ("write_rd" ,1 ); out_READ_QUEUE_OUT_NUM_REG_RD = interface->set_signal_out ("num_reg_rd" ,_param->_size_general_register ); out_READ_QUEUE_OUT_WRITE_RE = interface->set_signal_out ("write_re" ,1 ); out_READ_QUEUE_OUT_NUM_REG_RE = interface->set_signal_out ("num_reg_re" ,_param->_size_special_register ); } // ~~~~~[ Interface : "gpr_read" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ out_GPR_READ_VAL = new SC_OUT(Tcontrol_t ) * [_param->_nb_gpr_read]; in_GPR_READ_ACK = new SC_IN (Tcontrol_t ) * [_param->_nb_gpr_read]; if(_param->_have_port_ooo_engine_id) out_GPR_READ_OOO_ENGINE_ID= new SC_OUT(Tcontext_t ) * [_param->_nb_gpr_read]; out_GPR_READ_NUM_REG = new SC_OUT(Tgeneral_address_t) * [_param->_nb_gpr_read]; in_GPR_READ_DATA = new SC_IN (Tgeneral_data_t ) * [_param->_nb_gpr_read]; in_GPR_READ_DATA_VAL = new SC_IN (Tcontrol_t ) * [_param->_nb_gpr_read]; for (uint32_t i=0; i<_param->_nb_gpr_read; i++) { Interface_fifo * interface = _interfaces->set_interface("gpr_read_"+toString(i) #ifdef POSITION , IN ,SOUTH , "Interface with the General RegisterFile." #endif ); out_GPR_READ_VAL [i] = interface->set_signal_valack_out ("val" , VAL); in_GPR_READ_ACK [i] = interface->set_signal_valack_in ("ack" , ACK); if(_param->_have_port_ooo_engine_id) out_GPR_READ_OOO_ENGINE_ID [i] = interface->set_signal_out ("ooo_engine_id",_param->_size_ooo_engine_id); out_GPR_READ_NUM_REG [i] = interface->set_signal_out ("num_reg" ,_param->_size_general_register); in_GPR_READ_DATA [i] = interface->set_signal_in ("data" ,_param->_size_general_data); in_GPR_READ_DATA_VAL [i] = interface->set_signal_in ("data_val" ,1); } // ~~~~~[ Interface : "spr_read" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ out_SPR_READ_VAL = new SC_OUT(Tcontrol_t ) * [_param->_nb_spr_read]; in_SPR_READ_ACK = new SC_IN (Tcontrol_t ) * [_param->_nb_spr_read]; if(_param->_have_port_ooo_engine_id) out_SPR_READ_OOO_ENGINE_ID= new SC_OUT(Tcontext_t ) * [_param->_nb_spr_read]; out_SPR_READ_NUM_REG = new SC_OUT(Tspecial_address_t) * [_param->_nb_spr_read]; in_SPR_READ_DATA = new SC_IN (Tspecial_data_t ) * [_param->_nb_spr_read]; in_SPR_READ_DATA_VAL = new SC_IN (Tcontrol_t ) * [_param->_nb_spr_read]; for (uint32_t i=0; i<_param->_nb_spr_read; i++) { Interface_fifo * interface = _interfaces->set_interface("spr_read_"+toString(i) #ifdef POSITION , IN ,SOUTH , "Interface with the Special RegisterFile." #endif ); out_SPR_READ_VAL [i] = interface->set_signal_valack_out ("val" , VAL); in_SPR_READ_ACK [i] = interface->set_signal_valack_in ("ack" , ACK); if(_param->_have_port_ooo_engine_id) out_SPR_READ_OOO_ENGINE_ID [i] = interface->set_signal_out ("ooo_engine_id",_param->_size_ooo_engine_id); out_SPR_READ_NUM_REG [i] = interface->set_signal_out ("num_reg" ,_param->_size_special_register); in_SPR_READ_DATA [i] = interface->set_signal_in ("data" ,_param->_size_special_data); in_SPR_READ_DATA_VAL [i] = interface->set_signal_in ("data_val" ,1); } // ~~~~~[ Interface : "gpr_write" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ in_GPR_WRITE_VAL = new SC_IN (Tcontrol_t ) * [_param->_nb_gpr_write]; if(_param->_have_port_ooo_engine_id) in_GPR_WRITE_OOO_ENGINE_ID= new SC_IN (Tcontext_t ) * [_param->_nb_gpr_write]; in_GPR_WRITE_NUM_REG = new SC_IN (Tgeneral_address_t) * [_param->_nb_gpr_write]; in_GPR_WRITE_DATA = new SC_IN (Tgeneral_data_t ) * [_param->_nb_gpr_write]; for (uint32_t i=0; i<_param->_nb_gpr_write; i++) { Interface_fifo * interface = _interfaces->set_interface("gpr_write_"+toString(i) #ifdef POSITION , IN ,SOUTH , "Interface with write queue to bypass the write in the RegisterFile." #endif ); in_GPR_WRITE_VAL [i] = interface->set_signal_valack_in ("val" , VAL); if(_param->_have_port_ooo_engine_id) in_GPR_WRITE_OOO_ENGINE_ID [i] = interface->set_signal_in ("ooo_engine_id",_param->_size_ooo_engine_id); in_GPR_WRITE_NUM_REG [i] = interface->set_signal_in ("num_reg" ,_param->_size_general_register); in_GPR_WRITE_DATA [i] = interface->set_signal_in ("data" ,_param->_size_general_data); } // ~~~~~[ Interface : "spr_write" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ in_SPR_WRITE_VAL = new SC_IN (Tcontrol_t ) * [_param->_nb_spr_write]; if(_param->_have_port_ooo_engine_id) in_SPR_WRITE_OOO_ENGINE_ID= new SC_IN (Tcontext_t ) * [_param->_nb_spr_write]; in_SPR_WRITE_NUM_REG = new SC_IN (Tspecial_address_t) * [_param->_nb_spr_write]; in_SPR_WRITE_DATA = new SC_IN (Tspecial_data_t ) * [_param->_nb_spr_write]; for (uint32_t i=0; i<_param->_nb_spr_write; i++) { Interface_fifo * interface = _interfaces->set_interface("spr_write_"+toString(i) #ifdef POSITION , IN ,SOUTH , "Interface with write queue to bypass the write in the RegisterFile." #endif ); in_SPR_WRITE_VAL [i] = interface->set_signal_valack_in ("val" , VAL); if(_param->_have_port_ooo_engine_id) in_SPR_WRITE_OOO_ENGINE_ID [i] = interface->set_signal_in ("ooo_engine_id",_param->_size_ooo_engine_id); in_SPR_WRITE_NUM_REG [i] = interface->set_signal_in ("num_reg" ,_param->_size_special_register); in_SPR_WRITE_DATA [i] = interface->set_signal_in ("data" ,_param->_size_special_data); } // ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ _queue = new std::list; _queue_head = new Tread_queue_head_entry_t; #ifdef POSITION if (usage_is_set(_usage,USE_POSITION)) _component->generate_file(); #endif log_printf(FUNC,Read_queue,"allocation","End"); }; }; // end namespace read_queue }; // end namespace read_unit }; // end namespace multi_read_unit }; // end namespace execute_loop }; // end namespace multi_execute_loop }; // end namespace core }; // end namespace behavioural }; // end namespace morpheo #endif