dlsch_coding.c 25.9 KB
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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 1.0  (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
 */
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/*! \file PHY/LTE_TRANSPORT/dlsch_coding.c
* \brief Top-level routines for implementing Turbo-coded (DLSCH) transport channels from 36-212, V8.6 2009-03
* \author R. Knopp
* \date 2011
* \version 0.1
* \company Eurecom
* \email: knopp@eurecom.fr
* \note
* \warning
*/

#include "PHY/defs.h"
#include "PHY/extern.h"
#include "PHY/CODING/defs.h"
#include "PHY/CODING/extern.h"
#include "PHY/CODING/lte_interleaver_inline.h"
#include "PHY/LTE_TRANSPORT/defs.h"
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#include "PHY/LTE_TRANSPORT/proto.h"
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#include "SCHED/defs.h"
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#include "defs.h"
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#include "UTIL/LOG/vcd_signal_dumper.h"
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//#define DEBUG_DLSCH_CODING
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//#define DEBUG_DLSCH_FREE 1

/*
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#define is_not_pilot(pilots,first_pilot,re) (pilots==0) || \
  ((pilots==1)&&(first_pilot==1)&&(((re>2)&&(re<6))||((re>8)&&(re<12)))) || \
  ((pilots==1)&&(first_pilot==0)&&(((re<3))||((re>5)&&(re<9)))) \
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*/
#define is_not_pilot(pilots,first_pilot,re) (1)


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void free_eNB_dlsch(LTE_eNB_DLSCH_t *dlsch)
{
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  int i;
  int r;

  if (dlsch) {
#ifdef DEBUG_DLSCH_FREE
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    printf("Freeing dlsch %p\n",dlsch);
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#endif
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    for (i=0; i<dlsch->Mdlharq; i++) {
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#ifdef DEBUG_DLSCH_FREE
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      printf("Freeing dlsch process %d\n",i);
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#endif
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      if (dlsch->harq_processes[i]) {
#ifdef DEBUG_DLSCH_FREE
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        printf("Freeing dlsch process %d (%p)\n",i,dlsch->harq_processes[i]);
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#endif
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        if (dlsch->harq_processes[i]->b) {
          free16(dlsch->harq_processes[i]->b,MAX_DLSCH_PAYLOAD_BYTES);
          dlsch->harq_processes[i]->b = NULL;
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#ifdef DEBUG_DLSCH_FREE
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          printf("Freeing dlsch process %d b (%p)\n",i,dlsch->harq_processes[i]->b);
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#endif
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        }

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#ifdef DEBUG_DLSCH_FREE
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        printf("Freeing dlsch process %d c (%p)\n",i,dlsch->harq_processes[i]->c);
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#endif
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        for (r=0; r<MAX_NUM_DLSCH_SEGMENTS; r++) {
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#ifdef DEBUG_DLSCH_FREE
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          printf("Freeing dlsch process %d c[%d] (%p)\n",i,r,dlsch->harq_processes[i]->c[r]);
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#endif
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          if (dlsch->harq_processes[i]->c[r]) {
            free16(dlsch->harq_processes[i]->c[r],((r==0)?8:0) + 3+768);
            dlsch->harq_processes[i]->c[r] = NULL;
          }
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          if (dlsch->harq_processes[i]->d[r]) {
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            free16(dlsch->harq_processes[i]->d[r],(96+12+3+(3*6144)));
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            dlsch->harq_processes[i]->d[r] = NULL;
          }
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	}
	free16(dlsch->harq_processes[i],sizeof(LTE_DL_eNB_HARQ_t));
	dlsch->harq_processes[i] = NULL;
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      }
    }
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    free16(dlsch,sizeof(LTE_eNB_DLSCH_t));
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    dlsch = NULL;
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    }
  
