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@ -43,7 +43,7 @@ float save_corr[4096];
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#define PHI 7 // PRACH phi parameter
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#define PHI 7 // PRACH phi parameter
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#define PHI_4 2 // PRACH phi parameter for format 4
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#define PHI_4 2 // PRACH phi parameter for format 4
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#define MAX_ROOTS 838 // Max number of root sequences
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#define MAX_ROOTS 838 // Max number of root sequences
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#define PRACH_CANCELLATION_HARD
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//#define PRACH_CANCELLATION_HARD
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#define PRACH_AMP 1.0
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#define PRACH_AMP 1.0
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int srslte_prach_set_cell_(srslte_prach_t* p,
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int srslte_prach_set_cell_(srslte_prach_t* p,
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@ -341,6 +341,8 @@ int srslte_prach_init(srslte_prach_t* p, uint32_t max_N_ifft_ul)
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p->prach_bins = srslte_vec_cf_malloc(MAX_N_zc);
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p->prach_bins = srslte_vec_cf_malloc(MAX_N_zc);
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p->corr_spec = srslte_vec_cf_malloc(MAX_N_zc);
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p->corr_spec = srslte_vec_cf_malloc(MAX_N_zc);
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p->corr = srslte_vec_f_malloc(MAX_N_zc);
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p->corr = srslte_vec_f_malloc(MAX_N_zc);
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p->cross = srslte_vec_cf_malloc(MAX_N_zc);
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p->corr_freq = srslte_vec_cf_malloc(MAX_N_zc);
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// Set up ZC FFTS
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// Set up ZC FFTS
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if (srslte_dft_plan(&p->zc_fft, MAX_N_zc, SRSLTE_DFT_FORWARD, SRSLTE_DFT_COMPLEX)) {
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if (srslte_dft_plan(&p->zc_fft, MAX_N_zc, SRSLTE_DFT_FORWARD, SRSLTE_DFT_COMPLEX)) {
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@ -378,7 +380,7 @@ int srslte_prach_init(srslte_prach_t* p, uint32_t max_N_ifft_ul)
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}
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}
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srslte_dft_plan_set_mirror(&p->fft, true);
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srslte_dft_plan_set_mirror(&p->fft, true);
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srslte_dft_plan_set_norm(&p->fft, false);
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srslte_dft_plan_set_norm(&p->fft, true);
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ret = SRSLTE_SUCCESS;
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ret = SRSLTE_SUCCESS;
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} else {
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} else {
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@ -574,19 +576,18 @@ int srslte_prach_detect(srslte_prach_t* p,
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/// this function subtracts the detected prach preamble from the signal so as to allow for lower power prach signals to
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/// this function subtracts the detected prach preamble from the signal so as to allow for lower power prach signals to
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/// be detected more easily in the subsequent searches
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/// be detected more easily in the subsequent searches
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void srslte_prach_cancellation (srslte_prach_t* p, cf_t *signal, uint32_t begin, int sig_len, srslte_prach_cancellation_t prach_cancel)
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void srslte_prach_cancellation(srslte_prach_t* p)
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{
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{
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cf_t sub[p->N_zc * 2];
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cf_t sub[p->N_zc * 2];
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memcpy(sub, &p->dft_seqs[p->root_seqs_idx[prach_cancel.idx]][0], p->N_zc * sizeof(cf_t));
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srslte_vec_cf_copy(sub, &p->dft_seqs[p->root_seqs_idx[p->prach_cancel.idx]][0], p->N_zc);
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srslte_vec_prod_ccc(sub, prach_cancel.phase_array, sub, p->N_zc);
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srslte_vec_prod_ccc(sub, p->prach_cancel.phase_array, sub, p->N_zc);
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#ifdef PRACH_CANCELLATION_HARD
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#ifdef PRACH_CANCELLATION_HARD
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cf_t res[p->N_zc * 2];
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srslte_vec_prod_conj_ccc(p->prach_bins, sub, p->corr_spec, p->N_zc);
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srslte_vec_prod_conj_ccc(p->prach_bins, sub, res, p->N_zc);
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srslte_dft_run(&p->zc_ifft, p->corr_spec, p->corr_spec);
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srslte_dft_run(&p->zc_ifft, p->corr_spec, p->corr_spec);
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srslte_vec_abs_square_cf(p->corr_spec, p->corr, p->N_zc);
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srslte_vec_abs_square_cf(p->corr_spec, p->corr, p->N_zc);
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prach_cancel.factor = sqrt(p->corr[0] / (p->N_zc * p->N_zc));
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prach_cancel->factor = sqrt(p->corr[0] / (p->N_zc * p->N_zc));
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#endif
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#endif
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srslte_vec_sc_prod_cfc(sub, prach_cancel.factor, sub, p->N_zc);
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srslte_vec_sc_prod_cfc(sub, p->prach_cancel.factor, sub, p->N_zc);
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srslte_vec_sub_ccc(p->prach_bins, sub, p->prach_bins, p->N_zc);
