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/*
* 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
*/
/*! \file PHY/NR_TRANSPORT/dlsch_decoding.c
* \brief Top-level routines for transmission of the PDSCH 38211 v 15.2.0
* \author Guy De Souza
* \date 2018
* \version 0.1
* \company Eurecom
* \email: desouza@eurecom.fr
* \note
* \warning
*/
#include "nr_dlsch.h"
#include "nr_dci.h"
#include "nr_sch_dmrs.h"
#include "PHY/MODULATION/nr_modulation.h"
#include "PHY/NR_REFSIG/dmrs_nr.h"
#include "PHY/NR_REFSIG/ptrs_nr.h"
#include "common/utils/LOG/vcd_signal_dumper.h"
#include "common/utils/nr/nr_common.h"
#include "executables/softmodem-common.h"
//#define DEBUG_DLSCH
//#define DEBUG_DLSCH_MAPPING
void nr_pdsch_codeword_scrambling(uint8_t *in,
uint32_t size,
uint8_t q,
uint32_t Nid,
uint32_t n_RNTI,
uint32_t* out)
{
nr_codeword_scrambling(in, size, q, Nid, n_RNTI, out);
}
void nr_generate_pdsch(processingData_L1tx_t *msgTx,
int frame,
int slot) {
PHY_VARS_gNB *gNB = msgTx->gNB;
NR_gNB_DLSCH_t *dlsch;
c16_t** txdataF = gNB->common_vars.txdataF;
int16_t amp = gNB->TX_AMP;
int xOverhead = 0;
NR_DL_FRAME_PARMS *frame_parms = &gNB->frame_parms;
time_stats_t *dlsch_encoding_stats=&gNB->dlsch_encoding_stats;
time_stats_t *dlsch_scrambling_stats=&gNB->dlsch_scrambling_stats;
time_stats_t *dlsch_modulation_stats=&gNB->dlsch_modulation_stats;
time_stats_t *tinput=&gNB->tinput;
time_stats_t *tprep=&gNB->tprep;
time_stats_t *tparity=&gNB->tparity;
time_stats_t *toutput=&gNB->toutput;
time_stats_t *dlsch_rate_matching_stats=&gNB->dlsch_rate_matching_stats;
time_stats_t *dlsch_interleaving_stats=&gNB->dlsch_interleaving_stats;
time_stats_t *dlsch_segmentation_stats=&gNB->dlsch_segmentation_stats;
for (int dlsch_id=0; dlsch_id<msgTx->num_pdsch_slot; dlsch_id++) {
dlsch = &msgTx->dlsch[dlsch_id][0];
NR_DL_gNB_HARQ_t *harq = &dlsch->harq_process;
nfapi_nr_dl_tti_pdsch_pdu_rel15_t *rel15 = &harq->pdsch_pdu.pdsch_pdu_rel15;
int16_t **mod_symbs = (int16_t**)dlsch->mod_symbs;
int16_t **tx_layers = (int16_t**)dlsch->txdataF;
int8_t Wf[2], Wt[2], l0, l_prime, l_overline, delta;
uint8_t dmrs_Type = rel15->dmrsConfigType;
int nb_re_dmrs;
uint16_t n_dmrs;
LOG_D(PHY,"pdsch: BWPStart %d, BWPSize %d, rbStart %d, rbsize %d\n",
rel15->BWPStart,rel15->BWPSize,rel15->rbStart,rel15->rbSize);
if (rel15->dmrsConfigType==NFAPI_NR_DMRS_TYPE1) {
nb_re_dmrs = 6*rel15->numDmrsCdmGrpsNoData;
}
else {
nb_re_dmrs = 4*rel15->numDmrsCdmGrpsNoData;
}
n_dmrs = (rel15->BWPStart+rel15->rbStart+rel15->rbSize)*nb_re_dmrs;
if(rel15->dlDmrsScramblingId != gNB->pdsch_gold_init[rel15->SCID]) {
gNB->pdsch_gold_init[rel15->SCID] = rel15->dlDmrsScramblingId;
nr_init_pdsch_dmrs(gNB, rel15->SCID, rel15->dlDmrsScramblingId);
}
uint32_t ***pdsch_dmrs = gNB->nr_gold_pdsch_dmrs[slot];
uint16_t dmrs_symbol_map = rel15->dlDmrsSymbPos;//single DMRS: 010000100 Double DMRS 110001100