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}

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LTE_eNB_DLSCH_t *new_eNB_dlsch(unsigned char Kmimo,unsigned char Mdlharq,uint32_t Nsoft,unsigned char N_RB_DL, uint8_t abstraction_flag, LTE_DL_FRAME_PARMS* frame_parms)
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{
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  LTE_eNB_DLSCH_t *dlsch;
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  unsigned char exit_flag = 0,i,j,r,aa,layer;
  int re;
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  unsigned char bw_scaling =1;
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  switch (N_RB_DL) {
  case 6:
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    bw_scaling =16;
    break;
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  case 25:
    bw_scaling =4;
    break;
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  case 50:
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    bw_scaling =2;
    break;
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  default:
    bw_scaling =1;
    break;
  }
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  dlsch = (LTE_eNB_DLSCH_t *)malloc16(sizeof(LTE_eNB_DLSCH_t));
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  if (dlsch) {
    bzero(dlsch,sizeof(LTE_eNB_DLSCH_t));
    dlsch->Kmimo = Kmimo;
    dlsch->Mdlharq = Mdlharq;
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    dlsch->Mlimit = 4;
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    dlsch->Nsoft = Nsoft;
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    for (layer=0; layer<4; layer++) {
      dlsch->ue_spec_bf_weights[layer] = (int32_t**)malloc16(frame_parms->nb_antennas_tx*sizeof(int32_t*));
  
       for (aa=0; aa<frame_parms->nb_antennas_tx; aa++) {
         dlsch->ue_spec_bf_weights[layer][aa] = (int32_t *)malloc16(OFDM_SYMBOL_SIZE_COMPLEX_SAMPLES*sizeof(int32_t));
         for (re=0;re<OFDM_SYMBOL_SIZE_COMPLEX_SAMPLES; re++) {
           dlsch->ue_spec_bf_weights[layer][aa][re] = 0x00007fff;
         }
       }
     }

     dlsch->calib_dl_ch_estimates = (int32_t**)malloc16(frame_parms->nb_antennas_tx*sizeof(int32_t*));
     for (aa=0; aa<frame_parms->nb_antennas_tx; aa++) {
       dlsch->calib_dl_ch_estimates[aa] = (int32_t *)malloc16(OFDM_SYMBOL_SIZE_COMPLEX_SAMPLES*sizeof(int32_t));
       
     }

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    for (i=0; i<10; i++)
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      dlsch->harq_ids[i] = Mdlharq;

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    for (i=0; i<Mdlharq; i++) {
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      dlsch->harq_processes[i] = (LTE_DL_eNB_HARQ_t *)malloc16(sizeof(LTE_DL_eNB_HARQ_t));
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      LOG_T(PHY, "Required mem size %d (bw scaling %d), dlsch->harq_processes[%d] %p\n",
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            MAX_DLSCH_PAYLOAD_BYTES/bw_scaling,bw_scaling, i,dlsch->harq_processes[i]);

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      if (dlsch->harq_processes[i]) {
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        bzero(dlsch->harq_processes[i],sizeof(LTE_DL_eNB_HARQ_t));
        //    dlsch->harq_processes[i]->first_tx=1;
        dlsch->harq_processes[i]->b = (unsigned char*)malloc16(MAX_DLSCH_PAYLOAD_BYTES/bw_scaling);

        if (dlsch->harq_processes[i]->b) {
          bzero(dlsch->harq_processes[i]->b,MAX_DLSCH_PAYLOAD_BYTES/bw_scaling);
        } else {
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          printf("Can't get b\n");
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          exit_flag=1;
        }

        if (abstraction_flag==0) {
          for (r=0; r<MAX_NUM_DLSCH_SEGMENTS/bw_scaling; r++) {
            // account for filler in first segment and CRCs for multiple segment case
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            dlsch->harq_processes[i]->c[r] = (uint8_t*)malloc16(((r==0)?8:0) + 3+ 768);
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            dlsch->harq_processes[i]->d[r] = (uint8_t*)malloc16((96+12+3+(3*6144)));
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            if (dlsch->harq_processes[i]->c[r]) {
              bzero(dlsch->harq_processes[i]->c[r],((r==0)?8:0) + 3+ 768);
            } else {
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              printf("Can't get c\n");
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              exit_flag=2;
            }
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            if (dlsch->harq_processes[i]->d[r]) {
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              bzero(dlsch->harq_processes[i]->d[r],(96+12+3+(3*6144)));
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            } else {
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              printf("Can't get d\n");
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              exit_flag=2;
            }
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          }
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        }
      } else {
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        printf("Can't get harq_p %d\n",i);
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        exit_flag=3;
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      }
    }
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    if (exit_flag==0) {
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      for (i=0; i<Mdlharq; i++) {
        dlsch->harq_processes[i]->round=0;

