/* * $Id: Read_unit_to_Execution_unit.cpp 88 2008-12-10 18:31:39Z rosiere $ * * [ Description ] * */ #include "Behavioural/Core/Multi_Execute_loop/Execute_loop/Network/Read_unit_to_Execution_unit/include/Read_unit_to_Execution_unit.h" namespace morpheo { namespace behavioural { namespace core { namespace multi_execute_loop { namespace execute_loop { namespace network { namespace read_unit_to_execution_unit { #undef FUNCTION #define FUNCTION "Read_unit_to_Execution_unit::Read_unit_to_Execution_unit" Read_unit_to_Execution_unit::Read_unit_to_Execution_unit ( #ifdef SYSTEMC sc_module_name name, #else string name, #endif #ifdef STATISTICS morpheo::behavioural::Parameters_Statistics * param_statistics, #endif morpheo::behavioural::core::multi_execute_loop::execute_loop::network::read_unit_to_execution_unit::Parameters * param, morpheo::behavioural::Tusage_t usage ): _name (name) ,_param (param) ,_usage (usage) { log_printf(FUNC,Read_unit_to_Execution_unit,FUNCTION,"Begin"); #if DEBUG_Read_unit_to_Execution_unit == true log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,_("<%s> Parameters"),_name.c_str()); std::cout << *param << std::endl; #endif log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,"Allocation"); allocation ( #ifdef STATISTICS param_statistics #endif ); #ifdef STATISTICS if (usage_is_set(_usage,USE_STATISTICS)) { log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,"Allocation of statistics"); statistics_declaration(param_statistics); } #endif #ifdef VHDL if (usage_is_set(_usage,USE_VHDL)) { // generate the vhdl log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,"Generate the vhdl"); vhdl(); } #endif #ifdef SYSTEMC if (usage_is_set(_usage,USE_SYSTEMC)) { log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,"Method - transition"); SC_METHOD (transition); dont_initialize (); sensitive << (*(in_CLOCK)).pos(); # ifdef SYSTEMCASS_SPECIFIC // List dependency information # endif log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,"Method - genMealy"); SC_METHOD (genMealy); dont_initialize (); sensitive << (*(in_CLOCK)).neg(); for (uint32_t i=0; i<_param->_nb_read_unit; i++) for (uint32_t j=0; j<_param->_nb_read_unit_port[i]; j++) { sensitive << (*(in_READ_UNIT_OUT_VAL [i][j])) << (*(in_READ_UNIT_OUT_OPERATION [i][j])) << (*(in_READ_UNIT_OUT_TYPE [i][j])) << (*(in_READ_UNIT_OUT_HAS_IMMEDIAT [i][j])) << (*(in_READ_UNIT_OUT_IMMEDIAT [i][j])) << (*(in_READ_UNIT_OUT_DATA_RA [i][j])) << (*(in_READ_UNIT_OUT_DATA_RB [i][j])) << (*(in_READ_UNIT_OUT_DATA_RC [i][j])) << (*(in_READ_UNIT_OUT_WRITE_RD [i][j])) << (*(in_READ_UNIT_OUT_NUM_REG_RD [i][j])) << (*(in_READ_UNIT_OUT_WRITE_RE [i][j])) << (*(in_READ_UNIT_OUT_NUM_REG_RE [i][j])) << (*(in_READ_UNIT_OUT_STORE_QUEUE_PTR_WRITE [i][j])); if (_param->_have_port_load_queue_ptr) sensitive << (*(in_READ_UNIT_OUT_LOAD_QUEUE_PTR_WRITE [i][j])); if (_param->_have_port_context_id) sensitive << (*(in_READ_UNIT_OUT_CONTEXT_ID [i][j])); if (_param->_have_port_front_end_id) sensitive << (*(in_READ_UNIT_OUT_FRONT_END_ID [i][j])); if (_param->_have_port_ooo_engine_id) sensitive << (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [i][j])); if (_param->_have_port_rob_ptr ) sensitive << (*(in_READ_UNIT_OUT_PACKET_ID [i][j])); } for (uint32_t i=0; i<_param->_nb_execute_unit; i++) for (uint32_t j=0; j<_param->_nb_execute_unit_port[i]; j++) sensitive << (*(in_EXECUTE_UNIT_IN_ACK [i][j])); # ifdef SYSTEMCASS_SPECIFIC // List dependency information for (uint32_t i=0; i<_param->_nb_read_unit; i++) for (uint32_t j=0; j<_param->_nb_read_unit_port[i]; j++) { (*(out_READ_UNIT_OUT_ACK [i][j])) (*(in_READ_UNIT_OUT_VAL [i][j])); (*(out_READ_UNIT_OUT_ACK [i][j])) (*(in_READ_UNIT_OUT_TYPE [i][j])); if (_param->_have_port_context_id) (*(out_READ_UNIT_OUT_ACK [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [i][j])); if (_param->_have_port_front_end_id) (*(out_READ_UNIT_OUT_ACK [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [i][j])); if (_param->_have_port_ooo_engine_id) (*(out_READ_UNIT_OUT_ACK [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [i][j])); for (uint32_t x=0; x<_param->_nb_execute_unit; x++) for (uint32_t y=0; y<_param->_nb_execute_unit_port[x]; y++) (*(out_READ_UNIT_OUT_ACK [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [x][y])); } for (uint32_t i=0; i<_param->_nb_execute_unit; i++) for (uint32_t j=0; j<_param->_nb_execute_unit_port[i]; j++) { (*(out_EXECUTE_UNIT_IN_VAL [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_VAL [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_VAL [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_VAL [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_VAL [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_VAL [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } if (_param->_have_port_context_id) { (*(out_EXECUTE_UNIT_IN_CONTEXT_ID [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_CONTEXT_ID [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_CONTEXT_ID [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_CONTEXT_ID [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_CONTEXT_ID [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_CONTEXT_ID [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } } if (_param->_have_port_front_end_id) { (*(out_EXECUTE_UNIT_IN_FRONT_END_ID [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_FRONT_END_ID [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_FRONT_END_ID [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_FRONT_END_ID [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_FRONT_END_ID [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_FRONT_END_ID [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } } if (_param->_have_port_ooo_engine_id) { (*(out_EXECUTE_UNIT_IN_OOO_ENGINE_ID [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_OOO_ENGINE_ID [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_OOO_ENGINE_ID [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_OOO_ENGINE_ID [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_OOO_ENGINE_ID [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_OOO_ENGINE_ID [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } } if (_param->_have_port_rob_ptr ) { (*(out_EXECUTE_UNIT_IN_PACKET_ID [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_PACKET_ID [i][j])) (*(in_READ_UNIT_OUT_PACKET_ID [x][y])); (*(out_EXECUTE_UNIT_IN_PACKET_ID [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_PACKET_ID [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_PACKET_ID [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_PACKET_ID [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_PACKET_ID [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } } (*(out_EXECUTE_UNIT_IN_OPERATION [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_OPERATION [i][j])) (*(in_READ_UNIT_OUT_OPERATION [x][y])); (*(out_EXECUTE_UNIT_IN_OPERATION [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_OPERATION [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_OPERATION [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_OPERATION [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_OPERATION [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_TYPE [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_TYPE [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_TYPE [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_TYPE [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_TYPE [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_TYPE [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_STORE_QUEUE_PTR_WRITE [x][y])); (*(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_STORE_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } if (_param->_have_port_load_queue_ptr) { (*(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_LOAD_QUEUE_PTR_WRITE [x][y])); (*(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_LOAD_QUEUE_PTR_WRITE [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } } (*(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_HAS_IMMEDIAT [x][y])); (*(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_HAS_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_IMMEDIAT [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_IMMEDIAT [x][y])); (*(out_EXECUTE_UNIT_IN_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_IMMEDIAT [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_DATA_RA [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_DATA_RA [i][j])) (*(in_READ_UNIT_OUT_DATA_RA [x][y])); (*(out_EXECUTE_UNIT_IN_DATA_RA [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_DATA_RA [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_DATA_RA [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_DATA_RA [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_DATA_RA [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_DATA_RB [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_DATA_RB [i][j])) (*(in_READ_UNIT_OUT_DATA_RB [x][y])); (*(out_EXECUTE_UNIT_IN_DATA_RB [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_DATA_RB [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_DATA_RB [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_DATA_RB [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_DATA_RB [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_DATA_RC [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_DATA_RC [i][j])) (*(in_READ_UNIT_OUT_DATA_RC [x][y])); (*(out_EXECUTE_UNIT_IN_DATA_RC [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_DATA_RC [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_DATA_RC [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_DATA_RC [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_DATA_RC [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_WRITE_RD [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_WRITE_RD [i][j])) (*(in_READ_UNIT_OUT_WRITE_RD [x][y])); (*(out_EXECUTE_UNIT_IN_WRITE_RD [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_WRITE_RD [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_WRITE_RD [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_WRITE_RD [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_WRITE_RD [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_NUM_REG_RD [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_NUM_REG_RD [i][j])) (*(in_READ_UNIT_OUT_NUM_REG_RD [x][y])); (*(out_EXECUTE_UNIT_IN_NUM_REG_RD [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_NUM_REG_RD [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_NUM_REG_RD [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_NUM_REG_RD [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_NUM_REG_RD [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_WRITE_RE [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_WRITE_RE [i][j])) (*(in_READ_UNIT_OUT_WRITE_RE [x][y])); (*(out_EXECUTE_UNIT_IN_WRITE_RE [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_WRITE_RE [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_WRITE_RE [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_WRITE_RE [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_WRITE_RE [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } (*(out_EXECUTE_UNIT_IN_NUM_REG_RE [i][j])) (*(in_EXECUTE_UNIT_IN_ACK [i][j])); for (uint32_t x=0; x<_param->_nb_read_unit; x++) for (uint32_t y=0; y<_param->_nb_read_unit_port[x]; y++) { (*(out_EXECUTE_UNIT_IN_NUM_REG_RE [i][j])) (*(in_READ_UNIT_OUT_NUM_REG_RE [x][y])); (*(out_EXECUTE_UNIT_IN_NUM_REG_RE [i][j])) (*(in_READ_UNIT_OUT_VAL [x][y])); (*(out_EXECUTE_UNIT_IN_NUM_REG_RE [i][j])) (*(in_READ_UNIT_OUT_TYPE [x][y])); if (_param->_have_port_context_id) (*(out_EXECUTE_UNIT_IN_NUM_REG_RE [i][j])) (*(in_READ_UNIT_OUT_CONTEXT_ID [x][y])); if (_param->_have_port_front_end_id) (*(out_EXECUTE_UNIT_IN_NUM_REG_RE [i][j])) (*(in_READ_UNIT_OUT_FRONT_END_ID [x][y])); if (_param->_have_port_ooo_engine_id) (*(out_EXECUTE_UNIT_IN_NUM_REG_RE [i][j])) (*(in_READ_UNIT_OUT_OOO_ENGINE_ID [x][y])); } } # endif #endif } log_printf(FUNC,Read_unit_to_Execution_unit,FUNCTION,"End"); }; #undef FUNCTION #define FUNCTION "Read_unit_to_Execution_unit::~Read_unit_to_Execution_unit" Read_unit_to_Execution_unit::~Read_unit_to_Execution_unit (void) { log_printf(FUNC,Read_unit_to_Execution_unit,FUNCTION,"Begin"); #ifdef STATISTICS if (usage_is_set(_usage,USE_STATISTICS)) { log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,"Generate Statistics file"); delete _stat; } #endif log_printf(INFO,Read_unit_to_Execution_unit,FUNCTION,"Deallocation"); deallocation (); log_printf(FUNC,Read_unit_to_Execution_unit,FUNCTION,"End"); }; }; // end namespace read_unit_to_execution_unit }; // end namespace network }; // end namespace execute_loop }; // end namespace multi_execute_loop }; // end namespace core }; // end namespace behavioural }; // end namespace morpheo