uint8_t dmrs_len = get_num_dmrs(rel15->dlDmrsSymbPos);
uint32_t nb_re = ((12*rel15->NrOfSymbols)-nb_re_dmrs*dmrs_len-xOverhead)*rel15->rbSize*rel15->nrOfLayers;
uint8_t Qm = rel15->qamModOrder[0];
uint32_t encoded_length = nb_re*Qm;
int16_t mod_dmrs[n_dmrs<<1] __attribute__ ((aligned(16)));
/* PTRS */
uint16_t beta_ptrs = 1;
uint8_t ptrs_symbol = 0;
uint16_t dlPtrsSymPos = 0;
uint16_t n_ptrs = 0;
uint16_t ptrs_idx = 0;
uint8_t is_ptrs_re = 0;
if(rel15->pduBitmap & 0x1) {
set_ptrs_symb_idx(&dlPtrsSymPos,
rel15->NrOfSymbols,
rel15->StartSymbolIndex,
1<<rel15->PTRSTimeDensity,
rel15->dlDmrsSymbPos);
n_ptrs = (rel15->rbSize + rel15->PTRSFreqDensity - 1)/rel15->PTRSFreqDensity;
}
/// CRC, coding, interleaving and rate matching
AssertFatal(harq->pdu!=NULL,"harq->pdu is null\n");
unsigned char output[rel15->rbSize * NR_SYMBOLS_PER_SLOT * NR_NB_SC_PER_RB * Qm * rel15->nrOfLayers] __attribute__((aligned(32)));
bzero(output,rel15->rbSize * NR_SYMBOLS_PER_SLOT * NR_NB_SC_PER_RB * Qm * rel15->nrOfLayers);
start_meas(dlsch_encoding_stats);
if (nr_dlsch_encoding(gNB,
frame, slot, harq, frame_parms,output,tinput,tprep,tparity,toutput,
dlsch_rate_matching_stats,
dlsch_interleaving_stats,
dlsch_segmentation_stats) == -1)
return;
stop_meas(dlsch_encoding_stats);
#ifdef DEBUG_DLSCH
printf("PDSCH encoding:\nPayload:\n");
for (int i=0; i<harq->B>>7; i++) {
for (int j=0; j<16; j++)
printf("0x%02x\t", harq->pdu[(i<<4)+j]);
printf("\n");
}
printf("\nEncoded payload:\n");
for (int i=0; i<encoded_length>>3; i++) {
for (int j=0; j<8; j++)
printf("%d", output[(i<<3)+j]);
printf("\t");
}
printf("\n");
#endif
if (IS_SOFTMODEM_DLSIM)
memcpy(harq->f, output, encoded_length);
for (int q=0; q<rel15->NrOfCodewords; q++) {
/// scrambling
start_meas(dlsch_scrambling_stats);
uint32_t scrambled_output[(encoded_length>>5)+4]; // modulator acces by 4 bytes in some cases
memset(scrambled_output, 0, sizeof(scrambled_output));
if ( encoded_length > rel15->rbSize * NR_SYMBOLS_PER_SLOT * NR_NB_SC_PER_RB * Qm * rel15->nrOfLayers) abort();
nr_pdsch_codeword_scrambling(output,
encoded_length,
q,
rel15->dataScramblingId,
rel15->rnti,
scrambled_output);
#ifdef DEBUG_DLSCH
printf("PDSCH scrambling:\n");
for (int i=0; i<encoded_length>>8; i++) {
for (int j=0; j<8; j++)
printf("0x%08x\t", scrambled_output[(i<<3)+j]);
printf("\n");
}
#endif
stop_meas(dlsch_scrambling_stats);
/// Modulation
start_meas(dlsch_modulation_stats);
nr_modulation(scrambled_output,
encoded_length,
Qm,
mod_symbs[q]);
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_gNB_PDSCH_MODULATION, 0);
stop_meas(dlsch_modulation_stats);
#ifdef DEBUG_DLSCH
printf("PDSCH Modulation: Qm %d(%u)\n", Qm, nb_re);
for (int i=0; i<nb_re>>3; i++) {
for (int j=0; j<8; j++) {
printf("%d %d\t", mod_symbs[0][((i<<3)+j)<<1], mod_symbs[0][(((i<<3)+j)<<1)+1]);
}
printf("\n");
}
#endif
}
start_meas(&gNB->dlsch_layer_mapping_stats);
/// Layer mapping
nr_layer_mapping(mod_symbs,
