diff --git a/lib/fst280/bpdecode280_101.f90 b/lib/fst280/bpdecode280_101.f90 new file mode 100644 index 000000000..a817a3d5c --- /dev/null +++ b/lib/fst280/bpdecode280_101.f90 @@ -0,0 +1,111 @@ +subroutine bpdecode280_101(llr,apmask,maxiterations,message101,cw,nharderror,iter,ncheck) +! +! A log-domain belief propagation decoder for the (280,101) code. +! + integer, parameter:: N=280, K=101, M=N-K + integer*1 cw(N),apmask(N) + integer*1 decoded(K) + integer*1 message101(101) + integer nrw(M),ncw + integer Nm(6,M) + integer Mn(3,N) ! 3 checks per bit + integer synd(M) + real tov(3,N) + real toc(6,M) + real tanhtoc(6,M) + real zn(N) + real llr(N) + real Tmn + + include "ldpc_280_101_parity.f90" + + decoded=0 + toc=0 + tov=0 + tanhtoc=0 +! initialize messages to checks + do j=1,M + do i=1,nrw(j) + toc(i,j)=llr((Nm(i,j))) + enddo + enddo + + ncnt=0 + nclast=0 + do iter=0,maxiterations +! Update bit log likelihood ratios (tov=0 in iteration 0). + do i=1,N + if( apmask(i) .ne. 1 ) then + zn(i)=llr(i)+sum(tov(1:ncw,i)) + else + zn(i)=llr(i) + endif + enddo + +! Check to see if we have a codeword (check before we do any iteration). + cw=0 + where( zn .gt. 0. ) cw=1 + ncheck=0 + do i=1,M + synd(i)=sum(cw(Nm(1:nrw(i),i))) + if( mod(synd(i),2) .ne. 0 ) ncheck=ncheck+1 +! if( mod(synd(i),2) .ne. 0 ) write(*,*) 'check ',i,' unsatisfied' + enddo + if( ncheck .eq. 0 ) then ! we have a codeword - if crc is good, return it + decoded=cw(1:101) + call get_crc24(decoded,101,nbadcrc) + nharderror=count( (2*cw-1)*llr .lt. 0.0 ) + if(nbadcrc.eq.0) then + message101=decoded(1:101) + return + endif + endif + + if( iter.gt.0 ) then ! this code block implements an early stopping criterion +! if( iter.gt.10000 ) then ! this code block implements an early stopping criterion + nd=ncheck-nclast + if( nd .lt. 0 ) then ! # of unsatisfied parity checks decreased + ncnt=0 ! reset counter + else + ncnt=ncnt+1 + endif +! write(*,*) iter,ncheck,nd,ncnt + if( ncnt .ge. 5 .and. iter .ge. 10 .and. ncheck .gt. 15) then + nharderror=-1 + return + endif + endif + nclast=ncheck + +! Send messages from bits to check nodes + do j=1,M + do i=1,nrw(j) + ibj=Nm(i,j) + toc(i,j)=zn(ibj) + do kk=1,ncw ! subtract off what the bit had received from the check + if( Mn(kk,ibj) .eq. j ) then + toc(i,j)=toc(i,j)-tov(kk,ibj) + endif + enddo + enddo + enddo + +! send messages from check nodes to variable nodes + do i=1,M + tanhtoc(1:6,i)=tanh(-toc(1:6,i)/2) + enddo + + do j=1,N + do i=1,ncw + ichk=Mn(i,j) ! Mn(:,j) are the checks that include bit j + Tmn=product(tanhtoc(1:nrw(ichk),ichk),mask=Nm(1:nrw(ichk),ichk).ne.j) + call platanh(-Tmn,y) +! y=atanh(-Tmn) + tov(i,j)=2*y + enddo + enddo + + enddo + nharderror=-1 + return +end subroutine bpdecode280_101 diff --git a/lib/fst280/bpdecode280_74.f90 b/lib/fst280/bpdecode280_74.f90 new file mode 100644 index 000000000..21b48d8db --- /dev/null +++ b/lib/fst280/bpdecode280_74.f90 @@ -0,0 +1,111 @@ +subroutine bpdecode280_74(llr,apmask,maxiterations,message74,cw,nharderror,iter,ncheck) +! +! A log-domain belief propagation decoder for the (280,74) code. +! + integer, parameter:: N=280, K=74, M=N-K + integer*1 cw(N),apmask(N) + integer*1 decoded(K) + integer*1 message74(74) + integer nrw(M),ncw + integer Nm(5,M) + integer Mn(3,N) ! 3 checks per bit + integer synd(M) + real tov(3,N) + real toc(5,M) + real tanhtoc(5,M) + real zn(N) + real llr(N) + real Tmn + + include "ldpc_280_74_parity.f90" + + decoded=0 + toc=0 + tov=0 + tanhtoc=0 +! initialize messages to checks + do j=1,M + do i=1,nrw(j) + toc(i,j)=llr((Nm(i,j))) + enddo + enddo + + ncnt=0 + nclast=0 + do iter=0,maxiterations +! Update bit log likelihood ratios (tov=0 in iteration 0). + do i=1,N + if( apmask(i) .ne. 1 ) then + zn(i)=llr(i)+sum(tov(1:ncw,i)) + else + zn(i)=llr(i) + endif + enddo + +! Check to see if we have a codeword (check before we do any iteration). + cw=0 + where( zn .gt. 0. ) cw=1 + ncheck=0 + do i=1,M + synd(i)=sum(cw(Nm(1:nrw(i),i))) + if( mod(synd(i),2) .ne. 0 ) ncheck=ncheck+1 +! if( mod(synd(i),2) .ne. 0 ) write(*,*) 'check ',i,' unsatisfied' + enddo + if( ncheck .eq. 0 ) then ! we have a codeword - if crc is good, return it + decoded=cw(1:74) + call get_crc24(decoded,74,nbadcrc) + nharderror=count( (2*cw-1)*llr .lt. 0.0 ) + if(nbadcrc.eq.0) then + message74=decoded(1:74) + return + endif + endif + + if( iter.gt.0 ) then ! this code block implements an early stopping criterion +! if( iter.gt.10000 ) then ! this code block implements an early stopping criterion + nd=ncheck-nclast + if( nd .lt. 0 ) then ! # of unsatisfied parity checks decreased + ncnt=0 ! reset counter + else + ncnt=ncnt+1 + endif +! write(*,*) iter,ncheck,nd,ncnt + if( ncnt .ge. 5 .and. iter .ge. 10 .and. ncheck .gt. 15) then + nharderror=-1 + return + endif + endif + nclast=ncheck + +! Send messages from bits to check nodes + do j=1,M + do i=1,nrw(j) + ibj=Nm(i,j) + toc(i,j)=zn(ibj) + do kk=1,ncw ! subtract off what the bit had received from the check + if( Mn(kk,ibj) .eq. j ) then + toc(i,j)=toc(i,j)-tov(kk,ibj) + endif + enddo + enddo + enddo + +! send messages from check nodes to variable nodes + do i=1,M + tanhtoc(1:5,i)=tanh(-toc(1:5,i)/2) + enddo + + do j=1,N + do i=1,ncw + ichk=Mn(i,j) ! Mn(:,j) are the checks that include bit j + Tmn=product(tanhtoc(1:nrw(ichk),ichk),mask=Nm(1:nrw(ichk),ichk).ne.j) + call platanh(-Tmn,y) +! y=atanh(-Tmn) + tov(i,j)=2*y + enddo + enddo + + enddo + nharderror=-1 + return +end subroutine bpdecode280_74 diff --git a/lib/fst280/decode280_101.f90 b/lib/fst280/decode280_101.f90 new file mode 100644 index 000000000..838906c78 --- /dev/null +++ b/lib/fst280/decode280_101.f90 @@ -0,0 +1,154 @@ +subroutine decode280_101(llr,Keff,maxosd,norder,apmask,message101,cw,ntype,nharderror,dmin) +! +! A hybrid bp/osd decoder for the (280,101) code. +! +! maxosd<0: do bp only +! maxosd=0: do bp and then call osd once with channel llrs +! maxosd>1: do bp and then call osd maxosd times with saved bp outputs +! norder : osd decoding depth +! + integer, parameter:: N=280, K=101, M=N-K + integer*1 cw(N),apmask(N) + integer*1 nxor(N),hdec(N) + integer*1 message101(101),m101(101) + integer nrw(M),ncw + integer Nm(6,M) + integer Mn(3,N) ! 3 checks per bit + integer synd(M) + real tov(3,N) + real toc(6,M) + real tanhtoc(6,M) + real zn(N),zsum(N),zsave(N,3) + real llr(N) + real Tmn + + include "ldpc_280_101_parity.f90" + + maxiterations=30 + nosd=0 + if(maxosd.gt.3) maxosd=3 + if(maxosd.eq.0) then ! osd with channel llrs + nosd=1 + zsave(:,1)=llr + elseif(maxosd.gt.0) then ! + nosd=maxosd + elseif(maxosd.lt.0) then ! just bp + nosd=0 + endif + + toc=0 + tov=0 + tanhtoc=0 +! initialize messages to checks + do j=1,M + do i=1,nrw(j) + toc(i,j)=llr((Nm(i,j))) + enddo + enddo + + ncnt=0 + nclast=0 + zsum=0.0 + do iter=0,maxiterations +! Update bit log likelihood ratios (tov=0 in iteration 0). + do i=1,N + if( apmask(i) .ne. 1 ) then + zn(i)=llr(i)+sum(tov(1:ncw,i)) + else + zn(i)=llr(i) + endif + enddo + zsum=zsum+zn + if(iter.gt.0 .and. iter.le.maxosd) then + zsave(:,iter)=zsum + endif + +! Check to see if we have a codeword (check before we do any iteration). + cw=0 + where( zn .gt. 0. ) cw=1 + ncheck=0 + do i=1,M + synd(i)=sum(cw(Nm(1:nrw(i),i))) + if( mod(synd(i),2) .ne. 0 ) ncheck=ncheck+1 + enddo + if( ncheck .eq. 0 ) then ! we have a codeword - if crc is good, return it + m101=0 + m101(1:101)=cw(1:101) + call get_crc24(m101,101,nbadcrc) + if(nbadcrc.eq.0) then + message101=cw(1:101) + hdec=0 + where(llr .ge. 0) hdec=1 + nxor=ieor(hdec,cw) + nharderror=sum(nxor) + dmin=sum(nxor*abs(llr)) + ntype=1 + return + endif + endif + + if( iter.gt.0 ) then ! this code block implements an early stopping criterion +! if( iter.gt.10000 ) then ! this code block implements an early stopping criterion + nd=ncheck-nclast + if( nd .lt. 0 ) then ! # of unsatisfied parity checks decreased + ncnt=0 ! reset counter + else + ncnt=ncnt+1 + endif +! write(*,*) iter,ncheck,nd,ncnt + if( ncnt .ge. 5 .and. iter .ge. 10 .and. ncheck .gt. 15) then + nharderror=-1 + exit + endif + endif + nclast=ncheck + +! Send messages from bits to check nodes + do j=1,M + do i=1,nrw(j) + ibj=Nm(i,j) + toc(i,j)=zn(ibj) + do kk=1,ncw ! subtract off what the bit had received from the check + if( Mn(kk,ibj) .eq. j ) then + toc(i,j)=toc(i,j)-tov(kk,ibj) + endif + enddo + enddo + enddo + +! send messages from check nodes to variable nodes + do i=1,M + tanhtoc(1:6,i)=tanh(-toc(1:6,i)/2) + enddo + + do j=1,N + do i=1,ncw + ichk=Mn(i,j) ! Mn(:,j) are the checks that include bit j + Tmn=product(tanhtoc(1:nrw(ichk),ichk),mask=Nm(1:nrw(ichk),ichk).ne.j) + call platanh(-Tmn,y) +! y=atanh(-Tmn) + tov(i,j)=2*y + enddo + enddo + + enddo ! bp iterations + + do i=1,nosd + zn=zsave(:,i) + call osd280_101(zn,Keff,apmask,norder,message101,cw,nharderror,dminosd) + if(nharderror.gt.0) then + hdec=0 + where(llr .ge. 0) hdec=1 + nxor=ieor(hdec,cw) + dmin=sum(nxor*abs(llr)) + ntype=2 + return + endif + enddo + + ntype=0 + nharderror=-1 + dminosd=0.0 + + return +end subroutine decode280_101 diff --git a/lib/fst280/decode280_74.f90 b/lib/fst280/decode280_74.f90 new file mode 100644 index 000000000..0d0c6fc4f --- /dev/null +++ b/lib/fst280/decode280_74.f90 @@ -0,0 +1,153 @@ +subroutine decode280_74(llr,Keff,maxosd,norder,apmask,message74,cw,ntype,nharderror,dmin) +! +! A hybrid bp/osd decoder for the (280,74) code. +! +! maxosd<0: do bp only +! maxosd=0: do bp and then call osd once with channel llrs +! maxosd>1: do bp and then call osd maxosd times with saved bp outputs +! norder : osd decoding depth +! + integer, parameter:: N=280, K=74, M=N-K + integer*1 cw(N),cwbest(N),apmask(N) + integer*1 nxor(N),hdec(N) + integer*1 message74(74),m74(74) + integer nrw(M),ncw + integer Nm(5,M) + integer Mn(3,N) ! 3 checks per bit + integer synd(M) + real tov(3,N) + real toc(5,M) + real tanhtoc(5,M) + real zn(N),zsum(N),zsave(N,max(1,maxosd)) + real llr(N) + real Tmn + + include "ldpc_280_74_parity.f90" + + maxiterations=30 + nosd=0 + if(maxosd.eq.0) then ! osd with channel llrs + nosd=1 + zsave(:,1)=llr + elseif(maxosd.gt.0) then ! + nosd=maxosd + elseif(maxosd.lt.0) then ! just bp + nosd=0 + endif + + toc=0 + tov=0 + tanhtoc=0 +! initialize messages to checks + do j=1,M + do i=1,nrw(j) + toc(i,j)=llr((Nm(i,j))) + enddo + enddo + + ncnt=0 + nclast=0 + zsum=0.0 + do iter=0,maxiterations +! Update bit log likelihood ratios (tov=0 in iteration 0). + do i=1,N + if( apmask(i) .ne. 1 ) then + zn(i)=llr(i)+sum(tov(1:ncw,i)) + else + zn(i)=llr(i) + endif + enddo + zsum=zsum+zn + if(iter.gt.0 .and. iter.le.maxosd) then + zsave(:,iter)=zsum + endif + +! Check to see if we have a codeword (check before we do any iteration). + cw=0 + where( zn .gt. 0. ) cw=1 + ncheck=0 + do i=1,M + synd(i)=sum(cw(Nm(1:nrw(i),i))) + if( mod(synd(i),2) .ne. 0 ) ncheck=ncheck+1 + enddo + if( ncheck .eq. 0 ) then ! we have a codeword - if crc is good, return it + m74=0 + m74(1:74)=cw(1:74) + call get_crc24(m74,74,nbadcrc) + if(nbadcrc.eq.0) then + message74=cw(1:74) + hdec=0 + where(llr .ge. 0) hdec=1 + nxor=ieor(hdec,cw) + nharderror=sum(nxor) + dmin=sum(nxor*abs(llr)) + ntype=1 + return + endif + endif + + if( iter.gt.0 ) then ! this code block implements an early stopping criterion +! if( iter.gt.10000 ) then ! this code block implements an early stopping criterion + nd=ncheck-nclast + if( nd .lt. 0 ) then ! # of unsatisfied parity checks decreased + ncnt=0 ! reset counter + else + ncnt=ncnt+1 + endif +! write(*,*) iter,ncheck,nd,ncnt + if( ncnt .ge. 5 .and. iter .ge. 10 .and. ncheck .gt. 15) then + nharderror=-1 + exit + endif + endif + nclast=ncheck + +! Send messages from bits to check nodes + do j=1,M + do i=1,nrw(j) + ibj=Nm(i,j) + toc(i,j)=zn(ibj) + do kk=1,ncw ! subtract off what the bit had received from the check + if( Mn(kk,ibj) .eq. j ) then + toc(i,j)=toc(i,j)-tov(kk,ibj) + endif + enddo + enddo + enddo + +! send messages from check nodes to variable nodes + do i=1,M + tanhtoc(1:5,i)=tanh(-toc(1:5,i)/2) + enddo + + do j=1,N + do i=1,ncw + ichk=Mn(i,j) ! Mn(:,j) are the checks that include bit j + Tmn=product(tanhtoc(1:nrw(ichk),ichk),mask=Nm(1:nrw(ichk),ichk).ne.j) + call platanh(-Tmn,y) +! y=atanh(-Tmn) + tov(i,j)=2*y + enddo + enddo + + enddo ! bp iterations + + do i=1,nosd + zn=zsave(:,i) + call osd280_74(zn,Keff,apmask,norder,message74,cw,nharderror,dminosd) + if(nharderror.ge.0) then + hdec=0 + where(llr .ge. 0) hdec=1 + nxor=ieor(hdec,cw) + dmin=sum(nxor*abs(llr)) + ntype=2 + return + endif + enddo + + ntype=0 + nharderror=-1 + dminosd=0.0 + + return +end subroutine decode280_74 diff --git a/lib/fst280/encode280_101.f90 b/lib/fst280/encode280_101.f90 new file mode 100644 index 000000000..704816355 --- /dev/null +++ b/lib/fst280/encode280_101.f90 @@ -0,0 +1,46 @@ +subroutine encode280_101(message,codeword) + use, intrinsic :: iso_c_binding + use iso_c_binding, only: c_loc,c_size_t + use crc + + integer, parameter:: N=280, K=101, M=N-K + character*24 c24 + integer*1 codeword(N) + integer*1 gen(M,K) + integer*1 message(K) + integer*1 pchecks(M) + integer*4 ncrc24 + include "ldpc_280_101_generator.f90" + logical first + data first/.true./ + save first,gen + + if( first ) then ! fill the generator matrix + gen=0 + do i=1,M + do j=1,26 + read(g(i)(j:j),"(Z1)") istr + ibmax=4 + if(j.eq.26) ibmax=1 + do jj=1, ibmax + icol=(j-1)*4+jj + if( btest(istr,4-jj) ) gen(i,icol)=1 + enddo + enddo + enddo + first=.false. + endif + + do i=1,M + nsum=0 + do j=1,K + nsum=nsum+message(j)*gen(i,j) + enddo + pchecks(i)=mod(nsum,2) + enddo + + codeword(1:K)=message + codeword(K+1:N)=pchecks + + return +end subroutine encode280_101 diff --git a/lib/fst280/encode280_74.f90 b/lib/fst280/encode280_74.f90 new file mode 100644 index 000000000..e923d46f7 --- /dev/null +++ b/lib/fst280/encode280_74.f90 @@ -0,0 +1,46 @@ +subroutine encode280_74(message,codeword) + use, intrinsic :: iso_c_binding + use iso_c_binding, only: c_loc,c_size_t + use crc + + integer, parameter:: N=280, K=74, M=N-K + character*24 c24 + integer*1 codeword(N) + integer*1 gen(M,K) + integer*1 message(K) + integer*1 pchecks(M) + integer*4 ncrc24 + include "ldpc_280_74_generator.f90" + logical first + data first/.true./ + save first,gen + + if( first ) then ! fill the generator matrix + gen=0 + do i=1,M + do j=1,19 + read(g(i)(j:j),"(Z1)") istr + ibmax=4 + if(j.eq.19) ibmax=2 + do jj=1, ibmax + icol=(j-1)*4+jj + if( btest(istr,4-jj) ) gen(i,icol)=1 + enddo + enddo + enddo + first=.false. + endif + + do i=1,M + nsum=0 + do j=1,K + nsum=nsum+message(j)*gen(i,j) + enddo + pchecks(i)=mod(nsum,2) + enddo + + codeword(1:K)=message + codeword(K+1:N)=pchecks + + return +end subroutine encode280_74 diff --git a/lib/fst280/fst280.txt b/lib/fst280/fst280.txt new file mode 100644 index 000000000..5e2c1c935 --- /dev/null +++ b/lib/fst280/fst280.txt @@ -0,0 +1,10 @@ +------------------------------------------------------------------- + NSPS T/R TxT Tst Txtra Txtra-2.6s DF BW SNR77 SNR50 + (s) (s) (s) (s) (s) (Hz) (Hz) (dB) (dB) +------------------------------------------------------------------- + 800 15 10.93 0.5 3.57 0.97 15.00 60.0 -21.3 -23.2 + 1680 30 22.96 1.0 6.04 3.44 7.14 28.6 -24.5 -26.4 + 4000 60 54.67 1.0 4.33 1.73 3.00 12.0 -28.3 -30.2 + 8400 120 114.80 1.0 4.20 1.60 1.43 5.7 -31.5 -33.4 +21504 300 293.89 1.0 5.11 2.51 0.56 2.2 -35.5 -37.4 +------------------------------------------------------------------- diff --git a/lib/fst280/fst280d.f90 b/lib/fst280/fst280d.f90 new file mode 100644 index 000000000..edfee81f7 --- /dev/null +++ b/lib/fst280/fst280d.f90 @@ -0,0 +1,477 @@ +program fst280d + +! Decode fst280 data read from *.c2 or *.wav files. + + use packjt77 + include 'ft4s280_params.f90' + character arg*8,infile*80,fname*16,datetime*11 +! character ch1*1,ch4*4,cseq*31 +! character*22 decodes(100) + character*37 msg + character*120 data_dir + character*77 c77 + character*1 tr_designator + complex, allocatable :: c2(:) + complex, allocatable :: cframe(:) + complex, allocatable :: c_bigfft(:) !Complex waveform + real, allocatable :: r_data(:) + real*8 fMHz + real llr(280),llra(280),llrb(280),llrc(280),llrd(280) + real candidates(100,3) + real bitmetrics(328,4) + integer ihdr(11) + integer*2, allocatable :: iwave(:) + integer*1 apmask(280),cw(280) + integer*1 hbits(328) + integer*1 message101(101),message74(74) + logical badsync,unpk77_success + + hmod=1.0 + Keff=91 + ndeep=3 + iwspr=0 + + nargs=iargc() + if(nargs.lt.1) then + print*,'Usage: fst280d [-a ] [-f fMHz] [-h hmod] [-k Keff] file1 [file2 ...]' + go to 999 + endif + iarg=1 + data_dir="." + call getarg(iarg,arg) + if(arg(1:2).eq.'-a') then + call getarg(iarg+1,data_dir) + iarg=iarg+2 + call getarg(iarg,arg) + endif + if(arg(1:2).eq.'