#ifdef STATISTICS /* * $Id: Commit_unit_statistics_allocation.cpp 142 2010-08-04 20:09:03Z rosiere $ * * [ Description ] * */ #include "Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Commit_unit/include/Commit_unit.h" #include "Behavioural/include/Allocation.h" namespace morpheo { namespace behavioural { namespace core { namespace multi_ooo_engine { namespace ooo_engine { namespace commit_unit { #undef FUNCTION #define FUNCTION "Commit_unit::statistics_allocation" void Commit_unit::statistics_allocation (morpheo::behavioural::Parameters_Statistics * param_statistics) { log_begin(Commit_unit,FUNCTION); _stat = new Stat (static_cast(_name), "Commit_unit", param_statistics); _stat_nb_cycle_state_no_event = new counter_t * [_param->_nb_thread]; _stat_nb_cycle_state_not_yet_event = new counter_t * [_param->_nb_thread]; _stat_nb_cycle_state_event = new counter_t * [_param->_nb_thread]; _stat_nb_cycle_state_wait_end = new counter_t * [_param->_nb_thread]; { for (uint32_t i=0; i<_param->_nb_thread; i++) if (_param->_have_thread [i]) { _stat_nb_cycle_state_no_event [i] = _stat->create_variable("nb_cycle_state_no_event_" +toString(i)); _stat_nb_cycle_state_not_yet_event [i] = _stat->create_variable("nb_cycle_state_not_yet_event_"+toString(i)); _stat_nb_cycle_state_event [i] = _stat->create_variable("nb_cycle_state_event_" +toString(i)); _stat_nb_cycle_state_wait_end [i] = _stat->create_variable("nb_cycle_state_wait_end_" +toString(i)); _stat->create_expr_percent("percent_state_no_event_" +toString(i),"nb_cycle_state_no_event_" +toString(i),"cycle",toString(_("Percent of cycle in state no_event (context %d)"),i)); _stat->create_expr_percent("percent_state_not_yet_event_" +toString(i),"nb_cycle_state_not_yet_event_" +toString(i),"cycle",toString(_("Percent of cycle in state not_yet_event (context %d)"),i)); _stat->create_expr_percent("percent_state_event_" +toString(i),"nb_cycle_state_event_" +toString(i),"cycle",toString(_("Percent of cycle in state event (context %d)"),i)); _stat->create_expr_percent("percent_state_wait_end_" +toString(i),"nb_cycle_state_wait_end_" +toString(i),"cycle",toString(_("Percent of cycle in state wait_end (context %d)"),i)); } } _stat_nb_inst_retire_ok = new counter_t * [_param->_nb_thread]; _stat_nb_inst_retire_ko = new counter_t * [_param->_nb_thread]; _stat_nb_inst_instruction = new counter_t * [NB_INSTRUCTION]; _stat_nb_inst_type = new counter_t * [_param->_nb_type]; _stat_bank_nb_inst = new counter_t * [_param->_nb_bank]; { std::string sum_nb_inst_retire_ok = "0"; std::string sum_nb_inst_retire_ko = "0"; std::string sum_average; for (uint32_t i=0; i<_param->_nb_thread; i++) if (_param->_have_thread [i]) { _stat_nb_inst_retire_ok [i] = _stat->create_variable("nb_inst_retire_ok_"+toString(i)); _stat_nb_inst_retire_ko [i] = _stat->create_variable("nb_inst_retire_ko_"+toString(i)); sum_nb_inst_retire_ok = "+ nb_inst_retire_ok_"+toString(i) + " " +sum_nb_inst_retire_ok; sum_nb_inst_retire_ko = "+ nb_inst_retire_ko_"+toString(i) + " " +sum_nb_inst_retire_ko; sum_average = "+ average_inst_retire_ok_"+toString(i)+" average_inst_retire_ko_"+toString(i); _stat->create_expr_average_by_cycle("average_inst_retire_ok_"+toString(i),"nb_inst_retire_ok_"+toString(i), "", toString(_("Average instruction retire ok by cycle (thread %d)"),i)); _stat->create_expr_average_by_cycle("average_inst_retire_ko_"+toString(i),"nb_inst_retire_ko_"+toString(i), "", toString(_("Average instruction retire ko (event, miss) by cycle (thread %d)"),i)); _stat->create_expr_percent ("percent_inst_retire_ok_"+toString(i),"average_inst_retire_ok_"+toString(i), sum_average, toString(_("Percent instruction retire ok by cycle (thread %d)"),i)); _stat->create_expr_percent ("percent_inst_retire_ko_"+toString(i),"average_inst_retire_ko_"+toString(i), sum_average, toString(_("Percent instruction retire ko by cycle (thread %d)"),i)); _stat->create_expr ("IPC_ok_"+toString(i) , "average_inst_retire_ok_"+toString(i), TYPE_COUNTER, "inst/cycle", toString("Instruction Per Cycle (Instruction Ok) (thread %d)",i)); _stat->create_expr ("CPI_ok_"+toString(i) , "/ 1 IPC_ok_"+toString(i) , TYPE_COUNTER, "cycle/inst", toString("Cycle Per Instruction (Instruction Ok) (thread %d)",i)); _stat->create_expr ("IPC_ko_"+toString(i) , "average_inst_retire_ko_"+toString(i), TYPE_COUNTER, "inst/cycle", toString("Instruction Per Cycle (Instruction Ko) (thread %d)",i)); _stat->create_expr ("CPI_ko_"+toString(i) , "/ 1 IPC_ko_"+toString(i) , TYPE_COUNTER, "cycle/inst", toString("Cycle Per Instruction (Instruction Ko) (thread %d)",i)); _stat->create_expr ("IPC_all_"+toString(i), "+ IPC_ok_"+toString(i)+" IPC_ko_"+toString(i), TYPE_COUNTER, "inst/cycle", toString("Instruction Per Cycle (Instruction Ok and Ko) (thread %d)",i)); _stat->create_expr ("CPI_all_"+toString(i), "/ 1 IPC_all_"+toString(i) , TYPE_COUNTER, "cycle/inst", toString("Cycle Per Instruction (Instruction Ok and Ko) (thread %d)",i)); } _stat->create_expr_average_by_cycle("average_inst_retire_ok", sum_nb_inst_retire_ok, "", _("Average instruction retire ok by cycle (all thread)")); _stat->create_expr_average_by_cycle("average_inst_retire_ko", sum_nb_inst_retire_ko, "", _("Average instruction retire ko (event, miss) by cycle (all thread)")); sum_average = "+ average_inst_retire_ok average_inst_retire_ko"; _stat->create_expr_percent ("percent_inst_retire_ok","average_inst_retire_ok", sum_average, _("Percent instruction retire ok by cycle (all thread)")); _stat->create_expr_percent ("percent_inst_retire_ko","average_inst_retire_ko", sum_average, _("Percent instruction retire ko by cycle (all thread)")); _stat->create_expr ("IPC_ok" , "/ "+sum_nb_inst_retire_ok+" cycle", TYPE_COUNTER, "inst/cycle", "Instruction Per Cycle (Instruction Ok)"); _stat->create_expr ("CPI_ok" , "/ 1 IPC_ok" , TYPE_COUNTER, "cycle/inst", "Cycle Per Instruction (Instruction Ok)"); _stat->create_expr ("IPC_ko" , "/ "+sum_nb_inst_retire_ko+" cycle", TYPE_COUNTER, "inst/cycle", "Instruction Per Cycle (Instruction Ko)"); _stat->create_expr ("CPI_ko" , "/ 1 IPC_ko" , TYPE_COUNTER, "cycle/inst", "Cycle Per Instruction (Instruction Ko)"); _stat->create_expr ("IPC_all", "+ IPC_ok IPC_ko" , TYPE_COUNTER, "inst/cycle", "Instruction Per Cycle (Instruction Ok and Ko)"); _stat->create_expr ("CPI_all", "/ 1 IPC_all" , TYPE_COUNTER, "cycle/inst", "Cycle Per Instruction (Instruction Ok and Ko)"); } { std::string sum_nb_inst_type = "0"; for (uint32_t i=0; i<_param->_nb_type; i++) if (is_type_valid(i)) { _stat_nb_inst_type [i] = _stat->create_variable("nb_inst_type_"+toString(i)); sum_nb_inst_type = "+ nb_inst_type_"+toString(i) + " " +sum_nb_inst_type; } for (uint32_t i=0; i<_param->_nb_type; i++) if (is_type_valid(i)) { std::string name = toString(static_cast(i)); _stat->create_expr_percent ("percent_type_"+toString(name), "nb_inst_type_"+toString(i), sum_nb_inst_type, toString(_("Percent instruction retire ok by cycle (type %s)"),name.c_str())); } } { std::string sum_nb_inst_instruction = "0"; for (uint32_t i=0; icreate_variable("nb_inst_instruction_"+toString(i)); sum_nb_inst_instruction = "+ nb_inst_instruction_"+toString(i) + " " +sum_nb_inst_instruction; } for (uint32_t i=0; icreate_expr_percent ("percent_instruction_"+toString(name), "nb_inst_instruction_"+toString(i), sum_nb_inst_instruction, toString(_("Percent instruction retire ok by cycle (instruction %s)"),name.c_str())); } } // bank/queue