rel15->nrOfLayers,
nb_re,
tx_layers);
#ifdef DEBUG_DLSCH
printf("Layer mapping (%d layers):\n", rel15->nrOfLayers);
for (int l=0; l<rel15->nrOfLayers; l++)
for (int i=0; i<(nb_re/rel15->nrOfLayers)>>3; i++) {
printf("layer %d, Re %d..%d : ",l,i<<3,(i<<3)+7);
for (int j=0; j<8; j++) {
printf("l%d %d\t", tx_layers[l][((i<<3)+j)<<1], tx_layers[l][(((i<<3)+j)<<1)+1]);
}
printf("\n");
}
#endif
stop_meas(&gNB->dlsch_layer_mapping_stats);
/// Resource mapping
// Non interleaved VRB to PRB mapping
uint16_t start_sc = frame_parms->first_carrier_offset + (rel15->rbStart+rel15->BWPStart)*NR_NB_SC_PER_RB;
if (start_sc >= frame_parms->ofdm_symbol_size)
start_sc -= frame_parms->ofdm_symbol_size;
int txdataF_offset = slot*frame_parms->samples_per_slot_wCP;
int16_t **txdataF_precoding = (int16_t **)malloc16(rel15->nrOfLayers*sizeof(int16_t *));
for (int layer = 0; layer<rel15->nrOfLayers; layer++)
txdataF_precoding[layer] = (int16_t *)malloc16(2*14*frame_parms->ofdm_symbol_size*sizeof(int16_t));
#ifdef DEBUG_DLSCH_MAPPING
printf("PDSCH resource mapping started (start SC %d\tstart symbol %d\tN_PRB %d\tnb_re %u,nb_layers %d)\n",
start_sc, rel15->StartSymbolIndex, rel15->rbSize, nb_re,rel15->nrOfLayers);
#endif
start_meas(&gNB->dlsch_resource_mapping_stats);
for (int nl=0; nl<rel15->nrOfLayers; nl++) {
int dmrs_port = get_dmrs_port(nl,rel15->dmrsPorts);
// DMRS params for this dmrs port
get_Wt(Wt, dmrs_port, dmrs_Type);
get_Wf(Wf, dmrs_port, dmrs_Type);
delta = get_delta(dmrs_port, dmrs_Type);
l_prime = 0; // single symbol nl 0
l0 = get_l0(rel15->dlDmrsSymbPos);
l_overline = l0;
#ifdef DEBUG_DLSCH_MAPPING
uint8_t dmrs_symbol = l0+l_prime;
printf("DMRS Type %d params for nl %d: Wt %d %d \t Wf %d %d \t delta %d \t l_prime %d \t l0 %d\tDMRS symbol %d\n",
1+dmrs_Type,nl, Wt[0], Wt[1], Wf[0], Wf[1], delta, l_prime, l0, dmrs_symbol);
#endif
uint32_t m=0, dmrs_idx=0;
// Loop Over OFDM symbols:
for (int l=rel15->StartSymbolIndex; l<rel15->StartSymbolIndex+rel15->NrOfSymbols; l++) {
/// DMRS QPSK modulation
uint8_t k_prime=0;
uint16_t n=0;
if ((dmrs_symbol_map & (1 << l))){ // DMRS time occasion
// The reference point for is subcarrier 0 of the lowest-numbered resource block in CORESET 0 if the corresponding
// PDCCH is associated with CORESET 0 and Type0-PDCCH common search space and is addressed to SI-RNTI
// 3GPP TS 38.211 V15.8.0 Section 7.4.1.1.2 Mapping to physical resources
if (rel15->rnti==SI_RNTI) {
if (dmrs_Type==NFAPI_NR_DMRS_TYPE1) {
dmrs_idx = rel15->rbStart*6;
} else {
dmrs_idx = rel15->rbStart*4;
}
} else {
if (dmrs_Type == NFAPI_NR_DMRS_TYPE1) {
dmrs_idx = (rel15->rbStart+rel15->BWPStart)*6;
} else {
dmrs_idx = (rel15->rbStart+rel15->BWPStart)*4;
}
}
if (l==(l_overline+1)) //take into account the double DMRS symbols
l_prime = 1;
else if (l>(l_overline+1)) {//new DMRS pair
l_overline = l;
l_prime = 0;
}
/// DMRS QPSK modulation