-f') then + call getarg(iarg+1,arg) + read(arg,*) fMHz + iarg=iarg+2 + call getarg(iarg,arg) + endif + if(arg(1:2).eq.'-h') then + call getarg(iarg+1,arg) + read(arg,*) hmod + if(hmod.ne.1.and.hmod.ne.2.and.hmod.ne.4) then + print*,'invalid modulation index. h must be 1, 2, or 4' + goto 999 + endif + iarg=iarg+2 + call getarg(iarg,arg) + endif + if(arg(1:2).eq.'-k') then + call getarg(iarg+1,arg) + read(arg,*) Keff + if(Keff.le.74) iwspr=1 + iarg=iarg+2 + call getarg(iarg,arg) + endif + if(arg(1:2).eq.'-d') then + call getarg(iarg+1,arg) + read(arg,*) ndeep + iarg=iarg+2 + call getarg(iarg,arg) + endif + if(arg(1:2).eq.'-t') then + call getarg(iarg+1,arg) + read(arg,*) tr_designator + iarg=iarg+2 + endif + + nmax=15*12000 + select case (tr_designator) + case('A') + nsps=800 + nmax=15*12000 + ndown=32/hmod + case('B') + nsps=1680 + nmax=30*12000 + ndown=70/hmod + if(hmod.eq.4) ndown=15 + case('C') + nsps=4000 + nmax=60*12000 + ndown=160/hmod + case('D') + nsps=8400 + nmax=120*12000 + ndown=350/hmod + if(hmod.eq.4) ndown=84 + case('E') + nsps=21504 + nmax=300*12000 + ndown=896/hmod + end select + nss=nsps/ndown + fs=12000.0 !Sample rate + fs2=fs/ndown + nspsec=nint(fs2) + dt=1.0/fs !Sample interval (s) + dt2=1.0/fs2 + tt=nsps*dt !Duration of "itone" symbols (s) + + nfft1=2*int(nmax/2) + nh1=nfft1/2 + allocate( r_data(1:nfft1+2) ) + allocate( c_bigfft(0:nfft1/2) ) + + nfft2=nfft1/ndown + allocate( c2(0:nfft2-1) ) + allocate( cframe(0:164*nss-1) ) + allocate( iwave(nmax) ) + +!write(*,*) 'nsps: ',nsps +!write(*,*) 'nmax: ',nmax +!write(*,*) 'nss : ',nss +!write(*,*) 'nspsec: ',fs2 +!write(*,*) 'nfft1 : ',nfft1 +!write(*,*) 'nfft2 : ',nfft2 + + ngood=0 + ngoodsync=0 + nfile=0 + do ifile=iarg,nargs + nfile=nfile+1 + call getarg(ifile,infile) + open(10,file=infile,status='old',access='stream') + j1=index(infile,'.c2') + j2=index(infile,'.wav') + if(j1.gt.0) then + read(10,end=999) fname,ntrmin,fMHz,c2 + read(fname(8:11),*) nutc + write(datetime,'(i11)') nutc + else if(j2.gt.0) then + read(10,end=999) ihdr,iwave + read(infile(j2-4:j2-1),*) nutc + datetime=infile(j2-11:j2-1) + else + print*,'Wrong file format?' + go to 999 + endif + close(10) + + npts=nmax + fa=100.0 + fb=3500.0 + +! The big fft is done once and is used for calculating the smoothed spectrum +! and also for downconverting/downsampling each candidate. + r_data(1:nfft1)=iwave(1:nfft1) + r_data(nfft1+1:nfft1+2)=0.0 + call four2a(r_data,nfft1,1,-1,0) + c_bigfft=cmplx(r_data(1:nfft1+2:2),r_data(2:nfft1+2:2)) + +! Get first approximation of candidate frequencies + call get_candidates_fst280(c_bigfft,nfft1,nsps,hmod,fs,fa,fb,ncand,candidates) + + ndecodes=0 + isbest1=0 + isbest8=0 + fc21=fc0 + fc28=fc0 + do icand=1,ncand + fc0=candidates(icand,1) + xsnr=candidates(icand,2) + +! Downconvert and downsample a slice of the spectrum centered on the +! rough estimate of the candidates frequency. +! Output array c2 is complex baseband sampled at 12000/ndown Sa/sec. +! The size of the downsampled c2 array is nfft2=nfft1/ndown + + call fst280_downsample(c_bigfft,nfft1,ndown,fc0,c2) +! write(*,3001) c2(nfft2/3),candidates(icand,1:2) +!3001 format(2e15.6,2f10.3) + + do isync=0,1 + if(isync.eq.0) then + fc1=0.0 + is0=nint(fs2) + ishw=is0 + isst=4 + ifhw=10 + df=.1*8400/nsps + else if(isync.eq.1) then + fc1=fc28 + is0=isbest8 + ishw=4 + isst=1 + ifhw=10 + df=.02*8400/nsps + endif + + smax1=0.0 + smax8=0.0 + do if=-ifhw,ifhw + fc=fc1+df*if + do istart=max(1,is0-ishw),is0+ishw,isst + call sync_fst280(c2,istart,fc,hmod,1,nfft2,nss,fs2,sync1) + call sync_fst280(c2,istart,fc,hmod,8,nfft2,nss,fs2,sync8) + if(sync8.gt.smax8) then + fc28=fc + isbest8=istart + smax8=sync8 + endif + if(sync1.gt.smax1) then + fc21=fc + isbest1=istart + smax1=sync1 + endif + enddo + enddo +! write(*,1022) ifile,icand,isync,fc1, & +! fc21,isbest1,smax1,fc28,isbest8,smax8 +!1022 format(i5,1x,i4,1x,i4,1x,f7.2,1x,2(1x,f7.2,1x,i5,1x,e9.3)) + enddo + + if(smax8/smax1 .lt. 0.65 ) then + fc2=fc21 + isbest=isbest1 + ntmax=4 + if(hmod .gt. 1.0) ntmax=1 + ntmin=1 + njitter=2 + else + fc2=fc28 + isbest=isbest8 + ntmax=4 + if(hmod .gt. 1.0) ntmax=1 + ntmin=1 + njitter=2 + endif + fc_synced = fc0 + fc2 + dt_synced = (isbest-fs2)*dt2 !nominal dt is 1 second so frame starts at sample fs2 + + call fst280_downsample(c_bigfft,nfft1,ndown,fc_synced,c2) + + if(abs((isbest-fs2)/nss) .lt. 0.2 .and. abs(fc_synced-1500.0).lt.0.4) then + ngoodsync=ngoodsync+1 + endif + + do ijitter=0,2 + if(ijitter.eq.0) ioffset=0 + if(ijitter.eq.1) ioffset=2 + if(ijitter.eq.2) ioffset=-2 + is0=isbest+ioffset + if(is0.lt.0) cycle + cframe=c2(is0:is0+164*nss-1) + s2=sum(cframe*conjg(cframe)) + cframe=cframe/sqrt(s2) + call get_fst280_bitmetrics(cframe,nss,hmod,bitmetrics,badsync) + + hbits=0 + where(bitmetrics(:,1).ge.0) hbits=1 + ns1=count(hbits( 1: 8).eq.(/0,0,0,1,1,0,1,1/)) + ns2=count(hbits( 9: 16).eq.(/0,1,0,0,1,1,1,0/)) + ns3=count(hbits(157:164).eq.(/0,0,0,1,1,0,1,1/)) + ns4=count(hbits(165:172).eq.(/0,1,0,0,1,1,1,0/)) + ns5=count(hbits(313:320).eq.(/0,0,0,1,1,0,1,1/)) + ns6=count(hbits(321:328).eq.(/0,1,0,0,1,1,1,0/)) + nsync_qual=ns1+ns2+ns3+ns4+ns5+ns6 +! if(nsync_qual.lt. 20) cycle + + scalefac=2.83 + llra( 1:140)=bitmetrics( 17:156, 1) + llra(141:280)=bitmetrics(173:312, 1) + llra=scalefac*llra + llrb( 1:140)=bitmetrics( 17:156, 2) + llrb(141:280)=bitmetrics(173:312, 2) + llrb=scalefac*llrb + llrc( 1:140)=bitmetrics( 17:156, 3) + llrc(141:280)=bitmetrics(173:312, 3) + llrc=scalefac*llrc + llrd( 1:140)=bitmetrics( 17:156, 4) + llrd(141:280)=bitmetrics(173:312, 4) + llrd=scalefac*llrd + apmask=0 + + do itry=ntmax,ntmin,-1 + if(itry.eq.1) llr=llra + if(itry.eq.2) llr=llrb + if(itry.eq.3) llr=llrc + if(itry.eq.4) llr=llrd + dmin=0.0 + nharderrors=-1 + unpk77_success=.false. + if(iwspr.eq.0) then + maxosd=2 + call decode280_101(llr,Keff,maxosd,ndeep,apmask,message101,cw,ntype,nharderrors,dmin) + else + maxosd=2 + call decode280_74(llr,Keff,maxosd,ndeep,apmask,message74,cw,ntype,nharderrors,dmin) + endif + if(nharderrors .ge.0) then + if(iwspr.eq.0) then + write(c77,'(77i1)') message101(1:77) + call unpack77(c77,0,msg,unpk77_success) + else + write(c77,'(50i1)') message74(1:50) + c77(51:77)='000000000000000000000110000' + call unpack77(c77,0,msg,unpk77_success) + endif + if(nharderrors .ge.0 .and. unpk77_success) then + ngood=ngood+1 + write(*,1100) nfile,icand,xsnr,dt_synced,fc_synced, & + itry,ntype,nharderrors,dmin,ijitter,nsync_qual,msg(1:22) +1100 format(i5,i5,f6.1,f6.2,f7.1,i4,i4,i4,f7.2,i6,i6,2x,a22) + goto 2002 + else + cycle + endif + endif + enddo ! metrics + enddo ! istart jitter +2002 continue + enddo !candidate list + enddo !files + nfiles=nargs-iarg+1 + write(*,*) 'nfiles: ',nfiles,' ngood: ',ngood,' ngoodsync: ',ngoodsync + write(*,1120) +1120 format("") + +999 end program fst280d + +subroutine sync_fst280(cd0,i0,f0,hmod,ncoh,np,nss,fs,sync) + +! Compute sync power for a complex, downsampled FST280 signal. + + include 'ft4s280_params.f90' + complex cd0(0:np-1) + complex, allocatable, save :: csync(:) + complex, allocatable, save :: csynct(:) + complex ctwk(8*nss) + complex z1,z2,z3 + logical first + integer isyncword(0:7) + real f0save + data isyncword/0,1,3,2,1,0,2,3/ + data first/.true./ + data f0save/0.0/ + save first,twopi,dt,fac,f0save + + p(z1)=(real(z1*fac)**2 + aimag(z1*fac)**2)**0.5 !Statement function for power + + if( first ) then + allocate( csync(8*nss) ) + allocate( csynct(8*nss) ) + twopi=8.0*atan(1.0) + dt=1/fs + k=1 + phi=0.0 + do i=0,7 + dphi=twopi*hmod*(isyncword(i)-1.5)/real(nss) + do j=1,nss + csync(k)=cmplx(cos(phi),sin(phi)) + phi=mod(phi+dphi,twopi) + k=k+1 + enddo + enddo + first=.false. + fac=1.0/(8.0*nss) + endif + + if(f0.ne.f0save) then + dphi=twopi*f0*dt + phi=0.0 + do i=1,8*nss + ctwk(i)=cmplx(cos(phi),sin(phi)) + phi=mod(phi+dphi,twopi) + enddo + csynct=ctwk*csync + f0save=f0 + endif + + i1=i0 !Costas arrays + i2=i0+78*nss + i3=i0+156*nss + + s1=0.0 + s2=0.0 + s3=0.0 + nsec=8/ncoh + do i=1,nsec + is=(i-1)*ncoh*nss + z1=sum(cd0(i1+is:i1+is+ncoh*nss-1)*conjg(csynct(is+1:is+ncoh*nss))) + z2=sum(cd0(i2+is:i2+is+ncoh*nss-1)*conjg(csynct(is+1:is+ncoh*nss))) + z3=sum(cd0(i3+is:i3+is+ncoh*nss-1)*conjg(csynct(is+1:is+ncoh*nss))) + s1=s1+abs(z1)/(8*nss) + s2=s2+abs(z2)/(8*nss) + s3=s3+abs(z3)/(8*nss) + enddo + + sync = s1+s2+s3 + + return +end subroutine sync_fst280 + +subroutine fst280_downsample(c_bigfft,nfft1,ndown,f0,c1) + +! Output: Complex data in c(), sampled at 12000/ndown Hz + + complex c_bigfft(0:nfft1/2) + complex c1(0:nfft1/ndown-1) + + df=12000.0/nfft1 + i0=nint(f0/df) + c1(0)=c_bigfft(i0) + nfft2=nfft1/ndown + do i=1,nfft2/2 + if(i0+i.le.nfft1/2) c1(i)=c_bigfft(i0+i) + if(i0-i.ge.0) c1(nfft2-i)=c_bigfft(i0-i) + enddo + c1=c1/nfft2 + call four2a(c1,nfft2,1,1,1) !c2c FFT back to time domain + return + +end subroutine fst280_downsample + +subroutine get_candidates_fst280(c_bigfft,nfft1,nsps,hmod,fs,fa,fb,ncand,candidates) + + complex c_bigfft(0:nfft1/2) + real candidates(100,3) + real s(18000) + real s2(18000) + data nfft1z/-1/ + save nfft1z + + nh1=nfft1/2 + df1=fs/nfft1 + baud=fs/nsps + df2=baud/2.0 + nd=df1/df2 + ndh=nd/2 + ia=fa/df2 + ib=fb/df2 + s=0. + do i=ia,ib + j0=nint(i*df2/df1) + do j=j0-ndh,j0+ndh + s(i)=s(i) + real(c_bigfft(j))**2 + aimag(c_bigfft(j))**2 + enddo + enddo + call pctile(s(ia:ib),ib-ia+1,30,base) + s=s/base + nh=hmod + do i=ia,ib + s2(i)=s(i-nh*3) + s(i-nh) +s(i+nh) +s(i+nh*3) + s2(i)=db(s2(i)) - 48.5 + enddo + + if(nh.eq.1) thresh=-29.5 + if(nh.eq.2) thresh=-27.0 + if(nh.eq.4) thresh=-25.0 + + ncand=0 + do i=ia,ib + if((s2(i).gt.s2(i-1)).and. & + (s2(i).gt.s2(i+1)).and. & + (s2(i).gt.thresh).and.ncand.lt.100) then + ncand=ncand+1 + candidates(ncand,1)=df2*i + candidates(ncand,2)=s2(i) + endif + enddo + + return +end subroutine get_candidates_fst280 diff --git a/lib/fst280/fst280sim.f90 b/lib/fst280/fst280sim.f90 new file mode 100644 index 000000000..72026344b --- /dev/null +++ b/lib/fst280/fst280sim.f90 @@ -0,0 +1,147 @@ +program fst280sim + +! Generate simulated signals for experimental slow FT4 mode + + use wavhdr + use packjt77 + include 'ft4s280_params.f90' !Set various constants + type(hdr) h !Header for .wav file + character arg*12,fname*17 + character msg37*37,msgsent37*37,c77*77 + character tr_designator*1 + complex, allocatable :: c0(:) + complex, allocatable :: c(:) + real, allocatable :: wave(:) + integer itone(NN) + integer*1 msgbits(101) + integer*2, allocatable :: iwave(:) !Generated full-length waveform + +! Get command-line argument(s) + nargs=iargc() + if(nargs.ne.9) then + print*,'Usage: fst280sim "message" type f0 DT h fdop del nfiles snr' + print*,'Examples: fst280sim "K1JT K9AN EN50" C 1500 0.0 1.0 0.1 1.0 10 -15' + print*,'A: 15 sec' + print*,'B: 30 sec' + print*,'C: 1 min' + print*,'D: 2 min' + print*,'E: 5 min' + go to 999 + endif + call getarg(1,msg37) !Message to be transmitted + call getarg(2,arg) + read(arg,*) tr_designator !TR selector + call getarg(3,arg) + read(arg,*) f0 !Frequency (only used for single-signal) + call getarg(4,arg) + read(arg,*) xdt !Time offset from nominal (s) + call getarg(5,arg) + read(arg,*) hmod !Modulation index, h + call getarg(6,arg) + read(arg,*) fspread !Watterson frequency spread (Hz) + call getarg(7,arg) + read(arg,*) delay !Watterson delay (ms) + call getarg(8,arg) + read(arg,*) nfiles !Number of files + call getarg(9,arg) + read(arg,*) snrdb !SNR_2500 + + nfiles=abs(nfiles) + twopi=8.0*atan(1.0) + fs=12000.0 !Sample rate (Hz) + dt=1.0/fs !Sample interval (s) + baud=1.0/tt !Keying rate (baud) + select case (tr_designator) + case('A') + nsps=800 + nmax=15*12000 + case('B') + nsps=1680 + nmax=30*12000 + case('C') + nsps=4000 + nmax=60*12000 + case('D') + nsps=8400 + nmax=120*12000 + case('E') + nsps=21504 + nmax=300*12000 + end select + nz=nsps*NN + nz2=nsps*NN2 + txt=nz2*dt !Transmission length (s) + tt=nsps*dt !Duration of symbols (s) + allocate( c0(0:nmax-1) ) + allocate( c(0:nmax-1) ) + allocate( wave(nmax) ) + allocate( iwave(nmax) ) + + bandwidth_ratio=2500.0/(fs/2.0) + sig=sqrt(2*bandwidth_ratio) * 10.0**(0.05*snrdb) + if(snrdb.gt.90.0) sig=1.0 + + i3=-1 + n3=-1 + call pack77(msg37,i3,n3,c77) + call genfst280(msg37,0,msgsent37,msgbits,itone,iwspr) + + write(*,*) + write(*,'(a9,a37)') 'Message: ',msgsent37 + write(*,1000) f0,xdt,hmod,txt,snrdb +1000 format('f0:',f9.3,' DT:',f6.2,' hmod:',f6.3,' TxT:',f6.1,' SNR:',f6.1) + write(*,*) + if(i3.eq.1) then + write(*,*) ' mycall hiscall hisgrid' + write(*,'(28i1,1x,i1,1x,28i1,1x,i1,1x,i1,1x,15i1,1x,3i1)') msgbits(1:77) + else + write(*,'(a14)') 'Message bits: ' + write(*,'(50i1,1x,24i1)') msgbits + endif + write(*,*) + write(*,'(a17)') 'Channel symbols: ' + write(*,'(10i1)') itone + write(*,*) + +! call sgran() + + fsample=12000.0 + icmplx=1 + call gen_fst280wave(itone,NN,nsps,nmax,fsample,hmod,f0,icmplx,c0,wave) + k=nint((xdt+1.0)/dt)-nsps + c0=cshift(c0,-k) + if(k.gt.0) c0(0:k-1)=0.0 + if(k.lt.0) c0(nmax+k:nmax-1)=0.0 + + do ifile=1,nfiles + c=c0 + if(fspread.ne.0.0 .or. delay.ne.0.0) call watterson(c,nmax,NZ,fs,delay,fspread) + c=sig*c + wave=real(c) + if(snrdb.lt.90) then + do i=1,nmax !Add gaussian noise at specified SNR + xnoise=gran() + wave(i)=wave(i) + xnoise + enddo + endif + gain=100.0 + if(snrdb.lt.90.0) then + wave=gain*wave + else + datpk=maxval(abs(wave)) + fac=32766.9/datpk + wave=fac*wave + endif + if(any(abs(wave).gt.32767.0)) print*,"Warning - data will be clipped." + iwave=nint(wave) + h=default_header(12000,nmax) + write(fname,1102) ifile +1102 format('000000_',i6.6,'.wav') + open(10,file=fname,status='unknown',access='stream') + write(10) h,iwave !Save to *.wav file + close(10) + write(*,1110) ifile,xdt,f0,snrdb,fname +1110 format(i4,f7.2,f8.2,f7.1,2x,a17) + enddo + +999 end program fst280sim diff --git a/lib/fst280/ft4s280_params.f90 b/lib/fst280/ft4s280_params.f90 new file mode 100644 index 000000000..dc1519160 --- /dev/null +++ b/lib/fst280/ft4s280_params.f90 @@ -0,0 +1,8 @@ +! FT4S280 +! LDPC(280,101)/CRC24 code, six 4x4 Costas arrays for sync, ramp-up and ramp-down symbols + +parameter (KK=77) !Information bits (77 + CRC24) +parameter (ND=140) !Data symbols +parameter (NS=24) !Sync symbols +parameter (NN=NS+ND) !Sync and data symbols (164) +parameter (NN2=NS+ND+2) !Total channel symbols (166) diff --git a/lib/fst280/genfst280.f90 b/lib/fst280/genfst280.f90 new file mode 100644 index 000000000..e074b5080 --- /dev/null +++ b/lib/fst280/genfst280.f90 @@ -0,0 +1,103 @@ +subroutine genfst280(msg0,ichk,msgsent,msgbits,i4tone,iwspr) + +! Input: +! - msg0 requested message to be transmitted +! - ichk if ichk=1, return only msgsent +! - msgsent message as it will be decoded +! - i4tone array of audio tone values, {0,1,2,3} +! - iwspr 0: (280,101)/crc24, 1: (280,74)/crc24 +! +! Frame structure: +! s8 d70 s8 d70 s8 + +! Message duration: TxT = 164*8400/12000 = 114.8 s + + use packjt77 + include 'ft4s280_params.f90' + character*37 msg0 + character*37 message !Message to be generated + character*37 msgsent !Message as it will be received + character*77 c77 + character*24 c24 + integer*4 i4tone(NN),itmp(ND) + integer*1 codeword(2*ND) + integer*1 msgbits(101),rvec(77) + integer isyncword(8) + integer ncrc24 + logical unpk77_success + data isyncword/0,1,3,2,1,0,2,3/ + data rvec/0,1,0,0,1,0,1,0,0,1,0,1,1,1,1,0,1,0,0,0,1,0,0,1,1,0,1,1,0, & + 1,0,0,1,0,1,1,0,0,0,0,1,0,0,0,1,0,1,0,0,1,1,1,1,0,0,1,0,1, & + 0,1,0,1,0,1,1,0,1,1,1,1,1,0,0,0,1,0,1/ + message=msg0 + + do i=1, 37 + if(ichar(message(i:i)).eq.0) then + message(i:37)=' ' + exit + endif + enddo + do i=1,37 !Strip leading blanks + if(message(1:1).ne.' ') exit + message=message(i+1:) + enddo + + i3=-1 + n3=-1 + call pack77(message,i3,n3,c77) + call unpack77(c77,0,msgsent,unpk77_success) !Unpack to get msgsent + msgbits=0 + iwspr=0 + if(i3.eq.0.and.n3.eq.6) then + iwspr=1 + read(c77,'(50i1)') msgbits(1:50) + call get_crc24(msgbits,74,ncrc24) + write(c24,'(b24.24)') ncrc24 + read(c24,'(24i1)') msgbits(51:74) + else + read(c77,'(77i1)') msgbits(1:77) + call get_crc24(msgbits,101,ncrc24) + write(c24,'(b24.24)') ncrc24 + read(c24,'(24i1)') msgbits(78:101) + endif + + if(ichk.eq.1) go to 999 + if(unpk77_success) go to 2 +1 msgbits=0 + itone=0 + msgsent='*** bad message *** ' + go to 999 + + entry get_ft4s280_tones_from_bits(msgbits,i4tone,iwspr) + +2 continue + + if(iwspr.eq.0) then + call encode280_101(msgbits,codeword) + else + call encode280_74(msgbits(1:74),codeword) + endif + +! Grayscale mapping: +! bits tone +! 00 0 +! 01 1 +! 11 2 +! 