Full Support for TM4 HARQ, excpept for PUSCH precoder at this moment.

openair1/PHY/LTE_TRANSPORT/dci_tools.c

@@ -44,6 +44,7 @@
 #include "PHY/vars.h"
 #endif
 #include "assertions.h"
+//#define DEBUG_HARQ
 
 //#define DEBUG_DCI
 
@@ -1525,7 +1526,9 @@ int generate_eNB_dlsch_params_from_dci(int frame,
       dlsch1_harq->status = ACTIVE;
       dlsch0_harq->codeword=0;
       dlsch1_harq->codeword=1;
+#ifdef DEBUG_HARQ
       printf("\n ENB: BOTH ACTIVE\n");
+#endif
     }
     else if (TB0_active && TB1_active && tbswap==1) {
       dlsch0=dlsch[0];
@@ -1564,7 +1567,9 @@ int generate_eNB_dlsch_params_from_dci(int frame,
       dlsch1_harq->codeword = 0;
       dlsch0=NULL;
       dlsch0_harq = NULL;
+#ifdef DEBUG_HARQ
       printf("\n ENB: TB0 is deactivated, retransmit TB1 transmit in TM6\n");
+#endif
     }
 
     if (dlsch0 != NULL){
@@ -2800,8 +2805,15 @@ int generate_eNB_dlsch_params_from_dci(int frame,
 #endif
 
   // compute DL power control parameters
+  if (dlsch0 != NULL){
   computeRhoA_eNB(pdsch_config_dedicated, dlsch[0],dlsch0_harq->dl_power_off, frame_parms->nb_antennas_tx_eNB);
   computeRhoB_eNB(pdsch_config_dedicated,&(frame_parms->pdsch_config_common),frame_parms->nb_antennas_tx_eNB,dlsch[0],dlsch0_harq->dl_power_off);
+}
+  if (dlsch1 != NULL){
+      computeRhoA_eNB(pdsch_config_dedicated, dlsch[1],dlsch1_harq->dl_power_off, frame_parms->nb_antennas_tx_eNB);
+  computeRhoB_eNB(pdsch_config_dedicated,&(frame_parms->pdsch_config_common),frame_parms->nb_antennas_tx_eNB,dlsch[1],dlsch1_harq->dl_power_off);
+  }
+
 
   return(0);
 }
@@ -4879,6 +4891,9 @@ int generate_ue_dlsch_params_from_dci(int frame,
     if ((rv2 == 1) && (mcs2 == 0)) {
       TB1_active=0;
     }
+#ifdef DEBUG_HARQ
+    printf("[DCI UE]: TB0 status %d , TB1 status %d\n", TB0_active, TB1_active);
+#endif
 
     //printf("RV TB0 = %d\n", rv1);
 
@@ -4898,7 +4913,9 @@ int generate_ue_dlsch_params_from_dci(int frame,
       dlsch1_harq->status = ACTIVE;
       dlsch0_harq->codeword=0;
       dlsch1_harq->codeword=1;
-      //printf("\n UE: BOTH ACTIVE\n");
+#ifdef DEBUG_HARQ
+      printf("[DCI UE]: BOTH ACTIVE\n");
+#endif
     }
     else if (TB0_active && TB1_active && tbswap==1) {
       dlsch0=dlsch[0];
@@ -4937,7 +4954,9 @@ int generate_ue_dlsch_params_from_dci(int frame,
       dlsch1_harq->codeword = 0;
       dlsch0=NULL;
       dlsch0_harq = NULL;
-      //printf("\n UE: TB0 is deactivated, retransmit TB1 transmit in TM6\n");
+#ifdef DEBUG_HARQ
+      printf("[DCI UE]: TB0 is deactivated, retransmit TB1 transmit in TM6\n");
+#endif
     }
 
 
@@ -4990,7 +5009,9 @@ int generate_ue_dlsch_params_from_dci(int frame,
         dlsch1_harq->rb_alloc_odd[1]= dlsch1_harq->rb_alloc_even[1];
         dlsch1_harq->rb_alloc_odd[2]= dlsch1_harq->rb_alloc_even[2];
         dlsch1_harq->rb_alloc_odd[3]= dlsch1_harq->rb_alloc_even[3];
-        dlsch1_harq->nb_rb = dlsch0_harq->nb_rb;
+        dlsch1_harq->nb_rb = conv_nprb(rah,
+                                       rballoc,
+                                       frame_parms->N_RB_DL);
       }
 