nr_modulation(pdsch_dmrs[l][rel15->SCID], n_dmrs*2, DMRS_MOD_ORDER, mod_dmrs); // Qm = 2 as DMRS is QPSK modulated
#ifdef DEBUG_DLSCH
printf("DMRS modulation (symbol %d, %d symbols, type %d):\n", l, n_dmrs, dmrs_Type);
for (int i=0; i<n_dmrs>>4; i++) {
for (int j=0; j<8; j++) {
printf("%d %d\t", mod_dmrs[((i<<3)+j)<<1], mod_dmrs[(((i<<3)+j)<<1)+1]);
}
printf("\n");
}
#endif
}
/* calculate if current symbol is PTRS symbols */
ptrs_idx = 0;
int16_t *mod_ptrs = NULL;
if(rel15->pduBitmap & 0x1) {
ptrs_symbol = is_ptrs_symbol(l,dlPtrsSymPos);
if(ptrs_symbol) {
/* PTRS QPSK Modulation for each OFDM symbol in a slot */
LOG_D(PHY,"Doing ptrs modulation for symbol %d, n_ptrs %d\n",l,n_ptrs);
int16_t mod_ptrsBuf[n_ptrs<<1] __attribute__ ((aligned(16)));
mod_ptrs =mod_ptrsBuf;
nr_modulation(pdsch_dmrs[l][rel15->SCID], (n_ptrs<<1), DMRS_MOD_ORDER, mod_ptrs);
}
}
uint16_t k = start_sc;
if (ptrs_symbol || dmrs_symbol_map & (1 << l)) {
// Loop Over SCs:
for (int i=0; i<rel15->rbSize*NR_NB_SC_PER_RB; i++) {
/* check if cuurent RE is PTRS RE*/
is_ptrs_re = 0;
/* check for PTRS symbol and set flag for PTRS RE */
if(ptrs_symbol){
is_ptrs_re = is_ptrs_subcarrier(k,
rel15->rnti,
nl,
rel15->dmrsConfigType,
rel15->PTRSFreqDensity,
rel15->rbSize,
rel15->PTRSReOffset,
start_sc,
frame_parms->ofdm_symbol_size);
}
/* Map DMRS Symbol */
if ( (dmrs_symbol_map & (1 << l)) &&
(k == ((start_sc+get_dmrs_freq_idx(n, k_prime, delta, dmrs_Type))%(frame_parms->ofdm_symbol_size)))) {
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) ] = (Wt[l_prime]*Wf[k_prime]*amp*mod_dmrs[dmrs_idx<<1]) >> 15;
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1 ] = (Wt[l_prime]*Wf[k_prime]*amp*mod_dmrs[(dmrs_idx<<1) + 1]) >> 15;
#ifdef DEBUG_DLSCH_MAPPING
printf("dmrs_idx %u\t l %d \t k %d \t k_prime %d \t n %d \t txdataF: %d %d\n",
dmrs_idx, l, k, k_prime, n, txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1)],
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1]);
#endif
dmrs_idx++;
k_prime++;
k_prime&=1;
n+=(k_prime)?0:1;
}
/* Map PTRS Symbol */
else if(is_ptrs_re){
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) ] = (beta_ptrs*amp*mod_ptrs[ptrs_idx<<1]) >> 15;
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1] = (beta_ptrs*amp*mod_ptrs[(ptrs_idx<<1) + 1])>> 15;
#ifdef DEBUG_DLSCH_MAPPING
printf("ptrs_idx %d\t l %d \t k %d \t k_prime %d \t n %d \t txdataF: %d %d, mod_ptrs: %d %d\n",
ptrs_idx, l, k, k_prime, n, ((int16_t*)txdataF_precoding[nl])[((l*frame_parms->ofdm_symbol_size + k)<<1)],
((int16_t*)txdataF_precoding[nl])[((l*frame_parms->ofdm_symbol_size + k)<<1) + 1],mod_ptrs[ptrs_idx<<1],mod_ptrs[(ptrs_idx<<1)+1]);
#endif
ptrs_idx++;
}
/* Map DATA Symbol */
else if( ptrs_symbol || allowed_xlsch_re_in_dmrs_symbol(k,start_sc,frame_parms->ofdm_symbol_size,rel15->numDmrsCdmGrpsNoData,dmrs_Type)) {
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) ] = (amp * tx_layers[nl][m<<1]) >> 15;