10 3 + + do i=1,ND + is=codeword(2*i)+2*codeword(2*i-1) + if(is.le.1) itmp(i)=is + if(is.eq.2) itmp(i)=3 + if(is.eq.3) itmp(i)=2 + enddo + + i4tone(1:8)=isyncword + i4tone(9:78)=itmp(1:70) + i4tone(79:86)=isyncword + i4tone(87:156)=itmp(71:140) + i4tone(157:164)=isyncword + +999 return + +end subroutine genfst280 diff --git a/lib/fst280/get_crc24.f90 b/lib/fst280/get_crc24.f90 new file mode 100644 index 000000000..cb7f3a05f --- /dev/null +++ b/lib/fst280/get_crc24.f90 @@ -0,0 +1,25 @@ +subroutine get_crc24(mc,len,ncrc) +! +! 1. To calculate 24-bit CRC, mc(1:len-24) is the message and mc(len-23:len) are zero. +! 2. To check a received CRC, mc(1:len) is the received message plus CRC. +! ncrc will be zero if the received message/CRC are consistent. +! + character c24*24 + integer*1 mc(len) + integer*1 r(25),p(25) + integer ncrc +! polynomial for 24-bit CRC 0x100065b + data p/1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,0,0,1,0,1,1,0,1,1/ + +! divide by polynomial + r=mc(1:25) + do i=0,len-25 + r(25)=mc(i+25) + r=mod(r+r(1)*p,2) + r=cshift(r,1) + enddo + + write(c24,'(24b1)') r(1:24) + read(c24,'(b24.24)') ncrc + +end subroutine get_crc24 diff --git a/lib/fst280/get_fst280_bitmetrics.f90 b/lib/fst280/get_fst280_bitmetrics.f90 new file mode 100644 index 000000000..a50088f66 --- /dev/null +++ b/lib/fst280/get_fst280_bitmetrics.f90 @@ -0,0 +1,118 @@ +subroutine get_fst280_bitmetrics(cd,nss,hmod,bitmetrics,badsync) + + include 'ft4s280_params.f90' + complex cd(0:NN*nss-1) + complex cs(0:3,NN) + complex csymb(nss) + complex, allocatable, save :: c1(:,:) ! ideal waveforms, 20 samples per symbol, 4 tones + complex cp(0:3) ! accumulated phase shift over symbol types 0:3 + complex csum,cterm + integer icos8(0:7) + integer graymap(0:3) + integer ip(1) + logical one(0:65535,0:15) ! 65536 8-symbol sequences, 16 bits + logical first + logical badsync + real bitmetrics(2*NN,4) + real s2(0:65535) + real s4(0:3,NN) + data icos8/0,1,3,2,1,0,2,3/ + data graymap/0,1,3,2/ + data first/.true./ + save first,one,cp + + if(first) then + allocate(c1(nss,0:3)) + one=.false. + do i=0,65535 + do j=0,15 + if(iand(i,2**j).ne.0) one(i,j)=.true. + enddo + enddo + twopi=8.0*atan(1.0) + dphi=twopi*hmod/nss + do itone=0,3 + dp=(itone-1.5)*dphi + phi=0.0 + do j=1,nss + c1(j,itone)=cmplx(cos(phi),sin(phi)) + phi=mod(phi+dp,twopi) + enddo + cp(itone)=cmplx(cos(phi),sin(phi)) + enddo + first=.false. + endif + + do k=1,NN + i1=(k-1)*NSS + csymb=cd(i1:i1+NSS-1) + do itone=0,3 + cs(itone,k)=sum(csymb*conjg(c1(:,itone))) + enddo + s4(0:3,k)=abs(cs(0:3,k)) + enddo + +! Sync quality check + is1=0 + is2=0 + is3=0 + badsync=.false. + ibmax=0 + + do k=1,8 + ip=maxloc(s4(:,k)) + if(icos8(k-1).eq.(ip(1)-1)) is1=is1+1 + ip=maxloc(s4(:,k+78)) + if(icos8(k-1).eq.(ip(1)-1)) is2=is2+1 + ip=maxloc(s4(:,k+156)) + if(icos8(k-1).eq.(ip(1)-1)) is3=is3+1 + enddo + nsync=is1+is2+is3 !Number of correct hard sync symbols, 0-24 + + badsync=.false. +! if(nsync .lt. 8) then +! badsync=.true. +! return +! endif + + bitmetrics=0.0 + do nseq=1,4 !Try coherent sequences of 1, 2, and 4 symbols + if(nseq.eq.1) nsym=1 + if(nseq.eq.2) nsym=2 + if(nseq.eq.3) nsym=4 + if(nseq.eq.4) nsym=8 + nt=4**nsym + do ks=1,NN-nsym+1,nsym + s2=0 + do i=0,nt-1 + csum=0 + cterm=1 + do j=0,nsym-1 + ntone=mod(i/4**(nsym-1-j),4) + csum=csum+cs(graymap(ntone),ks+j)*cterm + cterm=cterm*conjg(cp(graymap(ntone))) + enddo + s2(i)=abs(csum) + enddo + ipt=1+(ks-1)*2 + if(nsym.eq.1) ibmax=1 + if(nsym.eq.2) ibmax=3 + if(nsym.eq.4) ibmax=7 + if(nsym.eq.8) ibmax=15 + do ib=0,ibmax + bm=maxval(s2(0:nt-1),one(0:nt-1,ibmax-ib)) - & + maxval(s2(0:nt-1),.not.one(0:nt-1,ibmax-ib)) + if(ipt+ib.gt.2*NN) cycle + bitmetrics(ipt+ib,nseq)=bm + enddo + enddo + enddo + bitmetrics(321:328,4)=bitmetrics(321:328,3) + + call normalizebmet(bitmetrics(:,1),2*NN) + call normalizebmet(bitmetrics(:,2),2*NN) + call normalizebmet(bitmetrics(:,3),2*NN) + call normalizebmet(bitmetrics(:,4),2*NN) + return + +end subroutine get_fst280_bitmetrics diff --git a/lib/fst280/ldpc_280_101_generator.f90 b/lib/fst280/ldpc_280_101_generator.f90 new file mode 100644 index 000000000..521e80026 --- /dev/null +++ b/lib/fst280/ldpc_280_101_generator.f90 @@ -0,0 +1,182 @@ +character*26 g(179) + +data g/ & + "c919bcbfe4091279702a761e98", & + "51b952dddd36200cf73cc1ed30", & + "15871d32e8e888439180cf6fd8", & + "581f858f6c89ee5ccb91664358", & + "3515e85cedf905eda366a8fc20", & + "e9fcaa6aaa9bab21bc91174e80", & + "0ac73221d424e8747628b13968", & + "4999f7116446f1a7a7a1453a30", & + "0e92773bff2a6d4f09caa48898", & + "7dfaec97c17679f6c3b6a425f0", & + "00707d76a2a7d90297ee39f660", & + "8048cc93fc4ad84ccfc021e6e0", & + "0c13df64062fed419c9bf43400", & + "5523d84459c826b7bc3335d508", & + "828ee2552144d041ed44ada8e0", & + "3f1b89fbd93f674df4813f0898", & + "4e13df64062fed419c9bf43400", & + "5d8645307d3d442991d6efafd0", & + "e5cd9b98d73aab17ce04c4df10", & + "06d26e11e2d02e9cb4f191c2b0", & + "5630cebc5b3a09f7d4fe58fab0", & + "bbfa9591589229738ecbc19288", & + "c98654d1f1f16d507e9bb77cf0", & + "c2af2107bb2bdff49d909dc730", & + "51da7da0c9b1bd18a15f580068", & + "5bdfd83e7ca3097146a5359428", & + "34fc4d397d97ca3ceb272f49a0", & + "6716a6d027ade94010e9aa90b0", & + "62ac7bb089d1a13f6e89f92348", & + "737c3ab63210e195e92e8ad478", & + "db2da5b8a21d22a7122ad80e60", & + "1226525dba4221d4768a495878", & + "a99deb4c9b7d316917b1ece958", & + "8123fb46556f22a0b57bdc7eb0", & + "cc6a80e87a7a9bf8addb17a6a8", & + "3d42bb6ca1c8d30e6cee77aa10", & + "ad15a0c2f36d4409a458cc83c0", & + "766a04039736bd8be23513ae58", & + "257a3da77558d7c707170c30c8", & + "8e54a55fd9f00eb669ab787678", & + "4ef1a73cc9da8670d83bebc588", & + "be8bb82558d44fea1ab27376a0", & + "ea9db4f88c60edf410cb0128d8", & + "a84e19a5261818262ee7247278", & + "51f99e4ea17cf84038d4e00bd0", & + "610560db4095fc44d2465308a0", & + "7688745b59c3d6baa6950c4f50", & + "4b8794914d365b6802bd62a9c8", & + "f62c211d05ed28802b9d278298", & + "b9cd45b2ffa8c0dd688f8d2bc0", & + "68555e81f4227a48e76878bc98", & + "7ab58f11d41a2d38b80d2a7558", & + "aba2d33e69077b6acad393af68", & + "81e5f58fa3ab563e73706201a8", & + "7586aea816750c41671eaa7db8", & + "af37b0a97ba5334a3dd01948e8", & + "4fdc03c263a0c42dcc265f7dc8", & + "b23f2d7f28748944cdfffd5af0", & + "5c1e6f37dfba8feacaafdb0f78", & + "3a85b051f4f1c930d921f60828", & + "72319352bd8022ce2cae2e7858", & + "78b79f633ac6879e3ac3a005a0", & + "9f0c470609669953b23328de60", & + "86d3745d50142c82a066ab9490", & + "743e7bf411490f36a9799e37e8", & + "9b8378677870933ef360d7e418", & + "5f7adbf515b663a1434b0d47d8", & + "13249a96b14c6cdcfae5009eb0", & + "da9570e0a52125d0dc4dec4430", & + "ada13ce2dbcb57e2f5b31172f0", & + "84f5485886d4157e9d37efb4d0", & + "23f58c3200bab4ae5dee54edd0", & + "d4377aadf8acb19d4369613ac8", & + "17cefcf65c87885fb6c4d537a0", & + "59d70b8536488298930aaea7f8", & + "49e8dbb08c2ecdaa84bb6a5378", & + "e1694479ecc1f87e503f959e50", & + "dbb3fc94f0f70d4bd4dcf302d8", & + "4ccb3a56f80c236424683b1588", & + "f4f123c72596a00397d56fcdf8", & + "13f9cf266a6957b87cd2b576f0", & + "0904d341bc0878460cd8361ac0", & + "69fd534caf2cccf9c90659a038", & + "757d3d95089a5bc20a7b77c618", & + "30df1d7b8124415c73190b08d8", & + "d39319584987dce0c44176d5d8", & + "1a81df299eb7434a5b6b9322a0", & + "fe4acfab1c22c7bea222f1a6b0", & + "2f2fde37fa8f87a318f7bcda10", & + "fae712210c23665aa7a3f10620", & + "977b8407c7fd22d7715077ee78", & + "2ab2b355b3477df0b738c49d48", & + "93a2468cfd11a522b310069d88", & + "0e5ae6e789ded3c0d436359318", & + "9ece0b13a3c06d560a15d3c448", & + "838e8bbf5e671503ea72ba3118", & + "7c827de9a87d740763c69c6778", & + "1fe395e4e2e6d1373602243488", & + "f2c4efee3d0ce2e22749be9e20", & + "46405cca0e40f36ab83de4a998", & + "8b6e931355a79630ef2dbdbdb8", & + "10df1d3b8124415c72190b08d8", & + "cdff258b07a4f7cfe5c2210ba8", & + "1515e85cedf904eda366a8fc20", & + "a38276f2d077abc1da5e177868", & + "67a7b5ab66f21f391d306c3330", & + "29492cc630f9bad1fdedf0c990", & + "490a6dd38170eab178f7cebf78", & + "ca9db4e88c60edf410cf0128d8", & + "e3f1c23fa8531fb1e4c7768d88", & + "39d7d8fbbb689b2a9bedfd4dd0", & + "d1b952dd5d36200cf734c1ed30", & + "0820a5ccb970d1ab109d84d700", & + "58bc3c509fcd7874e9b1533ba8", & + "08ed7724ac66b7974499b12f40", & + "4738529b2fd04afd89184b64b8", & + "7155b496e3b9f687135b4c55b8", & + "b5d1d3cf38b1765dd730d8b960", & + "296de2c373773a869b9cf804c8", & + "1cdf18b99bcc47ae72bf59df68", & + "ad0888db89dd794be0b2660e98", & + "1f2a8db9db19cd4d69a735d930", & + "44b720007480382206fdbfbb18", & + "c63817aad3801fb993ea9032c0", & + "d44707db5a0b489fd48748cca8", & + "49f98a67c6e128a5300f7ccc50", & + "04849fa9da