 
@@ -5010,6 +5031,9 @@ int generate_ue_dlsch_params_from_dci(int frame,
 
     if (dlsch1_harq != NULL)
       dlsch1_harq->Nl = 1;
+#ifdef DEBUG_HARQ
+    printf ("[DCI UE] tpmi = %d\n", tpmi);
+#endif
 
 
     if ((dlsch0 != NULL) && (dlsch1 != NULL)){  //two CW active
@@ -5112,7 +5136,10 @@ int generate_ue_dlsch_params_from_dci(int frame,
           break;
         }
     }
-
+#ifdef DEBUG_HARQ
+    printf("[DCI UE] harq1 MIMO mode = %d\n", dlsch1_harq->mimo_mode);
+#endif
+    //printf(" UE DCI harq0 MIMO mode = %d\n", dlsch0_harq->mimo_mode);
     if ((frame_parms->mode1_flag == 1) && (dlsch0_harq != NULL))
       dlsch0_harq->mimo_mode   = SISO;
 
@@ -5196,6 +5223,12 @@ int generate_ue_dlsch_params_from_dci(int frame,
 
           dlsch1->rnti = rnti;
     }
+#ifdef DEBUG_HARQ
+    if (dlsch0 != NULL)
+      printf("[DCI UE] dlsch0_harq status = %d, dlsch1_harq status = %d\n", dlsch0_harq->status, dlsch1_harq->status);
+    else
+      printf("[DCI UE] dlsch1_harq status = %d\n", dlsch1_harq->status);
+#endif
 
    break;
 
@@ -5869,11 +5902,19 @@ int generate_ue_dlsch_params_from_dci(int frame,
   }
 
 #endif
-  dlsch[0]->active=1;
+  //dlsch[0]->active=1;
 
   // compute DL power control parameters
-  computeRhoA_UE(pdsch_config_dedicated, dlsch[0],dlsch0_harq->dl_power_off, frame_parms->nb_antennas_tx_eNB);
-  computeRhoB_UE(pdsch_config_dedicated,&(frame_parms->pdsch_config_common),frame_parms->nb_antennas_tx_eNB,dlsch[0],dlsch0_harq->dl_power_off);
+  if (dlsch0_harq != NULL){
+    computeRhoA_UE(pdsch_config_dedicated, dlsch[0],dlsch0_harq->dl_power_off, frame_parms->nb_antennas_tx_eNB);
+    computeRhoB_UE(pdsch_config_dedicated,&(frame_parms->pdsch_config_common),frame_parms->nb_antennas_tx_eNB,dlsch[0],dlsch0_harq->dl_power_off);
+  }
+
+  if (dlsch1_harq != NULL) {
+    computeRhoA_UE(pdsch_config_dedicated, dlsch[1],dlsch1_harq->dl_power_off, frame_parms->nb_antennas_tx_eNB);
+    computeRhoB_UE(pdsch_config_dedicated,&(frame_parms->pdsch_config_common),frame_parms->nb_antennas_tx_eNB,dlsch[1],dlsch1_harq->dl_power_off);
+  }
+
 
   return(0);
 }

openair1/PHY/LTE_TRANSPORT/dlsch_modulation.c

@@ -156,7 +156,7 @@ int allocate_REs_in_RB(LTE_DL_FRAME_PARMS *frame_parms,
 
 
   uint8_t *x0 = NULL; //dlsch0_harq->e;
-  MIMO_mode_t mimo_mode = dlsch0_harq->mimo_mode;
+  MIMO_mode_t mimo_mode;//= dlsch0_harq->mimo_mode;
 
   int first_layer0; //= dlsch0_harq->first_layer;
   int Nlayers0; //  = dlsch0_harq->Nlayers;
@@ -1411,8 +1411,13 @@ int dlsch_modulation(int32_t **txdataF,
 
   nsymb = (frame_parms->Ncp==0) ? 14:12;
 
+  if (dlsch0 != NULL){
   amp_rho_a = (int16_t)(((int32_t)amp*dlsch0->sqrt_rho_a)>>13); //amp=512 in  full scale; dlsch0->sqrt_rho_a=8192in Q2.13, 1 in full scale
   amp_rho_b = (int16_t)(((int32_t)amp*dlsch0->sqrt_rho_b)>>13);
+  } else{
+  amp_rho_a = (int16_t)(((int32_t)amp*dlsch1->sqrt_rho_a)>>13);
+  amp_rho_b = (int16_t)(((int32_t)amp*dlsch1->sqrt_rho_b)>>13);
+  }
 
   if (mod_order0 == 4)
     for (i=0; i<4; i++) {
@@ -1445,6 +1450,7 @@ int dlsch_modulation(int32_t **txdataF,
   //  printf("num_pdcch_symbols %d, nsymb %d\n",num_pdcch_symbols,nsymb);
   for (l=num_pdcch_symbols; l<nsymb; l++) {
 