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1] = (amp * tx_layers[nl][(m<<1) + 1]) >> 15;
#ifdef DEBUG_DLSCH_MAPPING
printf("m %u\t l %d \t k %d \t txdataF: %d %d\n",
m, l, k, txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1)],
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1]);
#endif
m++;
}
/* mute RE */
else {
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) ] = 0;
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1] = 0;
}
if (++k >= frame_parms->ofdm_symbol_size)
k -= frame_parms->ofdm_symbol_size;
} //RE loop
}
else { // no PTRS or DMRS in this symbol
// Loop Over SCs:
int upper_limit=rel15->rbSize*NR_NB_SC_PER_RB;
int remaining_re = 0;
if (start_sc + upper_limit > frame_parms->ofdm_symbol_size) {
remaining_re = upper_limit + start_sc - frame_parms->ofdm_symbol_size;
upper_limit = frame_parms->ofdm_symbol_size - start_sc;
}
// fix the alignment issues later, use 64-bit SIMD below instead of 128.
if (0/*(frame_parms->N_RB_DL&1)==0*/) {
__m128i *txF=(__m128i*)&txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size+start_sc)<<1)];
__m128i *txl = (__m128i*)&tx_layers[nl][m<<1];
__m128i amp128=_mm_set1_epi16(amp);
for (int i=0; i<(upper_limit>>2); i++) {
txF[i] = _mm_mulhrs_epi16(amp128,txl[i]);
} //RE loop, first part
m+=upper_limit;
if (remaining_re > 0) {
txF = (__m128i*)&txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size)<<1)];
txl = (__m128i*)&tx_layers[nl][m<<1];
for (int i=0; i<(remaining_re>>2); i++) {
txF[i] = _mm_mulhrs_epi16(amp128,txl[i]);
}
}
}
else {
__m128i *txF = (__m128i *)&txdataF_precoding[nl][((l * frame_parms->ofdm_symbol_size + start_sc) << 1)];
__m128i *txl = (__m128i *)&tx_layers[nl][m << 1];
__m128i amp64 = _mm_set1_epi16(amp);
int i;
for (i = 0; i < (upper_limit >> 2); i++) {
const __m128i txL = _mm_loadu_si128(txl + i);
_mm_storeu_si128(txF + i, _mm_mulhrs_epi16(amp64, txL));
#ifdef DEBUG_DLSCH_MAPPING
if ((i&1) > 0)
printf("m %u\t l %d \t k %d \t txdataF: %d %d\n",
m, l, start_sc+(i>>1), txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + start_sc+(i>>1))<<1)],
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + start_sc+(i>>1))<<1) + 1]);
#endif
/* handle this, mute RE */
/*else {
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) ] = 0;
txdataF_precoding[anl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1] = 0;
}*/
}
if (i * 4 != upper_limit) {
c16_t *txFc = (c16_t *)&txdataF_precoding[nl][((l * frame_parms->ofdm_symbol_size + start_sc) << 1)];
c16_t *txlc = (c16_t *)&tx_layers[nl][m << 1];
for (i = (upper_limit >> 2) << 2; i < upper_limit; i++) {
txFc[i].r = ((txlc[i].r * amp) >> 14) + 1;
txFc[i].i = ((txlc[i].i * amp) >> 14) + 1;
}
}
m+=upper_limit;
if (remaining_re > 0) {
txF = (__m128i *)&txdataF_precoding[nl][((l * frame_parms->ofdm_symbol_size) << 1)];
txl = (__m128i *)&tx_layers[nl][m << 1];
int i;
for (i = 0; i < (remaining_re >> 2); i++) {