91d4514355406388", & + "dfad3a11788cf6f6517f987de8", & + "47078a19e38a0763cabd7c8d70", & + "aafa7f864f0da5bc78f8e57ba8", & + "8acb5a34e18e111023b3e7b1f8", & + "5acc41263d6aa1767e5e6acdc8", & + "27623a9f6c1174e35394191820", & + "1f2bde9c006b3b687964b1c5e0", & + "b01c6e357bce202244b4a88d08", & + "61c85d74d7e97576507c9b0e88", & + "bcad5a44d75ae40bc43559d268", & + "10584eaf319552194418563de0", & + "b29b011d717d10a22de0983980", & + "2f9b42d7d2299449491c612b20", & + "389ba33f5fec3bfb3a0ef86b50", & + "3df89f78c19fb27ae7ff19d360", & + "65ff6ba4e107aa919a6afb4ff0", & + "39b607c3f09679a62e134cd390", & + "94ad06f7b7414727d92f998930", & + "169200459898ae0bc7f06714a0", & + "c7a5a945adebb554cb4d86a830", & + "f37c3ab63230e195e92e8ad478", & + "559a51262e91aa9ba0fa96af48", & + "fb2998ca916a557463d00fb160", & + "aa32462ada57a76ae132fc8de8", & + "e6df6b19f58bfee0b96b731b90", & + "e984335d40a54fe914a6249110", & + "ea73d8f3f14bd9fe2374e39120", & + "3adab8e51c36f53584e3669c88", & + "74ef69f64dc4fef86c3b1fe640", & + "d01c6bc112d7ae3e4ba4820a78", & + "62923979fd3c3d1153bcaaf338", & + "038f72995b5072df8fe5f4dfa0", & + "9f07e7cea2f1476fb035978790", & + "2a5aad6a75d5c86cab38fd0070", & + "a254a09cc3180854688d2aa9c8", & + "0495639712a04820f7038ae7c0", & + "d99fc716ca825ad45cca8f4518", & + "01b8d558073c0377ce67344a50", & + "2fbd0f86a17c3f93713fbd09a0", & + "c29dc84bec7b4cd00dd1c17380", & + "5e6238b823f530ae017a03f0e0", & + "51203d329c68b061977d78d4c0", & + "1186729e08cf1dfbec30237968", & + "40363018b431224a1f559d2908", & + "e334e78442b614a0c9a377e1b8", & + "ff2eda86339f589f96382f52e0", & + "58a30e07fc7a37a4f858623778", & + "f5067fe407a4c3b94ce7b63e48", & + "1d09ced788a3642bc0ec640ec8", & + "17734ca67d53cd9d8595970668", & + "47953c2105bd94bff079672740", & + "3444682d1dc0ab486036c1b0d0"/ diff --git a/lib/fst280/ldpc_280_101_parity.f90 b/lib/fst280/ldpc_280_101_parity.f90 new file mode 100644 index 000000000..b1cabb7d1 --- /dev/null +++ b/lib/fst280/ldpc_280_101_parity.f90 @@ -0,0 +1,476 @@ +data Mn/ & + 150, 151, 161, & + 6, 164, 172, & + 92, 128, 158, & + 2, 63, 135, & + 3, 14, 22, & + 4, 18, 29, & + 5, 17, 164, & + 7, 99, 179, & + 8, 88, 115, & + 9, 62, 110, & + 10, 107, 154, & + 11, 50, 140, & + 12, 28, 33, & + 13, 31, 170, & + 15, 69, 175, & + 16, 77, 178, & + 19, 70, 91, & + 20, 95, 177, & + 21, 96, 106, & + 23, 129, 168, & + 24, 49, 169, & + 25, 65, 102, & + 26, 82, 171, & + 27, 45, 137, & + 30, 89, 119, & + 32, 148, 158, & + 34, 94, 152, & + 35, 44, 92, & + 36, 39, 138, & + 37, 55, 58, & + 38, 121, 165, & + 40, 81, 162, & + 41, 139, 150, & + 42, 43, 83, & + 46, 80, 114, & + 47, 52, 54, & + 48, 166, 173, & + 38, 53, 87, & + 56, 64, 126, & + 57, 67, 127, & + 59, 156, 159, & + 60, 97, 133, & + 61, 118, 161, & + 66, 100, 123, & + 68, 124, 131, & + 71, 101, 155, & + 72, 74, 144, & + 73, 112, 141, & + 75, 136, 149, & + 59, 78, 117, & + 79, 130, 163, & + 84, 93, 113, & + 86, 108, 163, & + 103, 146, 157, & + 70, 104, 145, & + 105, 128, 142, & + 74, 109, 122, & + 54, 111, 153, & + 116, 154, 176, & + 120, 132, 167, & + 21, 125, 147, & + 134, 143, 166, & + 7, 81, 160, & + 32, 99, 174, & + 1, 93, 104, & + 2, 69, 98, & + 3, 33, 152, & + 4, 46, 159, & + 5, 126, 178, & + 6, 127, 147, & + 8, 101, 110, & + 9, 73, 158, & + 10, 120, 123, & + 11, 122, 125, & + 12, 58, 170, & + 13, 88, 105, & + 14, 133, 150, & + 15, 92, 100, & + 16, 90, 108, & + 17, 44, 106, & + 18, 35, 175, & + 19, 94, 179, & + 20, 97, 153, & + 22, 109, 130, & + 23, 63, 140, & + 24, 37, 146, & + 25, 141, 168, & + 26, 95, 115, & + 27, 107, 149, & + 28, 91, 168, & + 29, 134, 144, & + 30, 31, 169, & + 34, 40, 96, & + 36, 156, 172, & + 39, 61, 135, & + 41, 42, 121, & + 43, 57, 117, & + 45, 62, 72, & + 47, 137, 167, & + 48, 83, 116, & + 49, 65, 173, & + 1, 50, 141, & + 2, 8, 150, & + 3, 62, 140, & + 4, 104, 124, & + 5, 128, 139, & + 6, 64, 159, & + 7, 103, 176, & + 2, 11, 104, & + 9, 71, 85, & + 10, 80, 131, & + 11, 17, 130, & + 12, 148, 156, & + 13, 39, 164, & + 14, 15, 167, & + 14, 32, 89, & + 16, 114, 135, & + 8, 164, 169, & + 18, 107, 129, & + 19, 53, 102, & + 20, 134, 170, & + 21, 43, 145, & + 22, 24, 76, & + 23, 44, 146, & + 19, 22, 101, & + 25, 41, 48, & + 26, 46, 58, & + 27, 82, 87, & + 28, 78, 179, & + 29, 73, 81, & + 30, 116, 161, & + 31, 96, 157, & + 15, 58, 172, & + 10, 33, 160, & + 34, 110, 118, & + 33, 35, 113, & + 36, 166, 175, & + 32, 37, 152, & + 38, 57, 74, & + 13, 82, 176, & + 40, 42, 45, & + 25, 57, 177, & + 40, 120, 136, & + 21, 92, 121, & + 23, 34, 147, & + 12, 45, 54, & + 3, 46, 48, & + 47, 91, 169, & + 26, 61, 132, & + 49, 123, 147, & + 1, 79, 88, & + 51, 97, 101, & + 52, 155, 177, & + 24, 72, 105, & + 54, 84, 106, & + 55, 63, 126, & + 56, 72, 163, & + 38, 63, 170, & + 37, 71, 178, & + 20, 49, 59, & + 30, 60, 117, & + 61, 65, 137, & + 41, 98, 119, & + 47, 51, 62, & + 6, 76, 131, & + 55, 70, 81, & + 66, 111, 119, & + 60, 67, 94, & + 68, 112, 132, & + 9, 69, 157, & + 70, 75, 89, & + 69, 108, 153, & + 44, 53, 77, & + 29, 130, 149, & + 65, 103, 125, & + 74, 85, 156, & + 56, 67, 68, & + 77, 138, 144, & + 28, 95, 138, & + 79, 133, 142, & + 35, 50, 86, & + 73, 78, 137, & + 27, 126, 175, & + 83, 100, 143, & + 42, 142, 168, & + 40, 48, 158, & + 86, 95, 174, & + 39, 109, 129, & + 59, 88, 125, & + 6, 89, 155, & + 36, 90, 102, & + 75, 97, 141, & + 43, 146, 148, & + 93, 149, 168, & + 52, 83, 94, & + 80, 87, 106, & + 91, 96, 143, & + 3, 43, 126, & + 98, 154, 162, & + 99, 115, 173, & + 5, 84, 100, & + 64, 133, 154, & + 90, 117, 158, & + 7, 108, 151, & + 4, 128, 167, & + 105, 127, 136, & + 1, 83, 114, & + 107, 127, 134, & + 4, 108, 170, & + 92, 109, 171, & + 110, 113, 122, & + 111, 124, 166, & + 12, 112, 150, & + 2, 95, 105, & + 17, 114, 118, & + 99, 139, 144, & + 116, 165, 178, & + 5, 22, 73, & + 16, 115, 162, & + 13, 34, 41, & + 120, 122, 151, & + 121, 160, 172, & + 8, 37, 102, & + 123, 140, 165, & + 7, 53, 93, & + 9, 10, 130, & + 11, 30, 58, & + 31, 66, 179, & + 14, 31, 45, & + 15, 88, 129, & + 18, 101, 148, & + 16, 62, 127, & + 17, 20, 68, & + 19, 86, 98, & + 25, 106, 163, & + 135, 152, 163, & + 23, 124, 137, & + 21, 28, 71, & + 24, 26, 153, & + 29, 90, 123, & + 32, 113, 134, & + 35, 57, 169, & + 27, 50, 139, & + 33, 60, 65, & + 38, 61, 142, & + 145, 153, 154, & + 39, 67, 81, & + 36, 84, 133, & + 18, 161, 173, & + 93, 155, 171, & + 42, 99, 131, & + 49, 87, 162, & + 51, 56, 168, & + 47, 125, 144, & + 44, 143, 159, & + 46, 75, 138, & + 52, 78, 107, & + 54, 109, 174, & + 64, 110, 179, & + 159, 165, 174, & + 66, 135, 171, & + 63, 76, 117, & + 59, 111, 120, & + 72, 160, 166, & + 70, 118, 156, & + 55, 157, 173, & + 74, 100, 176, & + 77, 112, 145, & + 69, 141, 147, & + 94, 140, 151, & + 51, 82, 104, & + 85, 98, 167, & + 80, 119, 146, & + 97, 122, 172, & + 90, 96, 132, & + 79, 91, 178, & + 103, 136, 152, & + 1, 76, 85, & + 115, 121, 149, & + 116, 175, 177/ + +data Nm/ & + 65, 102, 151, 207, 278, 0, & + 4, 66, 103, 109, 214, 0, & + 5, 67, 104, 147, 198, 0, & + 6, 68, 105, 205, 209, 0, & + 7, 69, 106, 201, 218, 0, & + 2, 70, 107, 165, 190, 0, & + 8, 63, 108, 204, 225, 0, & + 9, 71, 103, 118, 223, 0, & + 10, 72, 110, 170, 226, 0, & + 11, 73, 111, 134, 226, 0, & + 12, 74, 109, 112, 227, 0, & + 13, 75, 113, 146, 213, 0, & + 14, 76, 114, 140, 220, 0, & + 5, 77, 115, 116, 229, 0, & + 15, 78, 115, 133, 230, 0, & + 16, 79, 117, 219, 232, 0, & + 7, 80, 112, 215, 233, 0, & + 6, 81, 119, 231, 249, 0, & + 17, 82, 120, 125, 234, 0, & + 18, 83, 121, 160, 233, 0, & + 19, 61, 122, 144, 238, 0, & + 5, 84, 123, 125, 218, 0, & + 20, 85, 124, 145, 237, 0, & + 21, 86, 123, 154, 239, 0, & + 22, 87, 126, 142, 235, 0, & + 23, 88, 127, 149, 239, 0, & + 24, 89, 128, 183, 243, 0, & + 13, 90, 129, 179, 238, 0, & + 6, 91, 130, 174, 240, 0, & + 25, 92, 131, 161, 227, 0, & + 14, 92, 132, 228, 229, 0, & + 26, 64, 116, 138, 241, 0, & + 13, 67, 134, 136, 244, 0, & + 27, 93, 135, 145, 220, 0, & + 28, 81, 136, 181, 242, 0, & + 29, 94, 137, 191, 248, 0, & + 30, 86, 138, 159, 223, 0, & + 31, 38, 139, 158, 245, 0, & + 29, 95, 114, 188, 247, 0, & + 32, 93, 141, 143, 186, 0, & + 33, 96, 126, 163, 220, 0, & + 34, 96, 141, 185, 251, 0, & + 34, 97, 122, 193, 198, 0, & + 28, 80, 124, 173, 255, 0, & + 24, 98, 141, 146, 229, 0, & + 35, 68, 127, 147, 256, 0, & + 36, 99, 148, 164, 254, 0, & + 37, 100, 126, 147, 186, 0, & + 21, 101, 150, 160, 252, 0, & + 12, 102, 181, 243, 0, 0, & + 152, 164, 253, 271, 0, 