Commit 9aba6d72 authored by Laurent THOMAS's avatar Laurent THOMAS Committed by Robert Schmidt

fix bugs in polar encode, when len+crc_len>64

parent e8278de1
......@@ -422,7 +422,6 @@ void polar_encoder_fast(uint64_t *A,
// AssertFatal(polarParams->K > 32, "K = %d < 33, is not supported yet\n",polarParams->K);
AssertFatal(polarParams->K < 129, "K = %d > 128, is not supported yet\n",polarParams->K);
AssertFatal(polarParams->payloadBits < 65, "payload bits = %d > 64, is not supported yet\n",polarParams->payloadBits);
uint64_t B[4]= {0,0,0,0},Cprime[4]= {0,0,0,0};
int bitlen = polarParams->payloadBits;
// append crc
AssertFatal(bitlen<129,"support for payloads <= 128 bits\n");
......@@ -451,9 +450,12 @@ void polar_encoder_fast(uint64_t *A,
A32_flip[1+offset]=((uint8_t *)&Aprime)[2];
A32_flip[2+offset]=((uint8_t *)&Aprime)[1];
A32_flip[3+offset]=((uint8_t *)&Aprime)[0];
if (polarParams->crcParityBits == 24) tcrc = (uint64_t)(((crcmask^(crc24c(A32_flip,8*offset+bitlen)>>8)))&0xffffff);
else if (polarParams->crcParityBits == 11) tcrc = (uint64_t)(((crcmask^(crc11(A32_flip,bitlen)>>21)))&0x7ff);
else if (polarParams->crcParityBits == 6) tcrc = (uint64_t)(((crcmask^(crc6(A32_flip,bitlen)>>26)))&0x3f);
if (polarParams->crcParityBits == 24)
tcrc = (uint64_t)(((crcmask^(crc24c(A32_flip,8*offset+bitlen)>>8)))&0xffffff);
else if (polarParams->crcParityBits == 11)
tcrc = (uint64_t)(((crcmask^(crc11(A32_flip,bitlen)>>21)))&0x7ff);
else if (polarParams->crcParityBits == 6)
tcrc = (uint64_t)(((crcmask^(crc6(A32_flip,bitlen)>>26)))&0x3f);
} else if (bitlen<=64) {
uint8_t A64_flip[8+offset];
if (ones_flag) {
......@@ -470,8 +472,10 @@ void polar_encoder_fast(uint64_t *A,
A64_flip[5+offset]=((uint8_t *)&Aprime)[2];
A64_flip[6+offset]=((uint8_t *)&Aprime)[1];
A64_flip[7+offset]=((uint8_t *)&Aprime)[0];
if (polarParams->crcParityBits == 24) tcrc = (uint64_t)((crcmask^(crc24c(A64_flip,8*offset+bitlen)>>8)))&0xffffff;
else if (polarParams->crcParityBits == 11) tcrc = (uint64_t)((crcmask^(crc11(A64_flip,bitlen)>>21)))&0x7ff;
if (polarParams->crcParityBits == 24)
tcrc = (uint64_t)((crcmask^(crc24c(A64_flip,8*offset+bitlen)>>8)))&0xffffff;
else if (polarParams->crcParityBits == 11)
tcrc = (uint64_t)((crcmask^(crc11(A64_flip,bitlen)>>21)))&0x7ff;
}
else if (bitlen<=128) {
uint8_t A128_flip[16+offset];
......@@ -481,35 +485,34 @@ void polar_encoder_fast(uint64_t *A,
A128_flip[2] = 0xff;
}
uint128_t Aprime= (uint128_t)(((uint128_t)*A)<<(128-bitlen));
A128_flip[0+offset]=((uint8_t*)&Aprime)[15]; A128_flip[1+offset]=((uint8_t*)&Aprime)[14];
A128_flip[2+offset]=((uint8_t*)&Aprime)[13]; A128_flip[3+offset]=((uint8_t*)&Aprime)[12];
A128_flip[4+offset]=((uint8_t*)&Aprime)[11]; A128_flip[5+offset]=((uint8_t*)&Aprime)[10];
A128_flip[6+offset] =((uint8_t*)&Aprime)[9]; A128_flip[7+offset] =((uint8_t*)&Aprime)[8];
A128_flip[8+offset] =((uint8_t*)&Aprime)[7]; A128_flip[9+offset] =((uint8_t*)&Aprime)[6];
A128_flip[10+offset]=((uint8_t*)&Aprime)[5]; A128_flip[11+offset]=((uint8_t*)&Aprime)[4];
A128_flip[12+offset]=((uint8_t*)&Aprime)[3]; A128_flip[13+offset]=((uint8_t*)&Aprime)[2];
A128_flip[14+offset]=((uint8_t*)&Aprime)[1]; A128_flip[15+offset]=((uint8_t*)&Aprime)[0];
if (polarParams->crcParityBits == 24) tcrc = (uint64_t)((crcmask^(crc24c(A128_flip,8*offset+bitlen)>>8)))&0xffffff;
