Commit 999877ea authored by Robert Schmidt's avatar Robert Schmidt

Merge remote-tracking branch 'origin/issue_709' into integration_2025_w06 (!3000)

Improvements for NR dlsim and ulsim
parents 6ed05c53 fabaae33
...@@ -168,7 +168,8 @@ ...@@ -168,7 +168,8 @@
(Test4: HARQ test 25% TP 4 rounds), (Test4: HARQ test 25% TP 4 rounds),
(Test5: HARQ test 33% TP 3 rounds), (Test5: HARQ test 33% TP 3 rounds),
(Test6: HARQ test 50% TP 2 rounds), (Test6: HARQ test 50% TP 2 rounds),
(Test7: 25 PRBs, 15 kHz SCS)</desc> (Test7: 25 PRBs, 15 kHz SCS),
(Test8: 32 PRBs, 120 kHz SCS)</desc>
<main_exec>nr_dlsim</main_exec> <main_exec>nr_dlsim</main_exec>
<main_exec_args>-n100 -R106 -b106 -s5 <main_exec_args>-n100 -R106 -b106 -s5
-n100 -R217 -b217 -s5 -n100 -R217 -b217 -s5
...@@ -176,8 +177,9 @@ ...@@ -176,8 +177,9 @@
-n100 -s1 -S2 -t25 -n100 -s1 -S2 -t25
-n100 -s1 -S2 -t33 -n100 -s1 -S2 -t33
-n100 -s5 -S7 -t50 -n100 -s5 -S7 -t50
-n100 -m0 -e0 -R25 -b25 -i 2 1 0</main_exec_args> -n100 -m0 -e0 -R25 -b25 -i 2 1 0
<tags>test1 test2 test3 test4 test5 test6 test7</tags> -n100 -s5 -m3 -R32 -b32</main_exec_args>
<tags>test1 test2 test3 test4 test5 test6 test7 test8</tags>
<search_expr_true>PDSCH test OK</search_expr_true> <search_expr_true>PDSCH test OK</search_expr_true>
<search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false> <search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false>
<nruns>3</nruns> <nruns>3</nruns>
...@@ -400,9 +402,10 @@ ...@@ -400,9 +402,10 @@
(Test9: PUSCH Type B, 3 DMRS, 2 PTRS, 7 Interpolated Symbols), (Test9: PUSCH Type B, 3 DMRS, 2 PTRS, 7 Interpolated Symbols),
(Test10: PUSCH Type B, 3 DMRS, 2 PTRS, 3 Interpolated Symbols), (Test10: PUSCH Type B, 3 DMRS, 2 PTRS, 3 Interpolated Symbols),
(Test11: 25 PRBs, 15 kHz SCS), (Test11: 25 PRBs, 15 kHz SCS),
(Test12: MCS 0, low SNR performance) (Test12: 32 PRBs, 120 kHz SCS),
(Test13: MCS 28, 106 PRBs, Time shift 8) (Test13: MCS 0, low SNR performance)
(Test14: SRS, SNR 40 dB)</desc> (Test14: MCS 28, 106 PRBs, Time shift 8)
(Test15: SRS, SNR 40 dB)</desc>
<main_exec>nr_ulsim</main_exec> <main_exec>nr_ulsim</main_exec>
<main_exec_args>-n100 -m9 -r106 -s5 <main_exec_args>-n100 -m9 -r106 -s5
-n100 -m16 -s10 -n100 -m16 -s10
...@@ -415,10 +418,11 @@ ...@@ -415,10 +418,11 @@
-n100 -s5 -T 2,2 -U 1,2,1,1 -n100 -s5 -T 2,2 -U 1,2,1,1
-n100 -s5 -a4 -b8 -T 1,2 -U 1,3,1,1 -n100 -s5 -a4 -b8 -T 1,2 -U 1,3,1,1
-n100 -u0 -m0 -R25 -r25 -i 1,0 -n100 -u0 -m0 -R25 -r25 -i 1,0
-n100 -s5 -r32 -R32 -u3
-n100 -m0 -S -0.6 -i 1,0 -n100 -m0 -S -0.6 -i 1,0
-n100 -m 28 -R106 -r106 -t90 -s24 -S24 -d 8 -n100 -m 28 -R106 -r106 -t90 -s24 -S24 -d 8
-n100 -s40 -E 1</main_exec_args> -n100 -s40 -E 1</main_exec_args>
<tags>test1 test2 test3 test4 test5 test6 test7 test8 test9 test10 test11 test12 test13 test14</tags> <tags>test1 test2 test3 test4 test5 test6 test7 test8 test9 test10 test11 test12 test13 test14 test15</tags>
<search_expr_true>PUSCH test OK</search_expr_true> <search_expr_true>PUSCH test OK</search_expr_true>
<search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false> <search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false>
<nruns>3</nruns> <nruns>3</nruns>
......
...@@ -423,9 +423,7 @@ int get_supported_bw_mhz(frequency_range_t frequency_range, int bw_index) ...@@ -423,9 +423,7 @@ int get_supported_bw_mhz(frequency_range_t frequency_range, int bw_index)
{ {
if (frequency_range == FR1) { if (frequency_range == FR1) {
int bandwidth_index_to_mhz[] = {5, 10, 15, 20, 25, 30, 40, 50, 60, 80, 90, 100}; int bandwidth_index_to_mhz[] = {5, 10, 15, 20, 25, 30, 40, 50, 60, 80, 90, 100};
AssertFatal(bw_index >= 0 && bw_index <= sizeofArray(bandwidth_index_to_mhz), AssertFatal(bw_index >= 0 && bw_index <= sizeofArray(bandwidth_index_to_mhz), "Bandwidth index %d is invalid\n", bw_index);
"Bandwidth index %d is invalid\n",
bw_index);
return bandwidth_index_to_mhz[bw_index]; return bandwidth_index_to_mhz[bw_index];
} else { } else {
int bandwidth_index_to_mhz[] = {50, 100, 200, 400}; int bandwidth_index_to_mhz[] = {50, 100, 200, 400};
......