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	for (j=0; j<96; j++)
	  for (r=0; r<MAX_NUM_DLSCH_SEGMENTS/bw_scaling; r++) {
	    //      printf("dlsch->harq_processes[%d]->d[%d] %p\n",i,r,dlsch->harq_processes[i]->d[r]);
	    if (dlsch->harq_processes[i]->d[r])
	      dlsch->harq_processes[i]->d[r][j] = LTE_NULL;
	  }
        
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      }
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      return(dlsch);
    }
  }
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  LOG_D(PHY,"new_eNB_dlsch exit flag %d, size of  %ld\n",
	exit_flag, sizeof(LTE_eNB_DLSCH_t));
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  free_eNB_dlsch(dlsch);
  return(NULL);
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}

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void clean_eNb_dlsch(LTE_eNB_DLSCH_t *dlsch)
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{
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  unsigned char Mdlharq;
  unsigned char i,j,r;
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  if (dlsch) {
    Mdlharq = dlsch->Mdlharq;
    dlsch->rnti = 0;
    dlsch->active = 0;
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    for (i=0; i<10; i++)
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      dlsch->harq_ids[i] = Mdlharq;

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    for (i=0; i<Mdlharq; i++) {
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      if (dlsch->harq_processes[i]) {
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        //  dlsch->harq_processes[i]->Ndi    = 0;
        dlsch->harq_processes[i]->status = 0;
        dlsch->harq_processes[i]->round  = 0;

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	for (j=0; j<96; j++)
	  for (r=0; r<MAX_NUM_DLSCH_SEGMENTS; r++)
	    if (dlsch->harq_processes[i]->d[r])
	      dlsch->harq_processes[i]->d[r][j] = LTE_NULL;
        
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      }
    }
  }
}

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int dlsch_encoding_2threads0(te_params *tep) {

  LTE_eNB_DLSCH_t *dlsch          = tep->dlsch;
  unsigned int G                  = tep->G;

  unsigned short iind;
  unsigned char harq_pid = dlsch->current_harq_pid;
  unsigned short nb_rb = dlsch->harq_processes[harq_pid]->nb_rb;
  unsigned int Kr=0,Kr_bytes,r,r_offset=0;
  unsigned short m=dlsch->harq_processes[harq_pid]->mcs;


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  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING_W, VCD_FUNCTION_IN);
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  if (dlsch->harq_processes[harq_pid]->round == 0) {  // this is a new packet

    for (r=0; r<dlsch->harq_processes[harq_pid]->C>>1; r++) {

      if (r<dlsch->harq_processes[harq_pid]->Cminus)
        Kr = dlsch->harq_processes[harq_pid]->Kminus;
      else
        Kr = dlsch->harq_processes[harq_pid]->Kplus;

      Kr_bytes = Kr>>3;

      // get interleaver index for Turbo code (lookup in Table 5.1.3-3 36-212, V8.6 2009-03, p. 13-14)
      if (Kr_bytes<=64)
        iind = (Kr_bytes-5);
      else if (Kr_bytes <=128)
        iind = 59 + ((Kr_bytes-64)>>1);
      else if (Kr_bytes <= 256)
        iind = 91 + ((Kr_bytes-128)>>2);
      else if (Kr_bytes <= 768)
        iind = 123 + ((Kr_bytes-256)>>3);
      else {
        printf("dlsch_coding: Illegal codeword size %d!!!\n",Kr_bytes);
        return(-1);
      }



      threegpplte_turbo_encoder(dlsch->harq_processes[harq_pid]->c[r],
                                Kr>>3,
                                &dlsch->harq_processes[harq_pid]->d[r][96],
                                (r==0) ? dlsch->harq_processes[harq_pid]->F : 0,
                                f1f2mat_old[iind*2],   // f1 (see 36121-820, page 14)
                                f1f2mat_old[(iind*2)+1]  // f2 (see 36121-820, page 14)
                               );
      dlsch->harq_processes[harq_pid]->RTC[r] =
        sub_block_interleaving_turbo(4+(Kr_bytes*8),
                                     &dlsch->harq_processes[harq_pid]->d[r][96],
                                     dlsch->harq_processes[harq_pid]->w[r]);
    }