else if (polarParams->crcParityBits == 11) tcrc = (uint64_t)((crcmask^(crc11(A128_flip,bitlen)>>21)))&0x7ff;
for (int i=0; i<16 ; i++)
A128_flip[i+offset]=((uint8_t*)&Aprime)[15-i];
if (polarParams->crcParityBits == 24)
tcrc = (uint64_t)((crcmask^(crc24c(A128_flip,8*offset+bitlen)>>8)))&0xffffff;
else if (polarParams->crcParityBits == 11)
tcrc = (uint64_t)((crcmask^(crc11(A128_flip,bitlen)>>21)))&0x7ff;
}
int n;
// this is number of quadwords in the bit string
int quadwlen = (polarParams->K>>6);
if ((polarParams->K&63) > 0) quadwlen++;
int quadwlen = (polarParams->K+63)/64;
// Create the B bit string as
// 0, 0, ..., 0, a'_0, a'_1, ..., a'_A-1, p_0, p_1, ..., p_{N_parity-1}
//??? b_{N'-1} b_{N'-2} ... b_{N'-A} b_{N'-A-1} ... b_{N'-A-Nparity} = a_{N-1} a_{N-2} ... a_{N-A} p_{N_parity-1} ... p_0
for (n=0; n<quadwlen; n++) if (n==0) B[n] = (A[n] << polarParams->crcParityBits) | tcrc;
else B[n] = (A[n] << polarParams->crcParityBits) | (A[n-1]>>(64-polarParams->crcParityBits));
uint64_t B[4]= {0};
B[0] = (A[0] << polarParams->crcParityBits) | tcrc;
for (n=1; n<quadwlen; n++)
if ((bitlen+63)/64 > n)
B[n] = (A[n] << polarParams->crcParityBits) | (A[n-1]>>(64-polarParams->crcParityBits));
else
B[n] = (A[n-1]>>(64-polarParams->crcParityBits));
uint8_t *Bbyte = (uint8_t *)B;
// for each byte of B, lookup in corresponding table for 64-bit word corresponding to that byte and its position
uint64_t Cprime[4]= {0};
if (polarParams->K<65)
Cprime[0] = polarParams->cprime_tab0[0][Bbyte[0]] |
polarParams->cprime_tab0[1][Bbyte[1]] |
......
......@@ -850,7 +850,7 @@ static inline void nr_pucch2_3_4_scrambling(uint16_t M_bit,uint16_t rnti,uint16_
printf("\t\t [nr_pucch2_3_4_scrambling] scrambling M_bit=%d bits\n", M_bit);
#endif
}
void nr_uci_encoding(uint64_t payload,
static void nr_uci_encoding(uint64_t payload,
uint8_t nr_bit,
int fmt,
uint8_t is_pi_over_2_bpsk_enabled,
......
......@@ -552,19 +552,17 @@ int main(int argc, char **argv)
if (n_trials==1) printf("txlev %d (%f dB), offset %d, sigma2 %f ( %f dB)\n",txlev,10*log10(txlev),startingSymbolIndex*frame_parms->ofdm_symbol_size,sigma2,sigma2_dB);
int i0;
double txr,txi,rxr,rxi,nr,ni;
int **rxdataF = gNB->common_vars.rxdataF;
struct complex16 **rxdataF = (struct complex16 **)gNB->common_vars.rxdataF;
for (int symb=0; symb<gNB->frame_parms.symbols_per_slot;symb++) {
if (symb<startingSymbolIndex || symb >= startingSymbolIndex+nrofSymbols) {
i0 = symb*gNB->frame_parms.ofdm_symbol_size;
int i0 = symb*gNB->frame_parms.ofdm_symbol_size;
for (int re=0;re<N_RB_DL*12;re++) {
i=i0+((gNB->frame_parms.first_carrier_offset + re)%gNB->frame_parms.ofdm_symbol_size);
for (int aarx=0;aarx<n_rx;aarx++) {
nr = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
ni = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
((int16_t*)rxdataF[aarx])[i<<1] = (int16_t)(100.0*(nr)/sqrt((double)txlev));
((int16_t*)rxdataF[aarx])[1+(i<<1)] = (int16_t)(100.0*(ni)/sqrt((double)txlev));
double nr = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
double ni = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
rxdataF[aarx][i].r = (int16_t)(100.0*(nr)/sqrt((double)txlev));
rxdataF[aarx][i].i = (int16_t)(100.0*(ni)/sqrt((double)txlev));
}
}
}
......@@ -572,43 +570,45 @@ int main(int argc, char **argv)
random_channel(UE2gNB,0);
freq_channel(UE2gNB,N_RB_DL,2*N_RB_DL+1,scs/1000);