...@@ -380,24 +380,22 @@ int nr_rate_matching_ldpc(uint32_t Tbslbrm, ...@@ -380,24 +380,22 @@ int nr_rate_matching_ldpc(uint32_t Tbslbrm,
uint8_t rvidx, uint8_t rvidx,
uint32_t E) uint32_t E)
{ {
uint32_t Ncb, ind, k = 0, Nref, N;
if (C == 0) { if (C == 0) {
LOG_E(PHY, "nr_rate_matching: invalid parameters (C %d\n", C); LOG_E(PHY, "nr_rate_matching: invalid parameter C %d\n", C);
return -1; return -1;
} }
// Bit selection //Bit selection
N = (BG == 1) ? (66 * Z) : (50 * Z); uint32_t N = (BG == 1) ? (66 * Z) : (50 * Z);
uint32_t Ncb;
if (Tbslbrm == 0) if (Tbslbrm == 0)
Ncb = N; Ncb = N;
else { else {
Nref = 3 * Tbslbrm / (2 * C); // R_LBRM = 2/3 uint32_t Nref = 3 * Tbslbrm / (2 * C); //R_LBRM = 2/3
Ncb = min(N, Nref); Ncb = min(N, Nref);
} }
ind = (index_k0[BG - 1][rvidx] * Ncb / N) * Z; uint32_t ind = (index_k0[BG - 1][rvidx] * Ncb / N) * Z;
#ifdef RM_DEBUG #ifdef RM_DEBUG
printf("nr_rate_matching_ldpc: E %u, F %u, Foffset %u, k0 %u, Ncb %u, rvidx %d, Tbslbrm %u\n", printf("nr_rate_matching_ldpc: E %u, F %u, Foffset %u, k0 %u, Ncb %u, rvidx %d, Tbslbrm %u\n",
...@@ -430,6 +428,7 @@ int nr_rate_matching_ldpc(uint32_t Tbslbrm, ...@@ -430,6 +428,7 @@ int nr_rate_matching_ldpc(uint32_t Tbslbrm,
if (ind >= Foffset && ind < (F + Foffset)) if (ind >= Foffset && ind < (F + Foffset))
ind = F + Foffset; ind = F + Foffset;
uint32_t k = 0;
if (ind < Foffset) { // case where we have some bits before the filler and the rest after if (ind < Foffset) { // case where we have some bits before the filler and the rest after
memcpy((void *)e, (void *)(d + ind), Foffset - ind); memcpy((void *)e, (void *)(d + ind), Foffset - ind);
...@@ -476,28 +475,22 @@ int nr_rate_matching_ldpc_rx(uint32_t Tbslbrm, ...@@ -476,28 +475,22 @@ int nr_rate_matching_ldpc_rx(uint32_t Tbslbrm,
uint32_t F, uint32_t F,
uint32_t Foffset) uint32_t Foffset)
{ {
uint32_t Ncb, ind, k, Nref, N;
#ifdef RM_DEBUG
int nulled = 0;
#endif
if (C == 0) { if (C == 0) {
LOG_E(PHY, "nr_rate_matching: invalid parameters (C %d\n", C); LOG_E(PHY, "nr_rate_matching: invalid parameter C %d\n", C);
return -1; return -1;
} }
// Bit selection //Bit selection
N = (BG == 1) ? (66 * Z) : (50 * Z); uint32_t N = (BG == 1) ? (66 * Z) : (50 * Z);
uint32_t Ncb;
if (Tbslbrm == 0) if (Tbslbrm == 0)
Ncb = N; Ncb = N;
else { else {
Nref = (3 * Tbslbrm / (2 * C)); // R_LBRM = 2/3 uint32_t Nref = (3 * Tbslbrm / (2 * C)); //R_LBRM = 2/3
Ncb = min(N, Nref); Ncb = min(N, Nref);
} }
ind = (index_k0[BG - 1][rvidx] * Ncb / N) * Z; uint32_t ind = (index_k0[BG - 1][rvidx] * Ncb / N) * Z;
if (Foffset > E) { if (Foffset > E) {
LOG_E(PHY, "nr_rate_matching: invalid parameters (Foffset %d > E %d)\n", Foffset, E); LOG_E(PHY, "nr_rate_matching: invalid parameters (Foffset %d > E %d)\n", Foffset, E);
return -1; return -1;
...@@ -521,8 +514,7 @@ int nr_rate_matching_ldpc_rx(uint32_t Tbslbrm, ...@@ -521,8 +514,7 @@ int nr_rate_matching_ldpc_rx(uint32_t Tbslbrm,
if (clear == 1) if (clear == 1)
memset(d, 0, Ncb * sizeof(int16_t)); memset(d, 0, Ncb * sizeof(int16_t));
k = 0; uint32_t k = 0;
if (ind < Foffset) if (ind < Foffset)
for (; (ind < Foffset) && (k < E); ind++) { for (; (ind < Foffset) && (k < E); ind++) {
#ifdef RM_DEBUG #ifdef RM_DEBUG
...@@ -566,6 +558,5 @@ int nr_rate_matching_ldpc_rx(uint32_t Tbslbrm, ...@@ -566,6 +558,5 @@ int nr_rate_matching_ldpc_rx(uint32_t Tbslbrm,
#endif #endif
} }
} }
return 0; return 0;
} }
...@@ -147,10 +147,9 @@ extern void fix_scd(NR_ServingCellConfig_t *scd);// forward declaration ...@@ -147,10 +147,9 @@ extern void fix_scd(NR_ServingCellConfig_t *scd);// forward declaration
/* specific dlsim DL preprocessor: uses rbStart/rbSize/mcs/nrOfLayers from command line of dlsim */ /* specific dlsim DL preprocessor: uses rbStart/rbSize/mcs/nrOfLayers from command line of dlsim */
int g_mcsIndex = -1, g_mcsTableIdx = 0, g_rbStart = -1, g_rbSize = -1, g_nrOfLayers = 1, g_pmi = 0; int g_mcsIndex = -1, g_mcsTableIdx = 0, g_rbStart = -1, g_rbSize = -1, g_nrOfLayers = 1, g_pmi = 0;
void nr_dlsim_preprocessor(module_id_t module_id,