  }

  // Fill in the "e"-sequence from 36-212, V8.6 2009-03, p. 16-17 (for each "e") and concatenate the
  // outputs for each code segment, see Section 5.1.5 p.20

  for (r=0; r<dlsch->harq_processes[harq_pid]->C>>1; r++) {
    r_offset += lte_rate_matching_turbo(dlsch->harq_processes[harq_pid]->RTC[r],
                                        G,  //G
                                        dlsch->harq_processes[harq_pid]->w[r],
                                        dlsch->harq_processes[harq_pid]->e+r_offset,
                                        dlsch->harq_processes[harq_pid]->C, // C
                                        dlsch->Nsoft,                    // Nsoft,
                                        dlsch->Mdlharq,
                                        dlsch->Kmimo,
                                        dlsch->harq_processes[harq_pid]->rvidx,
                                        get_Qm(dlsch->harq_processes[harq_pid]->mcs),
                                        dlsch->harq_processes[harq_pid]->Nl,
                                        r,
                                        nb_rb,
                                        m);                       // r
  }

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  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING_W, VCD_FUNCTION_OUT);
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  return(0);
}

extern int oai_exit;
void *te_thread(void *param) {

  eNB_proc_t *proc = &((te_params *)param)->eNB->proc;
  while (!oai_exit) {

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    if (wait_on_condition(&proc->mutex_te,&proc->cond_te,&proc->instance_cnt_te,"te thread")<0) break;  

    dlsch_encoding_2threads0((te_params*)param);

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    if (release_thread(&proc->mutex_te,&proc->instance_cnt_te,"te thread")<0) break;

    if (pthread_cond_signal(&proc->cond_te) != 0) {
      printf("[eNB] ERROR pthread_cond_signal for te thread exit\n");
      exit_fun( "ERROR pthread_cond_signal" );
      return(NULL);
    }
  }

  return(NULL);
}

int dlsch_encoding_2threads(PHY_VARS_eNB *eNB,
			    unsigned char *a,
			    uint8_t num_pdcch_symbols,
			    LTE_eNB_DLSCH_t *dlsch,
			    int frame,
			    uint8_t subframe,
			    time_stats_t *rm_stats,
			    time_stats_t *te_stats,
			    time_stats_t *i_stats)
{

  LTE_DL_FRAME_PARMS *frame_parms = &eNB->frame_parms;
  eNB_proc_t *proc = &eNB->proc;
  unsigned int G;
  unsigned int crc=1;
  unsigned short iind;

  unsigned char harq_pid = dlsch->current_harq_pid;
  unsigned short nb_rb = dlsch->harq_processes[harq_pid]->nb_rb;
  unsigned int A;
  unsigned char mod_order;
  unsigned int Kr=0,Kr_bytes,r,r_offset=0;
  unsigned short m=dlsch->harq_processes[harq_pid]->mcs;

  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING, VCD_FUNCTION_IN);

  A = dlsch->harq_processes[harq_pid]->TBS; //6228
  mod_order = get_Qm(dlsch->harq_processes[harq_pid]->mcs);
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  G = get_G(frame_parms,nb_rb,dlsch->harq_processes[harq_pid]->rb_alloc,mod_order,dlsch->harq_processes[harq_pid]->Nl,num_pdcch_symbols,frame,subframe,dlsch->harq_processes[harq_pid]->mimo_mode==TM7?7:0);
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  if (dlsch->harq_processes[harq_pid]->round == 0) {  // this is a new packet