struct complexd phasor;
double rxr_tmp;
for (int symb=0; symb<nrofSymbols; symb++) {
i0 = (startingSymbolIndex + symb)*gNB->frame_parms.ofdm_symbol_size;
int i0 = (startingSymbolIndex + symb)*gNB->frame_parms.ofdm_symbol_size;
for (int re=0;re<N_RB_DL*12;re++) {
i=i0+((gNB->frame_parms.first_carrier_offset + re)%gNB->frame_parms.ofdm_symbol_size);
struct complexd phasor;
phasor.r = cos(2*M_PI*phase*re);
phasor.i = sin(2*M_PI*phase*re);
for (int aarx=0;aarx<n_rx;aarx++) {
txr = (double)(((int16_t *)txdataF[0])[(i<<1)]);
txi = (double)(((int16_t *)txdataF[0])[1+(i<<1)]);
rxr = txr*UE2gNB->chF[aarx][re].r - txi*UE2gNB->chF[aarx][re].i;
rxi = txr*UE2gNB->chF[aarx][re].i + txi*UE2gNB->chF[aarx][re].r;
rxr_tmp = rxr*phasor.r - rxi*phasor.i;
double txr = (double)(((int16_t *)txdataF[0])[(i<<1)]);
double txi = (double)(((int16_t *)txdataF[0])[1+(i<<1)]);
double rxr={0},rxi={0};
for (int l = 0; l<UE2gNB->channel_length; l++) {
rxr = txr*UE2gNB->chF[aarx][l].r - txi*UE2gNB->chF[aarx][l].i;
rxi = txr*UE2gNB->chF[aarx][l].i + txi*UE2gNB->chF[aarx][l].r;
}
double rxr_tmp = rxr*phasor.r - rxi*phasor.i;
rxi = rxr*phasor.i + rxi*phasor.r;
rxr = rxr_tmp;
nr = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
ni = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
((int16_t*)rxdataF[aarx])[i<<1] = (int16_t)(100.0*(rxr + nr)/sqrt((double)txlev));
((int16_t*)rxdataF[aarx])[1+(i<<1)]=(int16_t)(100.0*(rxi + ni)/sqrt((double)txlev));
double nr = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
double ni = sqrt(sigma2/2)*gaussdouble(0.0,1.0);
rxdataF[aarx][i].r = (int16_t)(100.0*(rxr + nr)/sqrt((double)txlev));
rxdataF[aarx][i].i=(int16_t)(100.0*(rxi + ni)/sqrt((double)txlev));
if (n_trials==1 && abs(txr) > 0) printf("symb %d, re %d , aarx %d : txr %f, txi %f, chr %f, chi %f, nr %f, ni %f, rxr %f, rxi %f => %d,%d\n",
symb, re, aarx, txr,txi,
UE2gNB->chF[aarx][re].r,UE2gNB->chF[aarx][re].i,
nr,ni, rxr,rxi,
((int16_t*)rxdataF[aarx])[i<<1],((int16_t*)rxdataF[aarx])[1+(i<<1)]);
rxdataF[aarx][i].r,rxdataF[aarx][i].i);
}
}
}
int rxlev=0;
for (int aarx=0;aarx<n_rx;aarx++) rxlev += signal_energy(&rxdataF[aarx][startingSymbolIndex*frame_parms->ofdm_symbol_size],
for (int aarx=0;aarx<n_rx;aarx++) rxlev += signal_energy((int32_t*)&rxdataF[aarx][startingSymbolIndex*frame_parms->ofdm_symbol_size],
frame_parms->ofdm_symbol_size);
int rxlev_pucch=0;
for (int aarx=0;aarx<n_rx;aarx++) rxlev_pucch += signal_energy(&rxdataF[aarx][startingSymbolIndex*frame_parms->ofdm_symbol_size],
for (int aarx=0;aarx<n_rx;aarx++) rxlev_pucch += signal_energy((int32_t*)&rxdataF[aarx][startingSymbolIndex*frame_parms->ofdm_symbol_size],
12);
// set UL mask for pucch allocation
......@@ -672,7 +672,7 @@ int main(int argc, char **argv)
free(uci_pdu.harq);
}
else if (format==1) {
nr_decode_pucch1(rxdataF,PUCCH_GroupHopping,hopping_id,
nr_decode_pucch1((int32_t **)rxdataF,PUCCH_GroupHopping,hopping_id,
&(payload_received),frame_parms,amp,nr_slot_tx,
m0,nrofSymbols,startingSymbolIndex,startingPRB,
startingPRB_intraSlotHopping,timeDomainOCC,nr_bit);
......@@ -728,7 +728,8 @@ int main(int argc, char **argv)
break;
}
}
if (gNB->uci_polarParams)
nr_polar_delete(gNB->uci_polarParams);
free_channel_desc_scm(UE2gNB);
term_freq_channel();
......
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