frame_t frame,
sub_frame_t slot) {
void nr_dlsim_preprocessor(module_id_t module_id, frame_t frame, sub_frame_t slot)
{
NR_UE_info_t *UE_info = RC.nrmac[module_id]->UE_info.list[0]; NR_UE_info_t *UE_info = RC.nrmac[module_id]->UE_info.list[0];
AssertFatal(RC.nrmac[module_id]->UE_info.list[1]==NULL, "can have only a single UE\n"); AssertFatal(RC.nrmac[module_id]->UE_info.list[1]==NULL, "can have only a single UE\n");
NR_UE_sched_ctrl_t *sched_ctrl = &UE_info->UE_sched_ctrl; NR_UE_sched_ctrl_t *sched_ctrl = &UE_info->UE_sched_ctrl;
...@@ -326,7 +325,6 @@ int main(int argc, char **argv) ...@@ -326,7 +325,6 @@ int main(int argc, char **argv)
gNB_MAC_INST *gNB_mac; gNB_MAC_INST *gNB_mac;
NR_UE_MAC_INST_t *UE_mac; NR_UE_MAC_INST_t *UE_mac;
int cyclic_prefix_type = NFAPI_CP_NORMAL; int cyclic_prefix_type = NFAPI_CP_NORMAL;
int run_initial_sync=0;
int loglvl=OAILOG_WARNING; int loglvl=OAILOG_WARNING;
//float target_error_rate = 0.01; //float target_error_rate = 0.01;
...@@ -357,7 +355,7 @@ int main(int argc, char **argv) ...@@ -357,7 +355,7 @@ int main(int argc, char **argv)
FILE *scg_fd=NULL; FILE *scg_fd=NULL;
while ((c = getopt(argc, argv, "--:O:f:hA:p:f:g:i:n:s:S:t:v:x:y:z:o:M:N:F:GR:d:PI:L:a:b:e:m:w:T:U:q:X:Y:Z:")) != -1) { while ((c = getopt(argc, argv, "--:O:f:hA:p:f:g:i:n:s:S:t:v:x:y:z:o:H:M:N:F:GR:d:PI:L:a:b:e:m:w:T:U:q:X:Y:Z:")) != -1) {
/* ignore long options starting with '--', option '-O' and their arguments that are handled by configmodule */ /* ignore long options starting with '--', option '-O' and their arguments that are handled by configmodule */
/* with this opstring getopt returns 1 for non-option arguments, refer to 'man 3 getopt' */ /* with this opstring getopt returns 1 for non-option arguments, refer to 'man 3 getopt' */
...@@ -537,11 +535,6 @@ int main(int argc, char **argv) ...@@ -537,11 +535,6 @@ int main(int argc, char **argv)
gNBthreads[sizeof(gNBthreads)-1]=0; gNBthreads[sizeof(gNBthreads)-1]=0;
break; break;
case 'Y':
run_initial_sync=1;
//target_error_rate=0.1;
slot = 0;
break;
case 'Z' : case 'Z' :
filename_csv = strdup(optarg); filename_csv = strdup(optarg);
AssertFatal(filename_csv != NULL, "strdup() error: errno %d\n", errno); AssertFatal(filename_csv != NULL, "strdup() error: errno %d\n", errno);
...@@ -551,6 +544,10 @@ int main(int argc, char **argv) ...@@ -551,6 +544,10 @@ int main(int argc, char **argv)
delay = atoi(optarg); delay = atoi(optarg);
break; break;
case 'H':
slot = atoi(optarg);
break;
default: default:
case 'h': case 'h':
printf("%s -h(elp) -p(extended_prefix) -N cell_id -f output_filename -F input_filename -g channel_model -n n_frames -s snr0 -S snr1 -x transmission_mode -y TXant -z RXant -i Intefrence0 -j Interference1 -A interpolation_file -C(alibration offset dB) -N CellId\n", printf("%s -h(elp) -p(extended_prefix) -N cell_id -f output_filename -F input_filename -g channel_model -n n_frames -s snr0 -S snr1 -x transmission_mode -y TXant -z RXant -i Intefrence0 -j Interference1 -A interpolation_file -C(alibration offset dB) -N CellId\n",
...@@ -584,6 +581,7 @@ int main(int argc, char **argv) ...@@ -584,6 +581,7 @@ int main(int argc, char **argv)
printf("-f raw file containing RRC configuration (generated by gNB)\n"); printf("-f raw file containing RRC configuration (generated by gNB)\n");
printf("-g Channel model: [A] TDLA30, [B] TDLB100, [C] TDLC300, e.g. -g A\n"); printf("-g Channel model: [A] TDLA30, [B] TDLB100, [C] TDLC300, e.g. -g A\n");
printf("-h This message\n"); printf("-h This message\n");
printf("-H Slot number\n");
printf("-i Change channel estimation technique. Arguments list: Frequency domain {0:Linear interpolation, 1:PRB based averaging}, Time domain {0:Estimates of last DMRS symbol, 1:Average of DMRS symbols}\n"); printf("-i Change channel estimation technique. Arguments list: Frequency domain {0:Linear interpolation, 1:PRB based averaging}, Time domain {0:Estimates of last DMRS symbol, 1:Average of DMRS symbols}\n");
printf("-m Numerology\n"); printf("-m Numerology\n");