    // Add 24-bit crc (polynomial A) to payload
    crc = crc24a(a,
                 A)>>8;
    a[A>>3] = ((uint8_t*)&crc)[2];
    a[1+(A>>3)] = ((uint8_t*)&crc)[1];
    a[2+(A>>3)] = ((uint8_t*)&crc)[0];

    dlsch->harq_processes[harq_pid]->B = A+24;
    memcpy(dlsch->harq_processes[harq_pid]->b,a,(A/8)+4);

    if (lte_segmentation(dlsch->harq_processes[harq_pid]->b,
                         dlsch->harq_processes[harq_pid]->c,
                         dlsch->harq_processes[harq_pid]->B,
                         &dlsch->harq_processes[harq_pid]->C,
                         &dlsch->harq_processes[harq_pid]->Cplus,
                         &dlsch->harq_processes[harq_pid]->Cminus,
                         &dlsch->harq_processes[harq_pid]->Kplus,
                         &dlsch->harq_processes[harq_pid]->Kminus,
                         &dlsch->harq_processes[harq_pid]->F)<0)
      return(-1);



    if (proc->instance_cnt_te==0) {
      printf("[eNB] TE thread busy\n");
      exit_fun("TE thread busy");
      pthread_mutex_unlock( &proc->mutex_te );
      return(-1);
    }
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    VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING, VCD_FUNCTION_OUT);  
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    ++proc->instance_cnt_te;

    proc->tep.eNB               = eNB;
    proc->tep.dlsch             = dlsch;
    proc->tep.G                 = G;

    // wakeup worker to do second half segments 
    if (pthread_cond_signal(&proc->cond_te) != 0) {
      printf("[eNB] ERROR pthread_cond_signal for te thread exit\n");
      exit_fun( "ERROR pthread_cond_signal" );
      return (-1);
    }

    pthread_mutex_unlock( &proc->mutex_te );

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    VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING, VCD_FUNCTION_IN);
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    for (r=dlsch->harq_processes[harq_pid]->C>>1; r<dlsch->harq_processes[harq_pid]->C; r++) {

      if (r<dlsch->harq_processes[harq_pid]->Cminus)
        Kr = dlsch->harq_processes[harq_pid]->Kminus;
      else
        Kr = dlsch->harq_processes[harq_pid]->Kplus;

      Kr_bytes = Kr>>3;

      // get interleaver index for Turbo code (lookup in Table 5.1.3-3 36-212, V8.6 2009-03, p. 13-14)
      if (Kr_bytes<=64)
        iind = (Kr_bytes-5);
      else if (Kr_bytes <=128)
        iind = 59 + ((Kr_bytes-64)>>1);
      else if (Kr_bytes <= 256)
        iind = 91 + ((Kr_bytes-128)>>2);
      else if (Kr_bytes <= 768)
        iind = 123 + ((Kr_bytes-256)>>3);
      else {
        printf("dlsch_coding: Illegal codeword size %d!!!\n",Kr_bytes);
        return(-1);
      }


      start_meas(te_stats);
      threegpplte_turbo_encoder(dlsch->harq_processes[harq_pid]->c[r],
                                Kr>>3,
                                &dlsch->harq_processes[harq_pid]->d[r][96],
                                (r==0) ? dlsch->harq_processes[harq_pid]->F : 0,
                                f1f2mat_old[iind*2],   // f1 (see 36121-820, page 14)
                                f1f2mat_old[(iind*2)+1]  // f2 (see 36121-820, page 14)
                               );
      stop_meas(te_stats);

      start_meas(i_stats);
      dlsch->harq_processes[harq_pid]->RTC[r] =
        sub_block_interleaving_turbo(4+(Kr_bytes*8),
                                     &dlsch->harq_processes[harq_pid]->d[r][96],
                                     dlsch->harq_processes[harq_pid]->w[r]);
      stop_meas(i_stats);
    }

  }
  else {

    proc->tep.eNB          = eNB;
    proc->tep.dlsch        = dlsch;
    proc->tep.G            = G;
    