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srslte_vec_sub_ccc(p->prach_bins, sub, p->prach_bins, p->N_zc);
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}
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}
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@ -623,14 +624,12 @@ int srslte_prach_calculate_time_offset(srslte_prach_t* p, cf_t* cross)
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}
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}
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// calculates the aggregate phase offset of the incomming PRACH signal so it can be applied to the reference signal
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// calculates the aggregate phase offset of the incomming PRACH signal so it can be applied to the reference signal
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// before it is subtracted from the input
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// before it is subtracted from the input
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void srslte_prach_calculate_correction_array(srslte_prach_t* p,
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void srslte_prach_calculate_correction_array(srslte_prach_t* p, cf_t* corr_freq)
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cf_t* corr_freq,
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srslte_prach_cancellation_t* prach_cancel)
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{
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{
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float phase[p->N_zc];
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float phase[p->N_zc];
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srslte_vec_arg_deg_cf(corr_freq, 0, phase, p->N_zc);
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srslte_vec_arg_deg_cf(corr_freq, 0, phase, p->N_zc);
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for (int i = 0; i < p->N_zc; i++) {
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for (int i = 0; i < p->N_zc; i++) {
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prach_cancel->phase_array[i] = cexpf(_Complex_I * (phase[i] / (180.0f / M_PI)));
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p->prach_cancel.phase_array[i] = cexpf(_Complex_I * (phase[i] / (180.0f / M_PI)));
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}
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}
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}
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}
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@ -642,25 +641,22 @@ int srslte_prach_process(srslte_prach_t* p,
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float* peak_to_avg,
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float* peak_to_avg,
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uint32_t* n_indices,
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uint32_t* n_indices,
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int cancellation_idx,
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int cancellation_idx,
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srslte_prach_cancellation_t prach_cancel,
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uint32_t begin,
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uint32_t begin,
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uint32_t sig_len)
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uint32_t sig_len)
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{
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{
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float max_to_cancel = 0;
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float max_to_cancel = 0;
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cancellation_idx = -1;
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cancellation_idx = -1;
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int max_idx = 0;
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int max_idx = 0;
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cf_t cross[p->N_zc];
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srslte_vec_cf_zero(p->cross, p->N_zc);
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cf_t corr_freq[p->N_zc];
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srslte_vec_cf_zero(p->corr_freq, p->N_zc);
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bzero(cross, sizeof(cf_t) * p->N_zc);
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bzero(corr_freq, sizeof(cf_t) * p->N_zc);
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for (int i = 0; i < p->num_ra_preambles; i++) {
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for (int i = 0; i < p->num_ra_preambles; i++) {
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cf_t* root_spec = p->dft_seqs[p->root_seqs_idx[i]];
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cf_t* root_spec = p->dft_seqs[p->root_seqs_idx[i]];
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srslte_vec_prod_conj_ccc(p->prach_bins, root_spec, p->corr_spec, p->N_zc);
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srslte_vec_prod_conj_ccc(p->prach_bins, root_spec, p->corr_spec, p->N_zc);
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srslte_vec_prod_conj_ccc(p->corr_spec, &p->corr_spec[1], cross, p->N_zc - 1);
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srslte_vec_prod_conj_ccc(p->corr_spec, &p->corr_spec[1], p->cross, p->N_zc - 1);
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if (p->successive_cancellation) {
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if (p->successive_cancellation) {
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memcpy(corr_freq, p->corr_spec, p->N_zc * sizeof(cf_t));
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srslte_vec_cf_copy(p->corr_freq, p->corr_spec, p->N_zc);
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}
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}
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srslte_dft_run(&p->zc_ifft, p->corr_spec, p->corr_spec);
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srslte_dft_run(&p->zc_ifft, p->corr_spec, p->corr_spec);
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@ -702,14 +698,11 @@ int srslte_prach_process(srslte_prach_t* p,
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if (indices) {
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if (indices) {
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if (p->successive_cancellation) {
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if (p->successive_cancellation) {
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if (max_peak > max_to_cancel) {
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if (max_peak > max_to_cancel) {