printf("-n Number of frames to simulate\n"); printf("-n Number of frames to simulate\n");
...@@ -606,13 +604,12 @@ int main(int argc, char **argv) ...@@ -606,13 +604,12 @@ int main(int argc, char **argv)
printf("-T Enable PTRS, arguments list L_PTRS{0,1,2} K_PTRS{2,4}, e.g. -T 2 0 2 \n"); printf("-T Enable PTRS, arguments list L_PTRS{0,1,2} K_PTRS{2,4}, e.g. -T 2 0 2 \n");
printf("-U Change DMRS Config, arguments list DMRS TYPE{0=A,1=B} DMRS AddPos{0:2} DMRS ConfType{1:2}, e.g. -U 3 0 2 1 \n"); printf("-U Change DMRS Config, arguments list DMRS TYPE{0=A,1=B} DMRS AddPos{0:2} DMRS ConfType{1:2}, e.g. -U 3 0 2 1 \n");
printf("-X gNB thread pool configuration, n => no threads\n"); printf("-X gNB thread pool configuration, n => no threads\n");
printf("-Y Run initial sync in UE\n");
printf("-Z Output filename (.csv format) for stats\n"); printf("-Z Output filename (.csv format) for stats\n");
exit (-1); exit (-1);
break; break;
} }
} }
printf("%d\n", slot);
logInit(); logInit();
set_glog(loglvl); set_glog(loglvl);
/* initialize the sin table */ /* initialize the sin table */
...@@ -648,6 +645,11 @@ int main(int argc, char **argv) ...@@ -648,6 +645,11 @@ int main(int argc, char **argv)
fill_scc_sim(scc, &ssb_bitmap, N_RB_DL, N_RB_DL, mu, mu); fill_scc_sim(scc, &ssb_bitmap, N_RB_DL, N_RB_DL, mu, mu);
fix_scc(scc, ssb_bitmap); fix_scc(scc, ssb_bitmap);
frame_structure_t frame_structure = {0};
frame_type_t frame_type = TDD;
config_frame_structure(mu, scc, get_tdd_period_idx(scc->tdd_UL_DL_ConfigurationCommon), frame_type, &frame_structure);
AssertFatal(is_dl_slot(slot, &frame_structure), "The slot selected is not DL. Can't run DLSIM\n");
// TODO do a UECAP for phy-sim // TODO do a UECAP for phy-sim
nr_pdsch_AntennaPorts_t pdsch_AntennaPorts = {0}; nr_pdsch_AntennaPorts_t pdsch_AntennaPorts = {0};
pdsch_AntennaPorts.N1 = n_tx > 1 ? n_tx >> 1 : 1; pdsch_AntennaPorts.N1 = n_tx > 1 ? n_tx >> 1 : 1;
...@@ -658,6 +660,7 @@ int main(int argc, char **argv) ...@@ -658,6 +660,7 @@ int main(int argc, char **argv)
.minRXTXTIME = 6, .minRXTXTIME = 6,
.do_CSIRS = 0, .do_CSIRS = 0,
.do_SRS = 0, .do_SRS = 0,
.maxMIMO_layers = g_nrOfLayers,
.force_256qam_off = false, .force_256qam_off = false,
.timer_config.sr_ProhibitTimer = 0, .timer_config.sr_ProhibitTimer = 0,
.timer_config.sr_TransMax = 64, .timer_config.sr_TransMax = 64,
...@@ -843,11 +846,7 @@ int main(int argc, char **argv) ...@@ -843,11 +846,7 @@ int main(int argc, char **argv)
UE->nrLDPC_coding_interface = gNB->nrLDPC_coding_interface; UE->nrLDPC_coding_interface = gNB->nrLDPC_coding_interface;
UE->max_ldpc_iterations = max_ldpc_iterations; UE->max_ldpc_iterations = max_ldpc_iterations;
init_nr_ue_phy_cpu_stats(&UE->phy_cpu_stats); init_nr_ue_phy_cpu_stats(&UE->phy_cpu_stats);
UE->is_synchronized = 1;
if (run_initial_sync==1)
UE->is_synchronized = 0;
else
UE->is_synchronized = 1;
if (init_nr_ue_signal(UE, 1) != 0) if (init_nr_ue_signal(UE, 1) != 0)
{ {
...@@ -1048,15 +1047,13 @@ int main(int argc, char **argv) ...@@ -1048,15 +1047,13 @@ int main(int argc, char **argv)
msgDataTx->ssb[0].ssb_pdu.ssb_pdu_rel15.bchPayload=0x001234; msgDataTx->ssb[0].ssb_pdu.ssb_pdu_rel15.bchPayload=0x001234;
msgDataTx->ssb[0].ssb_pdu.ssb_pdu_rel15.SsbBlockIndex = 0; msgDataTx->ssb[0].ssb_pdu.ssb_pdu_rel15.SsbBlockIndex = 0;
msgDataTx->gNB = gNB; msgDataTx->gNB = gNB;
if (run_initial_sync) {
nr_common_signal_procedures(gNB,frame,slot,msgDataTx->ssb[0].ssb_pdu); start_meas(&gNB->phy_proc_tx);
} else { phy_procedures_gNB_TX(msgDataTx,frame,slot,1);
start_meas(&gNB->phy_proc_tx); stop_meas(&gNB->phy_proc_tx);
phy_procedures_gNB_TX(msgDataTx,frame,slot,1);
stop_meas(&gNB->phy_proc_tx);
}
int txdataF_offset = slot * frame_parms->samples_per_slot_wCP; int txdataF_offset = slot * frame_parms->samples_per_slot_wCP;
if (n_trials==1) { if (n_trials==1) {
LOG_M("txsigF0.m","txsF0=", LOG_M("txsigF0.m","txsF0=",
&gNB->common_vars.txdataF[0][0][txdataF_offset +2 * frame_parms->ofdm_symbol_size], &gNB->common_vars.txdataF[0][0][txdataF_offset +2 * frame_parms->ofdm_symbol_size],
......