    // wakeup worker to do second half segments 
    if (pthread_cond_signal(&proc->cond_te) != 0) {
      printf("[eNB] ERROR pthread_cond_signal for te thread exit\n");
      exit_fun( "ERROR pthread_cond_signal" );
      return (-1);
    }
  }

  // Fill in the "e"-sequence from 36-212, V8.6 2009-03, p. 16-17 (for each "e") and concatenate the
  // outputs for each code segment, see Section 5.1.5 p.20

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  for (r=0,r_offset=0; r<dlsch->harq_processes[harq_pid]->C; r++) {
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    // get information for E for the segments that are handled by the worker thread
    if (r<(dlsch->harq_processes[harq_pid]->C>>1)) {
      int Nl=dlsch->harq_processes[harq_pid]->Nl;
      int Qm=get_Qm(dlsch->harq_processes[harq_pid]->mcs);
      int C = dlsch->harq_processes[harq_pid]->C;
      int Gp = G/Nl/Qm;
      int GpmodC = Gp%C;
      if (r < (C-(GpmodC)))
	r_offset += Nl*Qm * (Gp/C);
      else
	r_offset += Nl*Qm * ((GpmodC==0?0:1) + (Gp/C));
    }
    else  {
      start_meas(rm_stats);
      r_offset += lte_rate_matching_turbo(dlsch->harq_processes[harq_pid]->RTC[r],
					  G,  //G
					  dlsch->harq_processes[harq_pid]->w[r],
					  dlsch->harq_processes[harq_pid]->e+r_offset,
					  dlsch->harq_processes[harq_pid]->C, // C
					  dlsch->Nsoft,                    // Nsoft,
					  dlsch->Mdlharq,
					  dlsch->Kmimo,
					  dlsch->harq_processes[harq_pid]->rvidx,
					  get_Qm(dlsch->harq_processes[harq_pid]->mcs),
					  dlsch->harq_processes[harq_pid]->Nl,
					  r,
					  nb_rb,
					  m);                       // r
      stop_meas(rm_stats);
    }
  }

  // wait for worker to finish

  wait_on_busy_condition(&proc->mutex_te,&proc->cond_te,&proc->instance_cnt_te,"te thread");  

  
  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING, VCD_FUNCTION_OUT);

  return(0);
}

int dlsch_encoding(PHY_VARS_eNB *eNB,
		   unsigned char *a,
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                   uint8_t num_pdcch_symbols,
                   LTE_eNB_DLSCH_t *dlsch,
                   int frame,
                   uint8_t subframe,
                   time_stats_t *rm_stats,
                   time_stats_t *te_stats,
                   time_stats_t *i_stats)
{

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  unsigned int G;
  unsigned int crc=1;
  unsigned short iind;
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  LTE_DL_FRAME_PARMS *frame_parms = &eNB->frame_parms;
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  unsigned char harq_pid = dlsch->current_harq_pid;
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  unsigned short nb_rb = dlsch->harq_processes[harq_pid]->nb_rb;
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  unsigned int A;
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  unsigned char mod_order;
  unsigned int Kr=0,Kr_bytes,r,r_offset=0;
  unsigned short m=dlsch->harq_processes[harq_pid]->mcs;
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  uint8_t beamforming_mode=0;
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  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING, VCD_FUNCTION_IN);
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  A = dlsch->harq_processes[harq_pid]->TBS; //6228
  // printf("Encoder: A: %d\n",A);
  mod_order = get_Qm(dlsch->harq_processes[harq_pid]->mcs);