occupation { std::string sum_bank_nb_inst = ""; for (uint32_t i=0; i<_param->_nb_bank; i++) { _stat_bank_nb_inst [i] = _stat->create_variable("bank_nb_inst_"+toString(i)); _stat->create_expr_average_by_cycle("average_occupation_bank_"+toString(i), "bank_nb_inst_"+toString(i), "", toString(_("Average instruction by cycle (bank %d)"),i)); _stat->create_expr_percent ("percent_occupation_bank_"+toString(i), "average_occupation_bank_"+toString(i), toString(_param->_size_bank), toString(_("Percent occupation of bank (bank %d)"),i)); if (i == 0) sum_bank_nb_inst = "bank_nb_inst_"+toString(i); else sum_bank_nb_inst = "+ bank_nb_inst_"+toString(i) + " " +sum_bank_nb_inst; } _stat->create_expr_average_by_cycle("average_occupation_bank", sum_bank_nb_inst, "", _("Average instruction by cycle (all bank)")); _stat->create_expr_percent ("percent_occupation_bank" , "average_occupation_bank", toString(_param->_size_queue), _("Percent occupation of Re-Order-Buffer (all bank)")); } _stat_nb_inst_insert = new counters_t * [_param->_nb_rename_unit]; _stat_nb_inst_retire = new counters_t * [_param->_nb_rename_unit]; _stat_nb_inst_commit = new counters_t * [_param->_nb_rename_unit]; std::string average_nb_inst_commit = "0"; for (uint32_t i=0; i<_param->_nb_rename_unit; i++) { _stat_nb_inst_insert [i] = _stat->create_counters("nb_inst_insert_"+toString(i),_param->_nb_inst_insert[i],"", _("Cycle number with %d instruction(s) included ")+toString(_("(rename_unit %d)."),i), _("Percent of cycle number with %d instruction(s) included ")+toString(_("(rename_unit %d)."),i), _("Average of instruction(s) included ")+toString(_("(rename_unit %d)."),i) ); _stat_nb_inst_retire [i] = _stat->create_counters("nb_inst_retire_"+toString(i),_param->_nb_inst_retire[i],"", _("Cycle number with %d instruction(s) removed ")+toString(_("(rename_unit %d)."),i), _("Percent of cycle number with %d instruction(s) removed ")+toString(_("(rename_unit %d)."),i), _("Average of instruction(s) removed ")+toString(_("(rename_unit %d)."),i) ); _stat_nb_inst_commit [i] = _stat->create_counters("nb_inst_commit_"+toString(i),_param->_nb_inst_commit,"", _("Cycle number with %d instruction(s) commited ")+toString(_("(rename_unit %d)."),i), _("Percent of cycle number with %d instruction(s) commited ")+toString(_("(rename_unit %d)."),i), _("Average of instruction(s) commited ")+toString(_("(rename_unit %d)."),i) ); average_nb_inst_commit = "+ average_nb_inst_commit_"+toString(i) + " " + average_nb_inst_commit; } _stat_nb_inst_commit_conflit_access = _stat->create_variable("nb_inst_commit_conflit_access"); _stat->create_expr_average_by_cycle("average_use_interface_commit_conflit_access","nb_inst_commit_conflit_access", "", _("Average access conflit by cycle on commit interface")); _stat->create_expr_percent ("percent_use_interface_commit_conflit_access","average_use_interface_commit_conflit_access", average_nb_inst_commit, _("Percent access conflit on commit interface")); // ALLOC1(_stat_last_inst ,uint32_t ,_param->_nb_thread); ALLOC1(_stat_last_inst_type ,uint32_t ,_param->_nb_thread); ALLOC1(_stat_last_inst_operation,uint32_t ,_param->_nb_thread); ALLOC1(_stat_inst_fusion ,stat_inst_fusion_t,_param->_nb_thread); for (uint32_t i=0; i<_param->_nb_thread; ++i) { //_stat_last_inst [i] = INSTRUCTION_L_NOP; _stat_last_inst_type [i] = instruction_information(INSTRUCTION_L_NOP)._type ; _stat_last_inst_operation [i] = instruction_information(INSTRUCTION_L_NOP)._operation; } log_end(Commit_unit,FUNCTION); }; }; // end namespace commit_unit }; // end namespace ooo_engine }; // end namespace multi_ooo_engine }; // end namespace core }; // end namespace behavioural }; // end namespace morpheo #endif