const __m128i txL = _mm_loadu_si128(txl + i);
_mm_storeu_si128(txF + i, _mm_mulhrs_epi16(amp64, txL));
#ifdef DEBUG_DLSCH_MAPPING
if ((i&1) > 0)
printf("m %u\t l %d \t k %d \t txdataF: %d %d\n",
m, l, i>>1, txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + (i>>1))<<1) ],
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + (i>>1))<<1) + 1]);
#endif
/* handle this, mute RE */
/*else {
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) ] = 0;
txdataF_precoding[nl][((l*frame_parms->ofdm_symbol_size + k)<<1) + 1] = 0;
}*/
} // RE loop, second part
if (i * 4 != remaining_re) {
c16_t *txFc = (c16_t *)&txdataF_precoding[nl][((l * frame_parms->ofdm_symbol_size) << 1)];
c16_t *txlc = (c16_t *)&tx_layers[nl][m << 1];
for (i = (remaining_re >> 2) << 2; i < remaining_re; i++) {
txFc[i].r = ((txlc[i].r * amp) >> 14) + 1;
txFc[i].i = ((txlc[i].i * amp) >> 14) + 1;
}
}
} //
m+=remaining_re;
} // N_RB_DL even
} // no DMRS/PTRS in symbol
} // symbol loop
}// layer loop
stop_meas(&gNB->dlsch_resource_mapping_stats);
///Layer Precoding and Antenna port mapping
// tx_layers 1-8 are mapped on antenna ports 1000-1007
// The precoding info is supported by nfapi such as num_prgs, prg_size, prgs_list and pm_idx
// The same precoding matrix is applied on prg_size RBs, Thus
// pmi = prgs_list[rbidx/prg_size].pm_idx, rbidx =0,...,rbSize-1
// The Precoding matrix:
// The Codebook Type I
start_meas(&gNB->dlsch_precoding_stats);
for (int ap=0; ap<frame_parms->nb_antennas_tx; ap++) {
for (int l=rel15->StartSymbolIndex; l<rel15->StartSymbolIndex+rel15->NrOfSymbols; l++) {
uint16_t k = start_sc;
for (int rb=0; rb<rel15->rbSize; rb++) {
//get pmi info
uint8_t pmi;
if (0 /*rel15->precodingAndBeamforming.prg_size > 0*/)
pmi = rel15->precodingAndBeamforming.prgs_list[(int)rb/rel15->precodingAndBeamforming.prg_size].pm_idx;
else
pmi = 0;//no precoding
if (pmi == 0) {//unitary Precoding
if (k + NR_NB_SC_PER_RB <= frame_parms->ofdm_symbol_size) { // RB does not cross DC
if(ap<rel15->nrOfLayers)
memcpy((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset + k],
(void*)&txdataF_precoding[ap][2*(l*frame_parms->ofdm_symbol_size + k)],
NR_NB_SC_PER_RB*sizeof(int32_t));
else
memset((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset + k],
0,
NR_NB_SC_PER_RB*sizeof(int32_t));
} else { // RB does cross DC
int neg_length = frame_parms->ofdm_symbol_size - k;
int pos_length = NR_NB_SC_PER_RB - neg_length;
if (ap<rel15->nrOfLayers) {
memcpy((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset + k],
(void*)&txdataF_precoding[ap][2*(l*frame_parms->ofdm_symbol_size + k)],
neg_length*sizeof(int32_t));
memcpy((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset],
(void*)&txdataF_precoding[ap][2*(l*frame_parms->ofdm_symbol_size)],
pos_length*sizeof(int32_t));
} else {
memset((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset + k],
0,
neg_length*sizeof(int32_t));