0, & + 36, 153, 195, 257, 0, 0, & + 38, 120, 173, 225, 0, 0, & + 36, 58, 146, 155, 258, 0, & + 30, 156, 166, 266, 0, 0, & + 39, 157, 177, 253, 0, 0, & + 40, 97, 139, 142, 242, 0, & + 30, 75, 127, 133, 227, 0, & + 41, 50, 160, 189, 263, 0, & + 42, 161, 168, 244, 0, 0, & + 43, 95, 149, 162, 245, 0, & + 10, 98, 104, 164, 232, 0, & + 4, 85, 156, 158, 262, 0, & + 39, 107, 202, 259, 0, 0, & + 22, 101, 162, 175, 244, 0, & + 44, 167, 228, 261, 0, 0, & + 40, 168, 177, 247, 0, 0, & + 45, 169, 177, 233, 0, 0, & + 15, 66, 170, 172, 269, 0, & + 17, 55, 166, 171, 265, 0, & + 46, 110, 159, 238, 0, 0, & + 47, 98, 154, 157, 264, 0, & + 48, 72, 130, 182, 218, 0, & + 47, 57, 139, 176, 267, 0, & + 49, 171, 192, 256, 0, 0, & + 123, 165, 262, 278, 0, 0, & + 16, 173, 178, 268, 0, 0, & + 50, 129, 182, 257, 0, 0, & + 51, 151, 180, 276, 0, 0, & + 35, 111, 196, 273, 0, 0, & + 32, 63, 130, 166, 247, 0, & + 23, 128, 140, 271, 0, 0, & + 34, 100, 184, 195, 207, 0, & + 52, 155, 201, 248, 0, 0, & + 110, 176, 272, 278, 0, 0, & + 53, 181, 187, 234, 0, 0, & + 38, 128, 196, 252, 0, 0, & + 9, 76, 151, 189, 230, 0, & + 25, 116, 171, 190, 0, 0, & + 79, 191, 203, 240, 275, 0, & + 17, 90, 148, 197, 276, 0, & + 3, 28, 78, 144, 210, 0, & + 52, 65, 194, 225, 250, 0, & + 27, 82, 168, 195, 270, 0, & + 18, 88, 179, 187, 214, 0, & + 19, 93, 132, 197, 275, 0, & + 42, 83, 152, 192, 274, 0, & + 66, 163, 199, 234, 272, 0, & + 8, 64, 200, 216, 251, 0, & + 44, 78, 184, 201, 267, 0, & + 46, 71, 125, 152, 231, 0, & + 22, 120, 191, 223, 0, 0, & + 54, 108, 175, 277, 0, 0, & + 55, 65, 105, 109, 271, 0, & + 56, 76, 154, 206, 214, 0, & + 19, 80, 155, 196, 235, 0, & + 11, 89, 119, 208, 257, 0, & + 53, 79, 172, 204, 209, 0, & + 57, 84, 188, 210, 258, 0, & + 10, 71, 135, 211, 259, 0, & + 58, 167, 212, 263, 0, 0, & + 48, 169, 213, 268, 0, 0, & + 52, 136, 211, 241, 0, 0, & + 35, 117, 207, 215, 0, 0, & + 9, 88, 200, 219, 279, 0, & + 59, 100, 131, 217, 280, 0, & + 50, 97, 161, 203, 262, 0, & + 43, 135, 215, 265, 0, 0, & + 25, 163, 167, 273, 0, 0, & + 60, 73, 143, 221, 263, 0, & + 31, 96, 144, 222, 279, 0, & + 57, 74, 211, 221, 274, 0, & + 44, 73, 150, 224, 240, 0, & + 45, 105, 212, 237, 0, 0, & + 61, 74, 175, 189, 254, 0, & + 39, 69, 156, 183, 198, 0, & + 40, 70, 206, 208, 232, 0, & + 3, 56, 106, 205, 0, 0, & + 20, 119, 188, 230, 0, 0, & + 51, 84, 112, 174, 226, 0, & + 45, 111, 165, 251, 0, 0, & + 60, 149, 169, 275, 0, 0, & + 42, 77, 180, 202, 248, 0, & + 62, 91, 121, 208, 241, 0, & + 4, 95, 117, 236, 261, 0, & + 49, 143, 206, 277, 0, 0, & + 24, 99, 162, 182, 237, 0, & + 29, 178, 179, 256, 0, 0, & + 33, 106, 216, 243, 0, 0, & + 12, 85, 104, 224, 270, 0, & + 48, 87, 102, 192, 269, 0, & + 56, 180, 185, 245, 0, 0, & + 62, 184, 197, 255, 0, 0, & + 47, 91, 178, 216, 254, 0, & + 55, 122, 246, 268, 0, 0, & + 54, 86, 124, 193, 273, 0, & + 61, 70, 145, 150, 269, 0, & + 26, 113, 193, 231, 0, 0, & + 49, 89, 174, 194, 279, 0, & + 1, 33, 77, 103, 213, 0, & + 1, 204, 221, 270, 0, 0, & + 27, 67, 138, 236, 277, 0, & + 58, 83, 172, 239, 246, 0, & + 11, 59, 199, 202, 246, 0, & + 46, 153, 190, 250, 0, 0, & + 41, 94, 113, 176, 265, 0, & + 54, 132, 170, 266, 0, 0, & + 3, 26, 72, 186, 203, 0, & + 41, 68, 107, 255, 260, 0, & + 63, 134, 222, 264, 0, 0, & + 1, 43, 131, 249, 0, 0, & + 32, 199, 219, 252, 0, 0, & + 51, 53, 157, 235, 236, 0, & + 2, 7, 114, 118, 0, 0, & + 31, 217, 224, 260, 0, 0, & + 37, 62, 137, 212, 264, 0, & + 60, 99, 115, 205, 272, 0, & + 20, 87, 90, 185, 194, 253, & + 21, 92, 118, 148, 242, 0, & + 14, 75, 121, 158, 209, 0, & + 23, 210, 250, 261, 0, 0, & + 2, 94, 133, 222, 274, 0, & + 37, 101, 200, 249, 266, 0, & + 64, 187, 258, 260, 0, 0, & + 15, 81, 137, 183, 280, 0, & + 59, 108, 140, 267, 0, 0, & + 18, 142, 153, 280, 0, 0, & + 16, 69, 159, 217, 276, 0, & + 8, 82, 129, 228, 259, 0/ + +data nrw/ & +5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5, & +5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5, & +5,5,5,5,5,5,5,5,5,4,4,4,4,5,4,4,5,5,5,4, & +5,5,5,4,5,4,4,4,5,5,4,5,5,5,4,4,4,4,4,4, & +5,4,5,4,4,4,4,5,4,5,5,5,5,5,5,5,5,5,5,5, & +5,4,4,5,5,5,5,5,5,5,4,4,4,4,5,5,5,4,4,5, & +5,5,5,4,5,5,5,4,4,5,4,4,5,5,5,4,5,4,4,5, & +5,4,4,5,4,5,5,4,5,5,4,5,5,5,4,5,4,5,5,4, & +4,4,5,4,4,5,5,6,5,5,4,5,5,4,5,4,4,5,5/ + +ncw=3 + diff --git a/lib/fst280/ldpc_280_74_generator.f90 b/lib/fst280/ldpc_280_74_generator.f90 new file mode 100644 index 000000000..8625e2fd2 --- /dev/null +++ b/lib/fst280/ldpc_280_74_generator.f90 @@ -0,0 +1,209 @@ +character*19 g(206) + +data g/ & + "f7842fd3230388e2388", & + "2ebea0b08a75d2261cc", & + "b037d38c9d9b9a5e520", & + "936729d89fd5474ecdc", & + "539287b4ef7ee4534a8", & + "a4d283607d3a5020508", & + "f4539f434b8b8585444", & + "1c7b56480cc52fa5228", & + "a1c788b066ac91de648", & + "6592203e5579bbd9248", & + "aaa9e1247a75c451654", & + "f06cbce3477735fcdac", & + "0b3bd1b2eb21c4a58e8", & + "9789c1e9afeaefe132c", & + "6f3090a344262fe9588", & + "523326e51ec096314c0", & + "33ad630efa2f0547a1c", & + "128e4669c5290997554", & + "d21ba68abe8a45c7388", & + "14792ff07616833ddcc", & + "f336703cec81b57b9d4", & + "dcb179c1ede8a193578", & + "19a5027744d4d5fc3ec", & + "416cb1bc4f9fc83f03c", & + "245f12d8a19902ff678", & + "3a9653df6b08f65e934", & + "94870f042c4015d30d0", & + "7db806a2e50336e78bc", & + "d799458b3559526d2a8", & + "77e7cfd440146912610", & + "67c9ca176f188a99b1c", & + "dd736cb5cbfaa6f6cb0", & + "1210f8c1310dde522e4", & + "3bdf62af1d111a616a8", & + "556e0b2cb64629c03e0", & + "153b771b34fd0e24038", & + "677111e1bd26700abec", & + "ba6a2362c2249224dc8", & + "96d96eda9f7d897b3a4", & + "ee632974db8208ed678", & + "ba6e8ace7ca7e5dba2c", & + "112aa2048b8723c3794", & + "04125e68eed114d3a74", & + "6ce3283112a3d15df18", & + "6717fa02c4245ac3cd4", & + "bba51cf56c4ab60d0e8", & + "bf02614f56d95557004", & + "db8d9537a66dae71170", & + "2aa9e1247a75c451614", & + "37887845236cdc5a498", & + "5a0fd4682a5116e3bd4", & + "66a13f0f4838812f4b0", & + "0189837a15fb8a3ea28", & + "bd833c6eb639530bb4c", & + "ad2cb697dcd08717134", & + "d28c4e5b0e4f93921e8", & + "4a10da97be29877762c", & + "11b1d2dbd7e029e0034", & + "8cebf77857fd5b4b2d0", & + "8cf76e6929f04a6f2d0", & + "4dfdef39d983b6ff054", & + "e19594dcc430c3f36f8", & + "b4e0a5979e86ca9e7d8", & + "c6e5822a81c720e1da8", & + "d8b1374afa4f4534c2c", & + "d50ebca7ce5022d72b8", & + "d1af50dba58c8b978d4", & + "0114771daca21b8a4e8", & + "5a12be303c2bcc6cad0", & + "75ba0d26c70194e20dc", & + "feeb4567ccdd6d44334", & + "de993868f8b317cdb08", & + "8c0f2fc7b031a0354ec", & + "df2ddab6d334a1316fc", & + "d410f54de1453f63024", & + "14870f042c4011d30d0", & + "bf8bb7654c089ff49f4", & + "48fe5211864e84af104", & + "a212348c05d3f2f7c8c", & + "1cb6e7158001aa32fa0", & + "bb2700d89c358ea9f74", & + "f5ff926daf5e6003708", & + "7eecbcdc28e9800b97c", & + "b38c9a3ff4e36761180", & + "aff8af260682347a39c", & + "24c2e6bf10c093cb8b8", & + "7633edd7825917114ec", & + "3383b1074eee8343950", & + "3d0636cf743b45409bc", & + "e6191c1e4753a438054", & + "a5ed8c6a5c54aaa2d0c", & + "2335c47d4da16e79fd4", & + "56f62a484a6243fea04", & + "090c7572a6b53ed67d8", & + "a12212511d2fe5a7a04", & + "55653c6f1cd716dfafc", & + "25fb9166056f5276e50", & + "b5500cd4a5a4903b794", & + "5aaa65c6ee1732ffa20", & + "702a7660612fd7307fc", & + "bbf00390ef7bb4219f4", & + "36a23bd84e7d142dc28", & + "00dd156a637e5b6cf34", & + "d960448d1d09f7a3d5c", & + "7cc7c47ef82e670f740", & + "0c72af8643fa31e0df8", & + "c60997484551c3304ec", & + "5234c7b54ce0fb97cd4", & + "e4551cf6ddc5bf7b85c", & + "7320bbe8f600cb3f654", & + "b25ac980a31e7d449e8", & + "da25337deba0f2a1024", & + "4b54fafbcdf9f159c70", & + "75252e36d57dc65a0c8", & + "9f792800ecd943f8784", & + "fb7d1b209de7997cd40", & + "f47e660b960bf39cda4", & + "630017e41ef1e01b3bc", & + "047d83c03cd1e69929c", & + "0b8be375675a21f6c50", & + "aebfa0b08a75d2261cc", & + "dcd8bfe5b2b83f3276c", & + "862503814b89c46f268", & + "caf108899bef63422e0", & + "0651e9975e9eb3049bc", & + "d2418a98d6be4bb1368", & + "0f886c109cbf0643a64", & + "ae76a8d1d71335942cc", & + "66a0d75d3f90f0d0c04", & + "51d30039a555c4ac8cc", & + "9d7a4b82e9323439734", & + "2475d34a372b289eba4", & + "2468b9122171f215a80", & + "f1eb642be43a6d15e74", & + "001d6a58165ada8f124", & + "dd770baa38e1f8c2fd8", & + "03e026dcb395529dc0c", & + "46dc96eb5146f71a614", & + "1402ba94f9d9e1ff3dc", & + "dd7970ccb883bf18678", & + "29ddaca7cd0bf0151f4", & + "865c5ec3ab28496ade4", & + "97d388a7557a659e7f8", & + "78ba47