...@@ -626,6 +626,11 @@ int main(int argc, char *argv[]) ...@@ -626,6 +626,11 @@ int main(int argc, char *argv[])
fill_scc_sim(scc, &ssb_bitmap, N_RB_DL, N_RB_DL, mu, mu); fill_scc_sim(scc, &ssb_bitmap, N_RB_DL, N_RB_DL, mu, mu);
fix_scc(scc,ssb_bitmap); fix_scc(scc,ssb_bitmap);
frame_structure_t frame_structure = {0};
frame_type_t frame_type = TDD;
config_frame_structure(mu, scc, get_tdd_period_idx(scc->tdd_UL_DL_ConfigurationCommon), frame_type, &frame_structure);
AssertFatal(is_ul_slot(slot, &frame_structure), "The slot selected is not UL. Can't run ULSIM\n");
// TODO do a UECAP for phy-sim // TODO do a UECAP for phy-sim
const nr_mac_config_t conf = {.pdsch_AntennaPorts = {.N1 = 1, .N2 = 1, .XP = 1}, const nr_mac_config_t conf = {.pdsch_AntennaPorts = {.N1 = 1, .N2 = 1, .XP = 1},
.pusch_AntennaPorts = n_rx, .pusch_AntennaPorts = n_rx,
......
...@@ -274,15 +274,29 @@ void fill_scc_sim(NR_ServingCellConfigCommon_t *scc, uint64_t *ssb_bitmap, int N ...@@ -274,15 +274,29 @@ void fill_scc_sim(NR_ServingCellConfigCommon_t *scc, uint64_t *ssb_bitmap, int N
scc->dmrs_TypeA_Position = NR_ServingCellConfigCommon__dmrs_TypeA_Position_pos2; scc->dmrs_TypeA_Position = NR_ServingCellConfigCommon__dmrs_TypeA_Position_pos2;
*scc->ssbSubcarrierSpacing = mu_dl; *scc->ssbSubcarrierSpacing = mu_dl;
struct NR_FrequencyInfoDL *frequencyInfoDL = scc->downlinkConfigCommon->frequencyInfoDL; NR_FrequencyInfoDL_t *frequencyInfoDL = scc->downlinkConfigCommon->frequencyInfoDL;
if (mu_dl == 0) { NR_TDD_UL_DL_ConfigCommon_t *tdd_UL_DL_Config = scc->tdd_UL_DL_ConfigurationCommon;
*frequencyInfoDL->absoluteFrequencySSB = 520432; switch (mu_dl) {
*frequencyInfoDL->frequencyBandList.list.array[0] = 38; case 0 :
frequencyInfoDL->absoluteFrequencyPointA = 520000; *frequencyInfoDL->absoluteFrequencySSB = 520432;
} else { *frequencyInfoDL->frequencyBandList.list.array[0] = 38;
*frequencyInfoDL->absoluteFrequencySSB = 641032; frequencyInfoDL->absoluteFrequencyPointA = 520000;
*frequencyInfoDL->frequencyBandList.list.array[0] = 78; tdd_UL_DL_Config->pattern1.dl_UL_TransmissionPeriodicity = NR_TDD_UL_DL_Pattern__dl_UL_TransmissionPeriodicity_ms10;
frequencyInfoDL->absoluteFrequencyPointA = 640000; break;
case 1 :
*frequencyInfoDL->absoluteFrequencySSB = 641032;
*frequencyInfoDL->frequencyBandList.list.array[0] = 78;
frequencyInfoDL->absoluteFrequencyPointA = 640000;
tdd_UL_DL_Config->pattern1.dl_UL_TransmissionPeriodicity = NR_TDD_UL_DL_Pattern__dl_UL_TransmissionPeriodicity_ms5;
break;
case 3 :
*frequencyInfoDL->absoluteFrequencySSB = 2071387;
*frequencyInfoDL->frequencyBandList.list.array[0] = 257;
frequencyInfoDL->absoluteFrequencyPointA = 2071003;
tdd_UL_DL_Config->pattern1.dl_UL_TransmissionPeriodicity = NR_TDD_UL_DL_Pattern__dl_UL_TransmissionPeriodicity_ms1p25;
break;
default :
AssertFatal(false, "Numerolgy %d not supported\n", mu_dl);
} }
*frequencyInfoDL->scs_SpecificCarrierList.list.array[0] = configure_scs_carrier(mu_dl, N_RB_DL); *frequencyInfoDL->scs_SpecificCarrierList.list.array[0] = configure_scs_carrier(mu_dl, N_RB_DL);
...@@ -306,7 +320,19 @@ void fill_scc_sim(NR_ServingCellConfigCommon_t *scc, uint64_t *ssb_bitmap, int N ...@@ -306,7 +320,19 @@ void fill_scc_sim(NR_ServingCellConfigCommon_t *scc, uint64_t *ssb_bitmap, int N
timedomainresourceallocation1); timedomainresourceallocation1);
struct NR_FrequencyInfoUL *frequencyInfoUL = scc->uplinkConfigCommon->frequencyInfoUL; struct NR_FrequencyInfoUL *frequencyInfoUL = scc->uplinkConfigCommon->frequencyInfoUL;
*frequencyInfoUL->frequencyBandList->list.array[0] = mu_ul ? 78 : 38; switch (mu_ul) {
case 0 :
*frequencyInfoUL->frequencyBandList->list.array[0] = 38;
break;
case 1 :
*frequencyInfoUL->frequencyBandList->list.array[0] = 78;
break;
case 3 :
*frequencyInfoUL->frequencyBandList->list.array[0] = 257;
break;
default :
AssertFatal(false, "Numerolgy %d not supported\n", mu_ul);
}
*frequencyInfoUL->absoluteFrequencyPointA = -1; *frequencyInfoUL->absoluteFrequencyPointA = -1;
*frequencyInfoUL->scs_SpecificCarrierList.list.array[0] = configure_scs_carrier(mu_ul, N_RB_UL); *frequencyInfoUL->scs_SpecificCarrierList.list.array[0] = configure_scs_carrier(mu_ul, N_RB_UL);