memset((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset],
0,
pos_length*sizeof(int32_t));
}
}
k += NR_NB_SC_PER_RB;
if (k >= frame_parms->ofdm_symbol_size) {
k -= frame_parms->ofdm_symbol_size;
}
}
else {
if(frame_parms->nb_antennas_tx==1){//no precoding matrix defined
memcpy((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset + k],
(void*)&txdataF_precoding[ap][2*(l*frame_parms->ofdm_symbol_size + k)],
NR_NB_SC_PER_RB*sizeof(int32_t));
k += NR_NB_SC_PER_RB;
if (k >= frame_parms->ofdm_symbol_size) {
k -= frame_parms->ofdm_symbol_size;
}
}
else {
//get the precoding matrix weights:
int32_t **mat = gNB->nr_mimo_precoding_matrix[rel15->nrOfLayers-1];
//i_row =0,...,dl_antenna_port
//j_col =0,...,nrOfLayers
//mat[pmi][i_rows*2+j_col]
int *W_prec;
W_prec = (int32_t *)&mat[pmi][ap*rel15->nrOfLayers];
for (int i=0; i<NR_NB_SC_PER_RB; i++) {
int32_t re_offset = l*frame_parms->ofdm_symbol_size + k;
int32_t precodatatx_F = nr_layer_precoder_cm(txdataF_precoding, W_prec, rel15->nrOfLayers, re_offset);
((int16_t*)txdataF[ap])[(re_offset<<1) + (2*txdataF_offset)] = ((int16_t *) &precodatatx_F)[0];
((int16_t*)txdataF[ap])[(re_offset<<1) + 1 + (2*txdataF_offset)] = ((int16_t *) &precodatatx_F)[1];
#ifdef DEBUG_DLSCH_MAPPING
printf("antenna %d\t l %d \t k %d \t txdataF: %d %d\n",
ap, l, k, ((int16_t*)txdataF[ap])[(re_offset<<1) + (2*txdataF_offset)],
((int16_t*)txdataF[ap])[(re_offset<<1) + 1 + (2*txdataF_offset)]);
#endif
if (++k >= frame_parms->ofdm_symbol_size) {
k -= frame_parms->ofdm_symbol_size;
}
}
}
}
} //RB loop
} // symbol loop
}// port loop
stop_meas(&gNB->dlsch_precoding_stats);
// TODO: handle precoding
// this maps the layers onto antenna ports
// handle beamforming ID
// each antenna port is assigned a beam_index
// since PHY can only handle BF on slot basis we set the whole slot
// first check if this slot has not already been allocated to another beam
if (gNB->common_vars.beam_id[0][slot*frame_parms->symbols_per_slot]==255) {
for (int j=0;j<frame_parms->symbols_per_slot;j++)
gNB->common_vars.beam_id[0][slot*frame_parms->symbols_per_slot+j] = rel15->precodingAndBeamforming.prgs_list[0].dig_bf_interface_list[0].beam_idx;
}
else {
LOG_D(PHY,"beam index for PDSCH allocation already taken\n");
}
for (int layer = 0; layer<rel15->nrOfLayers; layer++)
free16(txdataF_precoding[layer],2*14*frame_parms->ofdm_symbol_size);
free16(txdataF_precoding,rel15->nrOfLayers);
}// dlsch loop
}
void dump_pdsch_stats(FILE *fd,PHY_VARS_gNB *gNB) {
for (int i = 0; i < MAX_MOBILES_PER_GNB; i++) {
NR_gNB_PHY_STATS_t *stats = &gNB->phy_stats[i];
if (stats->active && stats->frame != stats->dlsch_stats.dump_frame) {
stats->dlsch_stats.dump_frame = stats->frame;
fprintf(fd,
"DLSCH RNTI %x: current_Qm %d, current_RI %d, total_bytes TX %d\n",
stats->rnti,
stats->dlsch_stats.current_Qm,
stats->dlsch_stats.current_RI,
stats->dlsch_stats.total_bytes_tx);
}
}
}