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cancellation_idx = (i * n_wins) + j;
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cancellation_idx = (i * n_wins) + j;
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max_to_cancel = max_peak;
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max_to_cancel = max_peak;
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prach_cancel.idx = cancellation_idx; // this stores the best candidate for the successive cancellation
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p->prach_cancel.idx = cancellation_idx;
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prach_cancel.factor = (sqrt(
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p->prach_cancel.factor = (sqrt(max_peak / (p->N_zc * p->N_zc)));
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max_peak / (p->N_zc * p->N_zc))); // this is the scaling factor for the successive cancellation
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srslte_prach_calculate_correction_array(p, p->corr_freq);
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srslte_prach_calculate_correction_array(
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p, corr_freq, &prach_cancel); // this calculates the correction array for the PRACH sig before it is
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// used to cancel
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}
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}
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if (srslte_prach_have_stored(p, ((i * n_wins) + j), indices, *n_indices)) {
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if (srslte_prach_have_stored(p, ((i * n_wins) + j), indices, *n_indices)) {
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break;
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break;
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@ -723,7 +716,7 @@ int srslte_prach_process(srslte_prach_t* p,
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if (t_offsets) {
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if (t_offsets) {
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t_offsets[*n_indices] =
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t_offsets[*n_indices] =
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(p->freq_domain_offset_calc)
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(p->freq_domain_offset_calc)
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? (((float)srslte_prach_calculate_time_offset(p, cross)) / ((float)p->N_ifft_ul * DELTA_F))
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? (((float)srslte_prach_calculate_time_offset(p, p->cross)) / ((float)p->N_ifft_ul * DELTA_F))
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: (srslte_prach_set_offset(p, j));
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: (srslte_prach_set_offset(p, j));
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}
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}
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(*n_indices)++;
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(*n_indices)++;
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@ -733,7 +726,7 @@ int srslte_prach_process(srslte_prach_t* p,
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}
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}
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if (cancellation_idx != -1) {
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if (cancellation_idx != -1) {
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// if a peak has been found, this applies cancellation, if many found, subtracts strongest
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// if a peak has been found, this applies cancellation, if many found, subtracts strongest
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srslte_prach_cancellation(p, signal, begin, sig_len, prach_cancel);
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srslte_prach_cancellation(p);
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} else {
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} else {
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return 1;
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return 1;
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}
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}
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@ -757,7 +750,7 @@ int srslte_prach_detect_offset(srslte_prach_t* p,
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return SRSLTE_ERROR_INVALID_INPUTS;
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return SRSLTE_ERROR_INVALID_INPUTS;
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}
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}
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int cancellation_idx = -2;
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int cancellation_idx = -2;
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srslte_prach_cancellation_t prach_cancel = {};
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bzero(&p->prach_cancel, sizeof(srslte_prach_cancellation_t));
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// FFT incoming signal
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// FFT incoming signal
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srslte_dft_run(&p->fft, signal, p->signal_fft);
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srslte_dft_run(&p->fft, signal, p->signal_fft);
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@ -776,7 +769,7 @@ int srslte_prach_detect_offset(srslte_prach_t* p,
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// the highest power PRACH preamble each time.
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// the highest power PRACH preamble each time.
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for (int l = 0; l < loops; l++) {
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for (int l = 0; l < loops; l++) {
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if (srslte_prach_process(
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if (srslte_prach_process(
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p, signal, indices, t_offsets, peak_to_avg, n_indices, cancellation_idx, prach_cancel, begin, sig_len)) {
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p, signal, indices, t_offsets, peak_to_avg, n_indices, cancellation_idx, begin, sig_len)) {
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break;
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break;
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}
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}
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}
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}
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