*frequencyInfoUL->p_Max = 20; *frequencyInfoUL->p_Max = 20;
...@@ -348,18 +374,15 @@ void fill_scc_sim(NR_ServingCellConfigCommon_t *scc, uint64_t *ssb_bitmap, int N ...@@ -348,18 +374,15 @@ void fill_scc_sim(NR_ServingCellConfigCommon_t *scc, uint64_t *ssb_bitmap, int N
scc->ssb_PositionsInBurst->present = NR_ServingCellConfigCommon__ssb_PositionsInBurst_PR_mediumBitmap; scc->ssb_PositionsInBurst->present = NR_ServingCellConfigCommon__ssb_PositionsInBurst_PR_mediumBitmap;
*ssb_bitmap = 0xff; *ssb_bitmap = 0xff;
struct NR_TDD_UL_DL_ConfigCommon *tdd_UL_DL_ConfigurationCommon = scc->tdd_UL_DL_ConfigurationCommon; tdd_UL_DL_Config->referenceSubcarrierSpacing = mu_dl;
tdd_UL_DL_ConfigurationCommon->referenceSubcarrierSpacing = mu_dl;
NR_TDD_UL_DL_Pattern_t *p1 = &tdd_UL_DL_ConfigurationCommon->pattern1; NR_TDD_UL_DL_Pattern_t *p1 = &tdd_UL_DL_Config->pattern1;
p1->dl_UL_TransmissionPeriodicity = (mu_dl == 0) ? NR_TDD_UL_DL_Pattern__dl_UL_TransmissionPeriodicity_ms10
: NR_TDD_UL_DL_Pattern__dl_UL_TransmissionPeriodicity_ms5;
p1->nrofDownlinkSlots = 7; p1->nrofDownlinkSlots = 7;
p1->nrofDownlinkSymbols = 6; p1->nrofDownlinkSymbols = 6;
p1->nrofUplinkSlots = 2; p1->nrofUplinkSlots = 2;
p1->nrofUplinkSymbols = 4; p1->nrofUplinkSymbols = 4;
struct NR_TDD_UL_DL_Pattern *p2 = tdd_UL_DL_ConfigurationCommon->pattern2; struct NR_TDD_UL_DL_Pattern *p2 = tdd_UL_DL_Config->pattern2;
if (p2) { if (p2) {
p2->dl_UL_TransmissionPeriodicity = 321; p2->dl_UL_TransmissionPeriodicity = 321;
p2->nrofDownlinkSlots = -1; p2->nrofDownlinkSlots = -1;
......
...@@ -63,95 +63,84 @@ uint32_t nr_compute_tbs(uint16_t Qm, ...@@ -63,95 +63,84 @@ uint32_t nr_compute_tbs(uint16_t Qm,
const uint32_t nb_re = min(156, nbp_re) * nb_rb; const uint32_t nb_re = min(156, nbp_re) * nb_rb;
// Intermediate number of information bits // Intermediate number of information bits
// Rx1024 is tabulated as 10 times the actual code rate // Rx1024 is tabulated as 10 times the actual code rate
const uint32_t R_5 = R/5; // R can be fractional so we can't divide by 10 const uint32_t R_5 = R / 5; // R can be fractional so we can't divide by 10
// So we ned to right shift by 11 (10 for x1024 and 1 additional as above) // So we ned to right shift by 11 (10 for x1024 and 1 additional as above)
const uint32_t Ninfo = ((nb_re * R_5 * Qm * Nl)>>11)>>tb_scaling; const uint32_t Ninfo = ((nb_re * R_5 * Qm * Nl) >> 11) >> tb_scaling;
uint32_t nr_tbs = 0;
uint32_t nr_tbs=0;
uint32_t Np_info, C, n; uint32_t Np_info, C, n;
if (Ninfo <= NR_MAX_PDSCH_TBS) { if (Ninfo <= NR_MAX_PDSCH_TBS) {
n = max(3, floor(log2(Ninfo)) - 6); n = max(3, floor(log2(Ninfo)) - 6);
Np_info = max(24, (Ninfo>>n)<<n); Np_info = max(24, (Ninfo >> n) << n);
for (int i=0; i<INDEX_MAX_TBS_TABLE; i++) { for (int i = 0; i < INDEX_MAX_TBS_TABLE; i++) {
if (Tbstable_nr[i] >= Np_info){ if (Tbstable_nr[i] >= Np_info){
nr_tbs = Tbstable_nr[i]; nr_tbs = Tbstable_nr[i];
break; break;
}
} }
}
} else { } else {
n = log2(Ninfo-24)-5; n = log2(Ninfo - 24) - 5;
Np_info = max(3840, (ROUNDIDIV((Ninfo-24),(1<<n)))<<n); Np_info = max(3840, (ROUNDIDIV((Ninfo - 24), (1 << n))) << n);
if (R <= 2560) { if (R <= 2560) {
C = CEILIDIV((Np_info+24),3816); C = CEILIDIV((Np_info + 24), 3816);
nr_tbs = (C<<3)*CEILIDIV((Np_info+24),(C<<3)) - 24; nr_tbs = (C << 3) * CEILIDIV((Np_info + 24), (C << 3)) - 24;
} else { } else {
if (Np_info > 8424){ if (Np_info > 8424){
C = CEILIDIV((Np_info+24),8424); C = CEILIDIV((Np_info + 24), 8424);
nr_tbs = (C<<3)*CEILIDIV((Np_info+24),(C<<3)) - 24; nr_tbs = (C << 3) * CEILIDIV((Np_info + 24), (C << 3)) - 24;
} else { } else {
nr_tbs = ((CEILIDIV((Np_info+24),8))<<3) - 24; nr_tbs = ((CEILIDIV((Np_info + 24), 8)) << 3) - 24;
} }
} }
} }
LOG_D(NR_MAC, "Ninfo %u nbp_re %d nb_re %d Qm %d, R %d, tbs %d bits\n", Ninfo, nbp_re, nb_re, Qm, R, nr_tbs); LOG_D(NR_MAC, "Ninfo %u nbp_re %d nb_re %d Qm %d, R %d, tbs %d bits\n", Ninfo, nbp_re, nb_re, Qm, R, nr_tbs);
return nr_tbs; return nr_tbs;
} }
//tbslbrm calculation according to 5.4.2.1 of 38.212 //tbslbrm calculation according to 5.4.2.1 of 38.212