+  if (dlsch0 != NULL ) {
 #ifdef DEBUG_DLSCH_MODULATION
     printf("Generating DLSCH (harq_pid %d,mimo %d, pmi_alloc0 %lx, mod0 %d, mod1 %d, rb_alloc[0] %d) in %d\n",
             harq_pid,
@@ -1455,6 +1461,7 @@ int dlsch_modulation(int32_t **txdataF,
             rb_alloc[0],
             len);
 #endif
+  }
 
     if (frame_parms->Ncp==0) { // normal prefix
       if ((l==4)||(l==11))
@@ -1611,9 +1618,11 @@ int dlsch_modulation(int32_t **txdataF,
         }
       }
 
-      if (dlsch0_harq->Nlayers>1) {
-        msg("Nlayers %d: re_offset %d, symbol %d offset %d\n",dlsch0_harq->Nlayers,re_offset,l,symbol_offset);
-        return(-1);
+     if (dlsch0) {
+        if (dlsch0_harq->Nlayers>1) {
+          msg("Nlayers %d: re_offset %d, symbol %d offset %d\n",dlsch0_harq->Nlayers,re_offset,l,symbol_offset);
+          return(-1);
+        }
       }
 
       if (dlsch1) {
@@ -1639,6 +1648,17 @@ int dlsch_modulation(int32_t **txdataF,
 
       if (rb_alloc_ind > 0) {
         //    printf("Allocated rb %d/symbol %d, skip_half %d, subframe_offset %d, symbol_offset %d, re_offset %d, jj %d\n",rb,l,skip_half,subframe_offset,symbol_offset,re_offset,jj);
+      if (dlsch0 != NULL) {
+        get_pmi_temp = get_pmi(frame_parms->N_RB_DL,
+                               dlsch0->harq_processes[harq_pid]->mimo_mode,
+                               dlsch0->harq_processes[harq_pid]->pmi_alloc,
+                               rb);
+      } else
+        get_pmi_temp = get_pmi(frame_parms->N_RB_DL,
+                               dlsch1->harq_processes[harq_pid]->mimo_mode,
+                               dlsch1->harq_processes[harq_pid]->pmi_alloc,
+                               rb);
+
 
       allocate_REs_in_RB(frame_parms,
                          txdataF,
@@ -1646,11 +1666,11 @@ int dlsch_modulation(int32_t **txdataF,
                          &jj2,
                          re_offset,
                          symbol_offset,
-                         dlsch0->harq_processes[harq_pid],
-                         (dlsch1==NULL) ? NULL : dlsch1->harq_processes[harq_pid],
+                         (dlsch0 == NULL) ? NULL : dlsch0->harq_processes[harq_pid],
+                         (dlsch1 == NULL) ? NULL : dlsch1->harq_processes[harq_pid],
                          pilots,
                          ((pilots) ? amp_rho_b : amp_rho_a),
-                         get_pmi(frame_parms->N_RB_DL,dlsch0->harq_processes[harq_pid]->mimo_mode,dlsch0->harq_processes[harq_pid]->pmi_alloc,rb),
+                         get_pmi_temp,
                          qam_table_s0,
                          qam_table_s1,
                          &re_allocated,
@@ -1672,7 +1692,11 @@ int dlsch_modulation(int32_t **txdataF,
   }
 
 #ifdef DEBUG_DLSCH_MODULATION
-  msg("generate_dlsch : jj = %d,re_allocated = %d (G %d)\n",jj,re_allocated,get_G(frame_parms,dlsch0_harq->nb_rb,dlsch0_harq->rb_alloc,mod_order0,Nl0,2,0,subframe_offset));
+  if (dlsch0 != NULL){
+    msg("generate_dlsch : jj = %d,re_allocated = %d (G %d)\n",jj,re_allocated,get_G(frame_parms,dlsch0_harq->nb_rb,dlsch0_harq->rb_alloc,mod_order0,Nl0,2,0,subframe_offset));
+  }else{
+    msg("generate_dlsch : jj = %d,re_allocated = %d (G %d)\n",jj,re_allocated,get_G(frame_parms,dlsch1_harq->nb_rb,dlsch1_harq->rb_alloc,mod_order1,Nl1,2,0,subframe_offset));
+  }
 #endif
 
   VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_MODULATION, VCD_FUNCTION_OUT);

openair1/PHY/LTE_TRANSPORT/power_control.c

@@ -34,9 +34,9 @@
 double ratioPB[2][4]={{ 1.0,4.0/5.0,3.0/5.0,2.0/5.0},
           { 5.0/4.0,1.0,3.0/4.0,1.0/2.0}};
 */
-					  
+
 double ratioPB[2][4]={{ 0.00000,  -0.96910,  -2.21849,  -3.97940}, //in db
-		      { 0.96910,   0.00000,  -1.24939,  -3.01030}};
+                      { 0.96910,   0.00000,  -1.24939,  -3.01030}};
 
 double pa_values[8]={-6.0,-4.77,-3.0,-1.77,0.0,1.0,2.0,3.0}; //reported by higher layers
 
@@ -45,21 +45,21 @@ double get_pa_dB(PDSCH_CONFIG_DEDICATED *pdsch_config_dedicated)
   return(pa_values[pdsch_config_dedicated->p_a]);
 }
 
-double computeRhoA_eNB(PDSCH_CONFIG_DEDICATED *pdsch_config_dedicated,  
-                       LTE_eNB_DLSCH_t *dlsch_eNB,int dl_power_off, uint8_t n_antenna_port){		    	
+double computeRhoA_eNB(PDSCH_CONFIG_DEDICATED *pdsch_config_dedicated,
+                       LTE_eNB_DLSCH_t *dlsch_eNB, int dl_power_off, uint8_t n_antenna_port){
   double rho_a_dB;
   double sqrt_rho_a_lin;
 
   rho_a_dB = pa_values[ pdsch_config_dedicated->p_a];
-	
+
   if(!dl_power_off) //if dl_power_offset is 0, this is for MU-interference, TM5
     rho_a_dB-=10*log10(2);
-  
+
   if(n_antenna_port==4) // see TS 36.213 Section 5.2
     rho_a_dB=+10*log10(2);
-	
-  sqrt_rho_a_lin= pow(10,(0.05*rho_a_dB));	
-	
+
+  sqrt_rho_a_lin= pow(10,(0.05*rho_a_dB));
+
   dlsch_eNB->sqrt_rho_a= (short) (sqrt_rho_a_lin*pow(2,13));
 
 #if DEBUG_PC
@@ -78,9 +78,9 @@ double computeRhoB_eNB(PDSCH_CONFIG_DEDICATED  *pdsch_config_dedicated,
 
   double rho_a_dB, rho_b_dB;
   double sqrt_rho_b_lin;
-	
+
   rho_a_dB= computeRhoA_eNB(pdsch_config_dedicated,dlsch_eNB,dl_power_off, n_antenna_port);
-	
+
   if(n_antenna_port>1)
     rho_b_dB= ratioPB[1][pdsch_config_common->p_b] + rho_a_dB;
   else
@@ -99,24 +99,24 @@ double computeRhoB_eNB(PDSCH_CONFIG_DEDICATED  *pdsch_config_dedicated,
 
 double computeRhoA_UE(PDSCH_CONFIG_DEDICATED *pdsch_config_dedicated,
                       LTE_UE_DLSCH_t *dlsch_ue,
-                      unsigned char dl_power_off, 
-		      uint8_t n_antenna_port
- 		    ){		    	
-    
+                      unsigned char dl_power_off,
+                      uint8_t n_antenna_port
+                    ){
+
   double rho_a_dB;
   double sqrt_rho_a_lin;
 
   rho_a_dB = pa_values[ pdsch_config_dedicated->p_a];
-	
-  if(!dl_power_off) 
-    rho_a_dB-=10*log10(2); 
+
+  if(!dl_power_off)
+    rho_a_dB-=10*log10(2);
   //if dl_power_offset is 0, this is for MU-interference, TM5. But in practice UE may assume 16 or 64QAM TM4 as multiuser
-  
+
    if(n_antenna_port==4) // see TS 36.213 Section 5.2
     rho_a_dB=+10*log10(2);
-	
-  sqrt_rho_a_lin= pow(10,(0.05*rho_a_dB));	
-	
+
+  sqrt_rho_a_lin= pow(10,(0.05*rho_a_dB));
+
   dlsch_ue->sqrt_rho_a= (short) (sqrt_rho_a_lin*pow(2,13));
 
