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/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2014 The libLTE Developers. See the
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* COPYRIGHT file at the top-level directory of this distribution.
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*
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* \section LICENSE
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*
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* This file is part of the libLTE library.
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*
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* libLTE is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License as
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* published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version.
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*
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* libLTE is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* A copy of the GNU Lesser General Public License can be found in
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* the LICENSE file in the top-level directory of this distribution
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* and at http://www.gnu.org/licenses/.
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*
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <strings.h>
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#include <unistd.h>
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#include <sys/time.h>
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#include "liblte/phy/phy.h"
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char *input_file_name;
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char *output_file_name="abs_corr.txt";
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int nof_frames=100, frame_length=9600, symbol_sz=128;
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float corr_peak_threshold=25.0;
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int out_N_id_2 = 0, force_N_id_2=-1;
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#define CFO_AUTO -9999.0
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float force_cfo = CFO_AUTO;
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void usage(char *prog) {
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printf("Usage: %s [olntsNfcv] -i input_file\n", prog);
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printf("\t-o output_file [Default %s]\n", output_file_name);
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printf("\t-l frame_length [Default %d]\n", frame_length);
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printf("\t-n number of frames [Default %d]\n", nof_frames);
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printf("\t-t correlation threshold [Default %g]\n", corr_peak_threshold);
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printf("\t-s symbol_sz [Default %d]\n", symbol_sz);
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printf("\t-N out_N_id_2 [Default %d]\n", out_N_id_2);
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printf("\t-f force_N_id_2 [Default %d]\n", force_N_id_2);
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printf("\t-c force_cfo [Default disabled]\n");
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printf("\t-v verbose\n");
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}
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void parse_args(int argc, char **argv) {
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int opt;
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while ((opt = getopt(argc, argv, "ionltsNfcv")) != -1) {
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switch(opt) {
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case 'i':
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input_file_name = argv[optind];
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break;
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case 'o':
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output_file_name = argv[optind];
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break;
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case 'n':
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nof_frames = atoi(argv[optind]);
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break;
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case 'l':
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frame_length = atoi(argv[optind]);
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break;
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case 't':
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corr_peak_threshold = atof(argv[optind]);
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break;
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case 's':
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symbol_sz = atof(argv[optind]);
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break;
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case 'N':
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out_N_id_2 = atoi(argv[optind]);
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break;
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case 'f':
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force_N_id_2 = atoi(argv[optind]);
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break;
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case 'c':
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force_cfo = atof(argv[optind]);
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break;
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case 'v':
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verbose++;
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break;
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default:
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usage(argv[0]);
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exit(-1);
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}
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}
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if (!input_file_name) {
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usage(argv[0]);
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exit(-1);
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}
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}
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int main(int argc, char **argv) {
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filesource_t fsrc;
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filesink_t fsink;
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pss_synch_t pss[3]; // One for each N_id_2
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sss_synch_t sss[3]; // One for each N_id_2
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cfo_t cfocorr;
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int peak_pos[3];
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float *cfo;
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float peak_value[3];
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float mean_value[3];
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int frame_cnt;
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cf_t *input;
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uint32_t m0, m1;
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float m0_value, m1_value;
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uint32_t N_id_2;
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uint32_t sss_idx;
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struct timeval tdata[3];
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int *exec_time;
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if (argc < 3) {
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usage(argv[0]);
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exit(-1);
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}
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parse_args(argc,argv);
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gettimeofday(&tdata[1], NULL);
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printf("Initializing...");fflush(stdout);
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if (filesource_init(&fsrc, input_file_name, COMPLEX_FLOAT_BIN)) {
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fprintf(stderr, "Error opening file %s\n", input_file_name);
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exit(-1);
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}
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if (filesink_init(&fsink, output_file_name, COMPLEX_FLOAT_BIN)) {
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fprintf(stderr, "Error opening file %s\n", output_file_name);
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exit(-1);
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}
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input = malloc(frame_length*sizeof(cf_t));
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if (!input) {
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perror("malloc");
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exit(-1);
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}
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cfo = malloc(nof_frames*sizeof(float));
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if (!cfo) {
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perror("malloc");
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exit(-1);
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}
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exec_time = malloc(nof_frames*sizeof(int));
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if (!exec_time) {
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perror("malloc");
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exit(-1);
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}
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if (cfo_init(&cfocorr, frame_length)) {
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fprintf(stderr, "Error initiating CFO\n");
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return -1;
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}
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/* We have 2 options here:
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* a) We create 3 pss objects, each initialized with a different N_id_2
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* b) We create 1 pss object which scans for each N_id_2 one after another.
