/* * Licensed to the OpenAirInterface (OAI) Software Alliance under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The OpenAirInterface Software Alliance licenses this file to You under * the OAI Public License, Version 1.1 (the "License"); you may not use this file * except in compliance with the License. * You may obtain a copy of the License at * * http://www.openairinterface.org/?page_id=698 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *------------------------------------------------------------------------------- * For more information about the OpenAirInterface (OAI) Software Alliance: * contact@openairinterface.org */ #include #include "time_meas.h" #include #include // global var for openair performance profiler extern int opp_enabled; double get_cpu_freq_GHz(void) { time_stats_t ts = {0}; reset_meas(&ts); ts.trials++; ts.in = rdtsc_oai(); sleep(1); ts.diff = (rdtsc_oai()-ts.in); cpu_freq_GHz = (double)ts.diff/1000000000; printf("CPU Freq is %f \n", cpu_freq_GHz); return cpu_freq_GHz; } void print_meas_now(time_stats_t *ts, const char* name, FILE* file_name){ if (opp_enabled) { //static double cpu_freq_GHz = 3.2; //if (cpu_freq_GHz == 0.0) //cpu_freq_GHz = get_cpu_freq_GHz(); // super slow if (ts->trials>0) { //fprintf(file_name,"Name %25s: Processing %15.3f ms for SF %d, diff_now %15.3f \n", name,(ts->diff_now/(cpu_freq_GHz*1000000.0)),subframe,ts->diff_now); fprintf(file_name,"%15.3f ms, diff_now %15.3f \n",(ts->diff_now/(cpu_freq_GHz*1000000.0)),(double)ts->diff_now); } } } void print_meas(time_stats_t *ts, const char* name, time_stats_t * total_exec_time, time_stats_t * sf_exec_time) { if (opp_enabled) { static int first_time = 0; static double cpu_freq_GHz = 0.0; if (cpu_freq_GHz == 0.0) cpu_freq_GHz = get_cpu_freq_GHz(); if (first_time == 0) { first_time=1; if ((total_exec_time == NULL) || (sf_exec_time== NULL)) fprintf(stderr, "%25s %25s %25s %25s %25s %6f\n","Name","Total","Per Trials", "Num Trials","CPU_F_GHz", cpu_freq_GHz); else fprintf(stderr, "%25s %25s %25s %20s %15s %6f\n","Name","Total","Average/Frame","Trials", "CPU_F_GHz", cpu_freq_GHz); } if (ts->trials>0) { //printf("%20s: total: %10.3f ms, average: %10.3f us (%10d trials)\n", name, ts->diff/cpu_freq_GHz/1000000.0, ts->diff/ts->trials/cpu_freq_GHz/1000.0, ts->trials); if ((total_exec_time == NULL) || (sf_exec_time== NULL)) { fprintf(stderr, "%25s: %15.3f ms ; %15.3f us; %15d;\n", name, (ts->diff/cpu_freq_GHz/1000000.0), (ts->diff/ts->trials/cpu_freq_GHz/1000.0), ts->trials); } else { fprintf(stderr, "%25s: %15.3f ms (%5.2f%%); %15.3f us (%5.2f%%); %15d;\n", name, (ts->diff/cpu_freq_GHz/1000000.0), ((ts->diff/cpu_freq_GHz/1000000.0)/(total_exec_time->diff/cpu_freq_GHz/1000000.0))*100, // percentage (ts->diff/ts->trials/cpu_freq_GHz/1000.0), ((ts->diff/ts->trials/cpu_freq_GHz/1000.0)/(sf_exec_time->diff/sf_exec_time->trials/cpu_freq_GHz/1000.0))*100, // percentage ts->trials); } } } } double get_time_meas_us(time_stats_t *ts) { static double cpu_freq_GHz = 0.0; if (cpu_freq_GHz == 0.0) cpu_freq_GHz = get_cpu_freq_GHz(); if (ts->trials>0) return (ts->diff/ts->trials/cpu_freq_GHz/1000.0); return 0; }