 #ifdef DEBUG_PC
@@ -135,9 +135,9 @@ double computeRhoB_UE(PDSCH_CONFIG_DEDICATED  *pdsch_config_dedicated,
 
   double rho_a_dB, rho_b_dB;
   double sqrt_rho_b_lin;
-	
+
   rho_a_dB= computeRhoA_UE(pdsch_config_dedicated,dlsch_ue,dl_power_off, n_antenna_port);
-	
+
   if(n_antenna_port>1)
     rho_b_dB= ratioPB[1][pdsch_config_common->p_b] + rho_a_dB;
   else

openair1/PHY/defs.h

@@ -387,7 +387,7 @@ typedef struct PHY_VARS_eNB_s {
 #ifdef LOCALIZATION
   /// time state for localization
   time_stats_t localization_stats;
-#endif 
+#endif
 
   int32_t pucch1_stats_cnt[NUMBER_OF_UE_MAX][10];
   int32_t pucch1_stats[NUMBER_OF_UE_MAX][10*1024];

openair1/PHY/impl_defs_lte.h

@@ -793,7 +793,7 @@ typedef struct {
   /// - first index: ? [0..7] (hard coded) accessed via \c harq_pid
   /// - second index: ? [0..7] (hard coded) accessed via \c round
   /// - third index: ? [0..7] (hard coded) FIXME! accessed via \c nb_antennas_rx
-  /// - fourth index: ? [0..168*N_RB_DL[ 
+  /// - fourth index: ? [0..168*N_RB_DL[
   int32_t **rxdataF_comp1[8][8];
   /// \brief Downlink channel estimates extracted in PRBS.
   /// - first index: ? [0..7] (hard coded) FIXME! accessed via \c nb_antennas_rx

openair1/SIMULATION/TOOLS/rangen_double.c

@@ -46,7 +46,7 @@ static unsigned int seed, iy, ir[98];
 #define a 1664525lu
 #define mod 4294967296.0                /* is 2**32 */
 
-
+#if 1
 void randominit(unsigned seed_init)
 {
   int i;
@@ -69,17 +69,18 @@ void randominit(unsigned seed_init)
   }
 
  iy=1;
-} 
-
+}
+#endif
 
-/*void randominit(unsigned seed_init)
+#if 0
+void randominit(unsigned seed_init)
 {
   int i;
   // this need to be integrated with the existing rng, like taus: navid
   msg("Initializing random number generator, seed %x\n",seed_init);
 
   seed_init = 62110;
-  
+
   if (seed_init == 0) {
     srand((unsigned)time(NULL));
 
@@ -90,14 +91,14 @@ void randominit(unsigned seed_init)
 
   if (seed % 2 == 0) seed += 1; /* seed and mod are relative prime */
 
-//  for (i=1; i<=97; i++) {
-//    seed = a*seed;                 /* mod 2**32  */
-//    ir[i]= seed;                   /* initialize the shuffle table    */
-//  }
-
-//  iy=1;
-//}
+  for (i=1; i<=97; i++) {
+    seed = a*seed;                 /* mod 2**32  */
+    ir[i]= seed;                   /* initialize the shuffle table    */
+  }
 
+  iy=1;
+}
+#endif
 /*!\brief Uniform linear congruential random number generator on \f$[0,1)\f$.  Returns a double-precision floating-point number.*/
 
 double uniformrandom(void)

openair1/SIMULATION/TOOLS/taus.c

@@ -58,7 +58,7 @@ unsigned int taus(void)
   s2 = (((s2 & 0xFFFFFFF0) << 17)^  b);
   return s0 ^ s1 ^ s2;
 }
-
+#if 1
 void set_taus_seed(unsigned int seed_init)
 {
 
@@ -87,9 +87,11 @@ void set_taus_seed(unsigned int seed_init)
     s2 = result;
 #endif
   }
-} 
- 
-/* void set_taus_seed(unsigned int seed_init)
+}
+#endif
+
+#if 0
+ void set_taus_seed(unsigned int seed_init)
 {
 
 #ifdef USER_MODE
@@ -113,18 +115,17 @@ void set_taus_seed(unsigned int seed_init)
     s2 = (unsigned int)0xfe1a133e;
 #else
    // Use reentrant version of rand48 to ensure that no conflicts with other generators occur */
-  //  srand48_r((long int)seed_init, &buffer);
-  //  mrand48_r(&buffer, (long int *)&result);
-  //  s0 = result;
-  //  mrand48_r(&buffer, (long int *)&result);
-  //  s1 = result;
-  //  mrand48_r(&buffer, (long int *)&result);
-  //  s2 = result;
-//#endif
- // }
-//}
-
-    
+    srand48_r((long int)seed_init, &buffer);
+    mrand48_r(&buffer, (long int *)&result);
+    s0 = result;
+    mrand48_r(&buffer, (long int *)&result);
+    s1 = result;
+    mrand48_r(&buffer, (long int *)&result);
+    s2 = result;
+#endif
+  }
+}
+#endif
 
 #ifdef MAIN