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* a) requries more memory but has less latency and is paralellizable.
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*/
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for (N_id_2=0;N_id_2<3;N_id_2++) {
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if (pss_synch_init(&pss[N_id_2], frame_length)) {
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fprintf(stderr, "Error initializing PSS object\n");
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exit(-1);
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}
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if (pss_synch_set_N_id_2(&pss[N_id_2], N_id_2)) {
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fprintf(stderr, "Error initializing N_id_2\n");
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exit(-1);
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}
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if (sss_synch_init(&sss[N_id_2], 128)) {
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fprintf(stderr, "Error initializing SSS object\n");
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exit(-1);
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}
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if (sss_synch_set_N_id_2(&sss[N_id_2], N_id_2)) {
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fprintf(stderr, "Error initializing N_id_2\n");
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exit(-1);
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}
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}
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gettimeofday(&tdata[2], NULL);
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get_time_interval(tdata);
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printf("done in %d s %d ms\n", (int) tdata[0].tv_sec, (int) tdata[0].tv_usec/1000);
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printf("\n\tFr.Cnt\tN_id_2\tN_id_1\tSubf\tPSS Peak/Avg\tIdx\tm0\tm1\tCFO\n");
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printf("\t===============================================================================\n");
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/* read all file or nof_frames */
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frame_cnt = 0;
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while (frame_length == filesource_read(&fsrc, input, frame_length)
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&& frame_cnt < nof_frames) {
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gettimeofday(&tdata[1], NULL);
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if (force_cfo != CFO_AUTO) {
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cfo_correct(&cfocorr, input, input, -force_cfo/128);
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}
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if (force_N_id_2 != -1) {
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N_id_2 = force_N_id_2;
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peak_pos[N_id_2] = pss_synch_find_pss(&pss[N_id_2], input, &peak_value[N_id_2], &mean_value[N_id_2]);
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} else {
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for (N_id_2=0;N_id_2<3;N_id_2++) {
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peak_pos[N_id_2] = pss_synch_find_pss(&pss[N_id_2], input, &peak_value[N_id_2], &mean_value[N_id_2]);
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}
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float max_value=-99999;
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N_id_2=-1;
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int i;
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for (i=0;i<3;i++) {
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if (peak_value[i] > max_value) {
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max_value = peak_value[i];
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N_id_2 = i;
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}
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}
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}
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/* If peak detected */
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if (peak_value[N_id_2]/mean_value[N_id_2] > corr_peak_threshold) {
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sss_idx = peak_pos[N_id_2]-2*(symbol_sz+CP(symbol_sz,CPNORM_LEN));
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if (sss_idx >= 0) {
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sss_synch_m0m1(&sss[N_id_2], &input[sss_idx],
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&m0, &m0_value, &m1, &m1_value);
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cfo[frame_cnt] = pss_synch_cfo_compute(&pss[N_id_2], &input[peak_pos[N_id_2]-128]);
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printf("\t%d\t%d\t%d\t%d\t%.3f\t\t%3d\t%d\t%d\t%.3f\n",
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frame_cnt,N_id_2, sss_synch_N_id_1(&sss[N_id_2], m0, m1),
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sss_synch_subframe(m0, m1), peak_value[N_id_2]/mean_value[N_id_2],
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peak_pos[N_id_2], m0, m1,
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cfo[frame_cnt]);
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}
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}
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gettimeofday(&tdata[2], NULL);
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get_time_interval(tdata);
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exec_time[frame_cnt] = tdata[0].tv_usec;
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frame_cnt++;
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}
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int i;
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float avg_time=0;
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for (i=0;i<frame_cnt;i++) {
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avg_time += (float) exec_time[i];
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}
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avg_time /= frame_cnt;
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printf("\n");
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printf("Average exec time: %.3f ms / frame. %.3f Msamp/s (%.3f\%% CPU)\n",
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avg_time / 1000, frame_length / avg_time, 100 * avg_time / 5000 * (9600 / (float) frame_length ));
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float cfo_mean=0;
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for (i=0;i<frame_cnt;i++) {
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cfo_mean += cfo[i] / frame_cnt * (9600 / frame_length);
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}
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printf("Average CFO: %.3f\n", cfo_mean);
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for (N_id_2=0;N_id_2<3;N_id_2++) {
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pss_synch_free(&pss[N_id_2]);
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sss_synch_free(&sss[N_id_2]);
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}
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filesource_free(&fsrc);
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filesink_free(&fsink);
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free(input);
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free(cfo);
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printf("Done\n");
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exit(0);
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}
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