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  if(dlsch->harq_processes[harq_pid]->mimo_mode == TM7)
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    beamforming_mode = 7;
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  else if(dlsch->harq_processes[harq_pid]->mimo_mode == TM8)
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    beamforming_mode = 8;
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  else if(dlsch->harq_processes[harq_pid]->mimo_mode == TM9_10)
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    beamforming_mode = 9;
  G = get_G(frame_parms,nb_rb,dlsch->harq_processes[harq_pid]->rb_alloc,mod_order,dlsch->harq_processes[harq_pid]->Nl,num_pdcch_symbols,frame,subframe,beamforming_mode);
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  //  if (dlsch->harq_processes[harq_pid]->Ndi == 1) {  // this is a new packet
  if (dlsch->harq_processes[harq_pid]->round == 0) {  // this is a new packet
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    /*
    int i;
    printf("dlsch (tx): \n");
    for (i=0;i<(A>>3);i++)
      printf("%02x.",a[i]);
    printf("\n");
    */
    // Add 24-bit crc (polynomial A) to payload
    crc = crc24a(a,
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                 A)>>8;
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    a[A>>3] = ((uint8_t*)&crc)[2];
    a[1+(A>>3)] = ((uint8_t*)&crc)[1];
    a[2+(A>>3)] = ((uint8_t*)&crc)[0];
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    //    printf("CRC %x (A %d)\n",crc,A);

    dlsch->harq_processes[harq_pid]->B = A+24;
    //    dlsch->harq_processes[harq_pid]->b = a;
    memcpy(dlsch->harq_processes[harq_pid]->b,a,(A/8)+4);
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    if (lte_segmentation(dlsch->harq_processes[harq_pid]->b,
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                         dlsch->harq_processes[harq_pid]->c,
                         dlsch->harq_processes[harq_pid]->B,
                         &dlsch->harq_processes[harq_pid]->C,
                         &dlsch->harq_processes[harq_pid]->Cplus,
                         &dlsch->harq_processes[harq_pid]->Cminus,
                         &dlsch->harq_processes[harq_pid]->Kplus,
                         &dlsch->harq_processes[harq_pid]->Kminus,
                         &dlsch->harq_processes[harq_pid]->F)<0)
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      return(-1);
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    for (r=0; r<dlsch->harq_processes[harq_pid]->C; r++) {
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      if (r<dlsch->harq_processes[harq_pid]->Cminus)
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        Kr = dlsch->harq_processes[harq_pid]->Kminus;
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      else
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        Kr = dlsch->harq_processes[harq_pid]->Kplus;

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      Kr_bytes = Kr>>3;
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      // get interleaver index for Turbo code (lookup in Table 5.1.3-3 36-212, V8.6 2009-03, p. 13-14)
      if (Kr_bytes<=64)
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        iind = (Kr_bytes-5);
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      else if (Kr_bytes <=128)
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        iind = 59 + ((Kr_bytes-64)>>1);
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      else if (Kr_bytes <= 256)
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        iind = 91 + ((Kr_bytes-128)>>2);
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      else if (Kr_bytes <= 768)
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        iind = 123 + ((Kr_bytes-256)>>3);
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      else {
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        printf("dlsch_coding: Illegal codeword size %d!!!\n",Kr_bytes);
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        return(-1);
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      }
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#ifdef DEBUG_DLSCH_CODING
      printf("Generating Code Segment %d (%d bits)\n",r,Kr);
      // generate codewords
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      printf("bits_per_codeword (Kr)= %d, A %d\n",Kr,A);
      printf("N_RB = %d\n",nb_rb);
      printf("Ncp %d\n",frame_parms->Ncp);
      printf("mod_order %d\n",mod_order);
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#endif
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#ifdef DEBUG_DLSCH_CODING
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      printf("Encoding ... iind %d f1 %d, f2 %d\n",iind,f1f2mat_old[iind*2],f1f2mat_old[(iind*2)+1]);
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#endif
      start_meas(te_stats);
      threegpplte_turbo_encoder(dlsch->harq_processes[harq_pid]->c[r],
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                                Kr>>3,
                                &dlsch->harq_processes[harq_pid]->d[r][96],
                                (r==0) ? dlsch->harq_processes[harq_pid]->F : 0,
                                f1f2mat_old[iind*2],   // f1 (see 36121-820, page 14)
                                f1f2mat_old[(iind*2)+1]  // f2 (see 36121-820, page 14)
                               );
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      stop_meas(te_stats);
#ifdef DEBUG_DLSCH_CODING
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      if (r==0)
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        write_output("enc_output0.m","enc0",&dlsch->harq_processes[harq_pid]->d[r][96],(3*8*Kr_bytes)+12,1,4);