uint32_t nr_compute_tbslbrm(uint16_t table, uint32_t nr_compute_tbslbrm(uint16_t table, uint16_t nb_rb, uint8_t Nl)
uint16_t nb_rb, {
uint8_t Nl) { uint16_t nb_rb_lbrm = 0;
for (int i = 0; i < 7; i++) {
uint16_t R, nb_re;
uint16_t nb_rb_lbrm=0;
uint8_t Qm;
int i;
uint32_t nr_tbs=0;
uint32_t Ninfo, Np_info, C;
uint8_t n;
for (i=0; i<7; i++) {
if (NPRB_LBRM[i] >= nb_rb){ if (NPRB_LBRM[i] >= nb_rb){
nb_rb_lbrm = NPRB_LBRM[i]; nb_rb_lbrm = NPRB_LBRM[i];
break; break;
} }
} }
Qm = ((table == 1)? 8 : 6); int Qm = (table == 1) ? 8 : 6;
R = 948; uint32_t R = 948;
nb_re = 156 * nb_rb_lbrm; uint32_t nb_re = 156 * nb_rb_lbrm;
// Intermediate number of information bits // Intermediate number of information bits
Ninfo = (nb_re * R * Qm * Nl)>>10; uint32_t Ninfo = (nb_re * R * Qm * Nl) >> 10;
uint32_t nr_tbs = 0;
uint32_t Np_info, n;
if (Ninfo <= NR_MAX_PDSCH_TBS) { if (Ninfo <= NR_MAX_PDSCH_TBS) {
n = max(3, floor(log2(Ninfo)) - 6); n = max(3, floor(log2(Ninfo)) - 6);
Np_info = max(24, (Ninfo>>n)<<n); Np_info = max(24, (Ninfo >> n) << n);
for (int i=0; i<INDEX_MAX_TBS_TABLE; i++) { for (int i = 0; i < INDEX_MAX_TBS_TABLE; i++) {
if (Tbstable_nr[i] >= Np_info){ if (Tbstable_nr[i] >= Np_info){
nr_tbs = Tbstable_nr[i]; nr_tbs = Tbstable_nr[i];
break; break;
} }
} }
} else { } else {
n = log2(Ninfo-24)-5; n = log2(Ninfo - 24) - 5;
Np_info = max(3840, (ROUNDIDIV((Ninfo-24),(1<<n)))<<n); Np_info = max(3840, (ROUNDIDIV((Ninfo - 24), (1 << n))) << n);
int C;
if (R <= 256) { if (R <= 256) {
C = CEILIDIV((Np_info+24),3816); C = CEILIDIV((Np_info + 24), 3816);
nr_tbs = (C<<3)*CEILIDIV((Np_info+24),(C<<3)) - 24; nr_tbs = (C << 3) * CEILIDIV((Np_info + 24), (C << 3)) - 24;
} }
else { else {
if (Np_info > 8424){ if (Np_info > 8424){
C = CEILIDIV((Np_info+24),8424); C = CEILIDIV((Np_info + 24), 8424);
nr_tbs = (C<<3)*CEILIDIV((Np_info+24),(C<<3)) - 24; nr_tbs = (C << 3) * CEILIDIV((Np_info + 24), (C << 3)) - 24;
} }
else else
nr_tbs = ((CEILIDIV((Np_info+24),8))<<3) - 24; nr_tbs = ((CEILIDIV((Np_info + 24), 8)) << 3) - 24;
} }
} }
return nr_tbs; return nr_tbs;
......
...@@ -500,34 +500,28 @@ int get_ul_slot_offset(const frame_structure_t *fs, int idx, bool count_mixed) ...@@ -500,34 +500,28 @@ int get_ul_slot_offset(const frame_structure_t *fs, int idx, bool count_mixed)
* *
* @param mu numerology * @param mu numerology
* @param scc pointer to scc * @param scc pointer to scc
* @param cfg pointer to NFAPI config request * @param tdd_period TDD period
* @param frame_type type of frame structure (FDD or TDD)
* @param fs pointer to the frame structure to update * @param fs pointer to the frame structure to update
*
* @return Number of periods in frame
*/ */
static int config_frame_structure(int mu, void config_frame_structure(int mu,
NR_ServingCellConfigCommon_t *scc, NR_ServingCellConfigCommon_t *scc,
nfapi_nr_config_request_scf_t *cfg, uint8_t tdd_period,
frame_structure_t *fs) uint8_t frame_type,
frame_structure_t *fs)
{ {
fs->numb_slots_frame = nr_slots_per_frame[mu]; fs->numb_slots_frame = nr_slots_per_frame[mu];
if (cfg->cell_config.frame_duplex_type.value == TDD) { if (frame_type == TDD) {
cfg->tdd_table.tdd_period.tl.tag = NFAPI_NR_CONFIG_TDD_PERIOD_TAG; fs->numb_period_frame = get_nb_periods_per_frame(tdd_period);
cfg->num_tlv++;
cfg->tdd_table.tdd_period.value = get_tdd_period_idx(scc->tdd_UL_DL_ConfigurationCommon);
LOG_D(NR_MAC, "Setting TDD configuration period to %d\n", cfg->tdd_table.tdd_period.value);
fs->numb_period_frame = get_nb_periods_per_frame(cfg->tdd_table.tdd_period.value);
fs->numb_slots_period = fs->numb_slots_frame / fs->numb_period_frame; fs->numb_slots_period = fs->numb_slots_frame / fs->numb_period_frame;
fs->is_tdd = true; fs->is_tdd = true;
config_tdd_patterns(scc->tdd_UL_DL_ConfigurationCommon, fs); config_tdd_patterns(scc->tdd_UL_DL_ConfigurationCommon, fs);
set_tdd_config_nr(cfg, fs);
} else { // FDD } else { // FDD
fs->is_tdd = false; fs->is_tdd = false;
fs->numb_period_frame = 1; fs->numb_period_frame = 1;
fs->numb_slots_period = nr_slots_per_frame[mu]; fs->numb_slots_period = nr_slots_per_frame[mu];
} }
AssertFatal(fs->numb_period_frame > 0, "Frame configuration cannot be configured!\n"); AssertFatal(fs->numb_period_frame > 0, "Frame configuration cannot be configured!\n");
return fs->numb_period_frame;
} }
static void config_common(gNB_MAC_INST *nrmac, static void config_common(gNB_MAC_INST *nrmac,
...@@ -819,7 +813,16 @@ static void config_common(gNB_MAC_INST *nrmac, ...@@ -819,7 +813,16 @@ static void config_common(gNB_MAC_INST *nrmac,
// Frame structure configuration // Frame structure configuration
uint8_t mu = frequencyInfoUL->scs_SpecificCarrierList.list.array[0]->subcarrierSpacing; uint8_t mu = frequencyInfoUL->scs_SpecificCarrierList.list.array[0]->subcarrierSpacing;
config_frame_structure(mu, scc, cfg, &nrmac->frame_structure); if (cfg->cell_config.frame_duplex_type.value == TDD) {
cfg->tdd_table.tdd_period.tl.tag = NFAPI_NR_CONFIG_TDD_PERIOD_TAG;
cfg->num_tlv++;
cfg->tdd_table.tdd_period.value = get_tdd_period_idx(scc->tdd_UL_DL_ConfigurationCommon);
LOG_D(NR_MAC, "Setting TDD configuration period to %d\n", cfg->tdd_table.tdd_period.value);
}
frame_structure_t *fs = &nrmac->frame_structure;
config_frame_structure(mu, scc, cfg->tdd_table.tdd_period.value, cfg->cell_config.frame_duplex_type.value, fs);
if (cfg->cell_config.frame_duplex_type.value == TDD)
set_tdd_config_nr(cfg, fs);
int nb_tx = config->nb_bfw[0]; // number of tx antennas int nb_tx = config->nb_bfw[0]; // number of tx antennas
int nb_beams = config->nb_bfw[1]; // number of beams int nb_beams = config->nb_bfw[1]; // number of beams
......
...@@ -39,6 +39,11 @@ void set_cset_offset(uint16_t); ...@@ -39,6 +39,11 @@ void set_cset_offset(uint16_t);
void get_K1_K2(int N1, int N2, int *K1, int *K2, int layers); void get_K1_K2(int N1, int N2, int *K1, int *K2, int layers);
int get_NTN_Koffset(const NR_ServingCellConfigCommon_t *scc); int get_NTN_Koffset(const NR_ServingCellConfigCommon_t *scc);
void config_frame_structure(int mu,
NR_ServingCellConfigCommon_t *scc,
uint8_t tdd_period,
uint8_t frame_type,
frame_structure_t *fs);
int get_first_ul_slot(const frame_structure_t *fs, bool mixed); int get_first_ul_slot(const frame_structure_t *fs, bool mixed);
int get_ul_slots_per_period(const frame_structure_t *fs); int get_ul_slots_per_period(const frame_structure_t *fs);
int get_ul_slots_per_frame(const frame_structure_t *fs); int get_ul_slots_per_frame(const frame_structure_t *fs);
......
...@@ -566,9 +566,8 @@ static void config_csiim(int do_csirs, ...@@ -566,9 +566,8 @@ static void config_csiim(int do_csirs,
void set_dl_maxmimolayers(NR_PDSCH_ServingCellConfig_t *pdsch_servingcellconfig, void set_dl_maxmimolayers(NR_PDSCH_ServingCellConfig_t *pdsch_servingcellconfig,
const NR_ServingCellConfigCommon_t *scc, const NR_ServingCellConfigCommon_t *scc,
const NR_UE_NR_Capability_t *uecap, const NR_UE_NR_Capability_t *uecap,
int maxMIMO_layers) int maxMIMO_layers)
{ {
if(!pdsch_servingcellconfig->ext1) if(!pdsch_servingcellconfig->ext1)
pdsch_servingcellconfig->ext1=calloc(1,sizeof(*pdsch_servingcellconfig->ext1)); pdsch_servingcellconfig->ext1=calloc(1,sizeof(*pdsch_servingcellconfig->ext1));
if(!pdsch_servingcellconfig->ext1->maxMIMO_Layers) if(!pdsch_servingcellconfig->ext1->maxMIMO_Layers)
...@@ -871,6 +870,8 @@ void prepare_sim_uecap(NR_UE_NR_Capability_t *cap, ...@@ -871,6 +870,8 @@ void prepare_sim_uecap(NR_UE_NR_Capability_t *cap,
fs_cc->supportedBandwidthDL.present = NR_SupportedBandwidth_PR_fr1; fs_cc->supportedBandwidthDL.present = NR_SupportedBandwidth_PR_fr1;
fs_cc->supportedBandwidthDL.choice.fr1 = bw; fs_cc->supportedBandwidthDL.choice.fr1 = bw;
} }
fs_cc->maxNumberMIMO_LayersPDSCH = calloc(1, sizeof(*fs_cc->maxNumberMIMO_LayersPDSCH));
*fs_cc->maxNumberMIMO_LayersPDSCH = NR_MIMO_LayersDL_fourLayers;
fs_cc->supportedModulationOrderDL = calloc(1, sizeof(*fs_cc->supportedModulationOrderDL)); fs_cc->supportedModulationOrderDL = calloc(1, sizeof(*fs_cc->supportedModulationOrderDL));
*fs_cc->supportedModulationOrderDL = NR_ModulationOrder_qam256; *fs_cc->supportedModulationOrderDL = NR_ModulationOrder_qam256;
asn1cSeqAdd(&fs->featureSetsDownlinkPerCC->list, fs_cc); asn1cSeqAdd(&fs->featureSetsDownlinkPerCC->list, fs_cc);
......
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