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#endif
      start_meas(i_stats);
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      dlsch->harq_processes[harq_pid]->RTC[r] =
        sub_block_interleaving_turbo(4+(Kr_bytes*8),
                                     &dlsch->harq_processes[harq_pid]->d[r][96],
                                     dlsch->harq_processes[harq_pid]->w[r]);
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      stop_meas(i_stats);
    }
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  }

  // Fill in the "e"-sequence from 36-212, V8.6 2009-03, p. 16-17 (for each "e") and concatenate the
  // outputs for each code segment, see Section 5.1.5 p.20

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    printf("Rate Matching, Code segment %d (coded bits (G) %d,unpunctured/repeated bits per code segment %d,mod_order %d, nb_rb %d)...\n",
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        r,
        G,
        Kr*3,
        mod_order,nb_rb);
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#endif

    start_meas(rm_stats);
    r_offset += lte_rate_matching_turbo(dlsch->harq_processes[harq_pid]->RTC[r],
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                                        G,  //G
                                        dlsch->harq_processes[harq_pid]->w[r],
                                        dlsch->harq_processes[harq_pid]->e+r_offset,
                                        dlsch->harq_processes[harq_pid]->C, // C
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                                        dlsch->Nsoft,                    // Nsoft,
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                                        dlsch->Mdlharq,
                                        dlsch->Kmimo,
                                        dlsch->harq_processes[harq_pid]->rvidx,
                                        get_Qm(dlsch->harq_processes[harq_pid]->mcs),
                                        dlsch->harq_processes[harq_pid]->Nl,
                                        r,
                                        nb_rb,
                                        m);                       // r
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    stop_meas(rm_stats);
#ifdef DEBUG_DLSCH_CODING
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    if (r==dlsch->harq_processes[harq_pid]->C-1)
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      write_output("enc_output.m","enc",dlsch->harq_processes[harq_pid]->e,r_offset,1,4);
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#endif
  }
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  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING, VCD_FUNCTION_OUT);
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  return(0);
}

#ifdef PHY_ABSTRACTION
void dlsch_encoding_emul(PHY_VARS_eNB *phy_vars_eNB,
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                         uint8_t *DLSCH_pdu,
                         LTE_eNB_DLSCH_t *dlsch)
{
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  //int payload_offset = 0;
  unsigned char harq_pid = dlsch->current_harq_pid;
  unsigned short i;

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  //  if (dlsch->harq_processes[harq_pid]->Ndi == 1) {
  if (dlsch->harq_processes[harq_pid]->round == 0) {
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    memcpy(dlsch->harq_processes[harq_pid]->b,
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           DLSCH_pdu,
           dlsch->harq_processes[harq_pid]->TBS>>3);
    LOG_D(PHY, "eNB %d dlsch_encoding_emul, tbs is %d harq pid %d \n",
          phy_vars_eNB->Mod_id,
          dlsch->harq_processes[harq_pid]->TBS>>3,
          harq_pid);

    for (i=0; i<dlsch->harq_processes[harq_pid]->TBS>>3; i++)
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      LOG_T(PHY,"%x.",DLSCH_pdu[i]);
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    LOG_T(PHY,"\n");

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    memcpy(&eNB_transport_info[phy_vars_eNB->Mod_id][phy_vars_eNB->CC_id].transport_blocks[eNB_transport_info_TB_index[phy_vars_eNB->Mod_id][phy_vars_eNB->CC_id]],
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           //     memcpy(&eNB_transport_info[phy_vars_eNB->Mod_id].transport_blocks[payload_offset],
           DLSCH_pdu,
           dlsch->harq_processes[harq_pid]->TBS>>3);
  }

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  eNB_transport_info_TB_index[phy_vars_eNB->Mod_id][phy_vars_eNB->CC_id]+=dlsch->harq_processes[harq_pid]->TBS>>3;
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  //payload_offset +=dlsch->harq_processes[harq_pid]->TBS>>3;
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}
#endif