aec4ff81965dc", & + "26a0c75d3f90f0d0c04", & + "48bc3be9b33ad3a2960", & + "e9c4c425a39b4fa6520", & + "2a8cfed864a4c6f5bb8", & + "de273ccb39330dd42a0", & + "c7e0c4a6641be9a6934", & + "f8b8514aebccc0086a4", & + "0f2b8fda05f0d07629c", & + "8734be755b106490e04", & + "789a87c164b552602d4", & + "b588408fb1a6c128874", & + "9dddcc7da27769ac544", & + "288b20a6f933bab6328", & + "f38c9a3ff4e26761180", & + "dc5613392113fea3498", & + "62dcbccf74e9673662c", & + "729e135a6b13b1eb084", & + "3045e9bb3c808018868", & + "0d1e2b1a48642a04dac", & + "abb1dced614797b1288", & + "d29fba8d71829beb4a0", & + "8f4a38515de6db613c4", & + "67194fd309de34d2178", & + "fc73d1f5ea8fd6bf49c", & + "c6289740e2b97b8d29c", & + "6100d464faa8f4f3068", & + "2cb7e414a3da6ca0988", & + "b439b0fdfdf891f28ec", & + "b7d3aaa693c7f068120", & + "25d691a2bc6288c1c50", & + "52f1f88c882d24a5f9c", & + "9892d88821ebd874f1c", & + "fbda9cdf96a2c4e9b30", & + "7716ec58ca1ac237f90", & + "6993c923557c6c68b68", & + "eb32c8c6a30622d0c28", & + "ba7980eafa803e1d3dc", & + "a92b5a9ca961bf9a5bc", & + "36ecfc5928f2c7be4cc", & + "ab854e4b7a9944840d4", & + "62db1428386b97101e4", & + "734bc6eb48e3024c7a0", & + "5b06c92d9089c7e6e38", & + "c7d02e44052506c6d14", & + "d35f553090ce90d3b04", & + "5462cf72405e2525d7c", & + "c9b85ab24e5188e5d18", & + "d0bb27c6092eb01dc7c", & + "37036df9c68bfe4eb24", & + "4387156e9b00d277ce0", & + "a39bb776102878c96a4", & + "d6f1cd9b329e7d0b374", & + "d74ba376dbaa9de5270", & + "58df754b03e0fa7a714", & + "14dfaffe9ab7ba93ce8", & + "36652b8b0226f6cc940", & + "777234e72dd631499ac", & + "581964c38824c5a58f8", & + "187cba427974172c6a0", & + "a90588951da0399e6f0", & + "3ddb7427533342f51cc", & + "25d308610cf492a5ac4"/ diff --git a/lib/fst280/ldpc_280_74_parity.f90 b/lib/fst280/ldpc_280_74_parity.f90 new file mode 100644 index 000000000..302edeb25 --- /dev/null +++ b/lib/fst280/ldpc_280_74_parity.f90 @@ -0,0 +1,504 @@ +data Mn/ & + 95, 150, 172, & + 154, 178, 184, & + 1, 90, 164, & + 2, 143, 199, & + 3, 33, 70, & + 4, 23, 86, & + 5, 127, 174, & + 6, 18, 110, & + 7, 59, 99, & + 8, 94, 124, & + 9, 168, 206, & + 10, 165, 175, & + 11, 64, 166, & + 12, 103, 156, & + 13, 46, 80, & + 14, 35, 172, & + 15, 20, 189, & + 16, 162, 188, & + 17, 74, 200, & + 19, 52, 178, & + 21, 87, 182, & + 22, 30, 144, & + 24, 37, 126, & + 25, 107, 171, & + 26, 114, 187, & + 27, 36, 53, & + 28, 91, 169, & + 29, 100, 109, & + 31, 71, 192, & + 32, 106, 190, & + 34, 160, 204, & + 38, 93, 136, & + 39, 77, 196, & + 40, 43, 177, & + 41, 56, 66, & + 42, 115, 151, & + 44, 155, 180, & + 45, 105, 128, & + 47, 54, 203, & + 48, 117, 120, & + 49, 62, 183, & + 50, 185, 202, & + 51, 83, 147, & + 55, 75, 170, & + 57, 79, 205, & + 58, 67, 159, & + 60, 81, 201, & + 61, 89, 184, & + 63, 119, 198, & + 65, 104, 152, & + 68, 149, 191, & + 69, 134, 167, & + 72, 102, 129, & + 73, 95, 108, & + 76, 82, 146, & + 78, 112, 173, & + 84, 141, 161, & + 85, 138, 157, & + 92, 132, 145, & + 96, 131, 181, & + 97, 110, 121, & + 98, 133, 153, & + 74, 101, 195, & + 111, 118, 183, & + 113, 130, 163, & + 116, 176, 193, & + 125, 188, 194, & + 135, 142, 148, & + 28, 137, 140, & + 33, 68, 150, & + 46, 51, 179, & + 6, 186, 198, & + 79, 138, 197, & + 1, 30, 122, & + 1, 58, 162, & + 2, 9, 172, & + 3, 71, 161, & + 4, 119, 142, & + 5, 147, 160, & + 6, 73, 183, & + 7, 118, 202, & + 8, 82, 98, & + 2, 47, 56, & + 10, 92, 151, & + 11, 19, 150, & + 12, 169, 179, & + 13, 43, 188, & + 14, 15, 192, & + 14, 82, 120, & + 16, 131, 155, & + 17, 123, 148, & + 18, 60, 117, & + 11, 90, 134, & + 20, 154, 195, & + 21, 47, 166, & + 22, 24, 86, & + 23, 48, 167, & + 21, 22, 190, & + 25, 44, 53, & + 26, 50, 64, & + 4, 27, 95, & + 28, 87, 205, & + 1, 29, 183, & + 30, 132, 185, & + 31, 108, 180, & + 32, 38, 174, & + 33, 36, 128, & + 34, 125, 134, & + 35, 190, 201, & + 30, 33, 142, & + 37, 61, 81, & + 32, 65, 70, & + 39, 40, 41, & + 36, 39, 78, & + 40, 140, 144, & + 42, 100, 194, & + 9, 13, 111, & + 20, 25, 115, & + 45, 140, 165, & + 10, 46, 60, & + 15, 43, 200, & + 23, 113, 158, & + 16, 49, 150, & + 12, 26, 164, & + 51, 88, 115, & + 52, 63, 141, & + 44, 101, 187, & + 34, 54, 173, & + 55, 93, 139, & + 56, 67, 102, & + 57, 62, 152, & + 29, 80, 89, & + 5, 59, 195, & + 18, 100, 156, & + 28, 61, 162, & + 31, 62, 163, & + 38, 52, 103, & + 50, 149, 175, & + 65, 122, 138, & + 66, 112, 171, & + 24, 68, 198, & + 68, 69, 84, & + 51, 69, 108, & + 70, 146, 159, & + 3, 91, 201, & + 72, 143, 149, & + 6, 129, 188, & + 74, 104, 153, & + 54, 75, 186, & + 76, 95, 200, & + 77, 120, 168, & + 41, 104, 182, & + 79, 144, 187, & + 58, 171, 193, & + 37, 85, 135, & + 8, 174, 197, & + 83, 163, 176, & + 53, 67, 184, & + 85, 99, 196, & + 76, 84, 138, & + 77, 87, 194, & + 86, 123, 202, & + 57, 89, 146, & + 27, 90, 97, & + 91, 126, 136, & + 46, 107, 113, & + 55, 189, 204, & + 94, 111, 130, & + 19, 139, 152, & + 96, 121, 158, & + 75, 88, 94, & + 93, 98, 157, & + 79, 81, 203, & + 42, 148, 206, & + 101, 156, 181, & + 97, 114, 154, & + 103, 170, 175, & + 78, 106, 191, & + 105, 109, 135, & + 64, 74, 176, & + 73, 92, 169, & + 80, 132, 181, & + 71, 105, 186, & + 110, 137, 204, & + 21, 159, 192, & + 35, 66, 137, & + 48, 127, 205, & + 114, 182, 193, & + 2, 18, 163, & + 59, 116, 129, & + 99, 107, 119, & + 7, 121, 125, & + 102, 109, 141, & + 19, 87, 160, & + 96, 165, 172, & + 63, 118, 147, & + 17, 143, 196, & + 124, 164, 173, & + 112, 117, 131, & + 52, 151, 180, & + 127, 198, 199, & + 106, 110, 167, & + 116, 177, 178, & + 72, 130, 155, & + 49, 177, 203, & + 128, 133, 166, & + 133, 189, 206, & + 75, 145, 191, & + 1, 51, 133, & + 83, 136, 168, & + 4, 155, 179, & + 3, 127, 157, & + 90, 170, 190, & + 5, 140, 164, & + 6, 139, 196, & + 31, 34, 142, & + 7, 53, 104, & + 11, 39, 109, & + 145, 178, 197, & + 25, 143, 146, & + 8, 134, 181, & + 9, 61, 174, & + 10, 41, 198, & + 12, 135, 159, & + 14, 79, 113, & + 13, 33, 66, & + 153, 161, 188, & + 16, 20, 136, & + 17, 45, 180, & + 22, 100, 116, & + 15, 118, 191, & + 157, 179, 184, & + 37, 110, 185, & + 30, 141, 168, & + 27, 176, 189, & + 28, 76, 186, & + 24, 26, 111, & + 124, 185, 199, & + 45, 122, 126, & + 35, 72, 147, & + 32, 119, 194, & + 36, 50, 138, & + 23, 29, 175, & + 42, 67, 124, & + 40, 89, 94, & + 43, 103, 199, & + 49, 151, 167, & + 44, 84, 204, & + 47, 48, 122, & + 46, 105, 195, & + 55, 96, 177, & + 57, 59, 106, & + 38, 54, 193, & + 58, 86, 152, & + 63, 101, 162, & + 60, 98, 123, & + 64, 115, 205, & + 62, 200, 201, & + 65, 73, 154, & + 56, 82, 183, & + 69, 91, 99, & + 70, 202, 203, & + 74, 112, 197, & + 71, 131, 206, & + 77, 165, 171, & + 68, 97, 120, & + 78, 156, 161, & + 80, 114, 148, & + 83, 92, 187, & + 88, 102, 158, & + 107, 145, 166, & + 122, 125, 130, & + 85, 117, 170, & + 121, 128, 169, & + 126, 129, 173, & + 153, 158, 160, & + 93, 144, 149, & + 88, 123, 137, & + 81, 108, 182, & + 132, 139, 192/ + +data Nm/ & + 3, 74, 75, 103, 209, & + 4, 76, 83, 189, 0, & + 5, 77, 145, 212, 0, & + 6, 78, 101, 211, 0, & + 7, 79, 133, 214, 0, & + 8, 72, 80, 147, 215, & + 9, 81, 192, 217, 0, & + 10, 82, 156, 221, 0, & + 11, 76, 117, 222, 0, & + 12, 84, 120, 223, 0, & + 13, 85, 93, 218, 0, & + 14, 86, 124, 224, 0, & + 15, 87, 117, 226, 0, & + 16, 88, 89, 225, 0, & + 17, 88, 121, 231, 0, & + 18, 90, 123, 228, 0, & + 19, 91, 197, 229, 0, & + 8, 92, 134, 189, 0, & + 20, 85, 169, 194, 0, & + 17, 94, 118, 228, 0, & + 21, 95, 98, 185, 0, & + 22, 96, 98, 230, 0, & + 6, 97, 122, 243, 0, & + 23, 96, 141, 237, 0, & + 24, 99, 118, 220, 0, & + 25, 100, 124, 237, 0, & + 26, 101, 164, 235, 0, & + 27, 69, 102, 135, 236, & + 28, 103, 132, 243, 0, & + 22, 74, 104, 110, 234, & + 29, 105, 136, 216, 0, & + 30, 106, 112, 241, 0, & + 5, 70, 107, 110, 226, & + 31, 108, 128, 216, 0, & + 16, 109, 186, 240, 0, & + 26, 107, 114, 242, 0, & + 23, 111, 155, 233, 0, & + 32, 106, 137, 253, 0, & + 33, 113, 114, 218, 0, & + 34, 113, 115, 245, 0, & + 35, 113, 152, 223, 0, & + 36, 116, 174, 244, 0, & + 34, 87, 121, 246, 0, & + 37, 99, 127, 248, 0, & + 38, 119, 229, 239, 0, & + 15, 71, 120, 166, 250, & + 39, 83, 95, 249, 0, & + 40, 97, 187, 249, 0, & + 41, 123, 205, 247, 0, & + 42, 100, 138, 242, 0, & + 43, 71, 125, 143, 209, & + 20, 126, 137, 200, 0, & + 26, 99, 158, 217, 0, & + 39, 128, 149, 253, 0, & + 44, 129, 167, 251, 0, & + 35, 83, 130, 260, 0, & + 45, 131, 163, 252, 0, & + 46, 75, 154, 254, 0, & + 9, 133, 190, 252, 0, & + 47, 92, 120, 256, 0, & + 48, 111, 135, 222, 0, & + 41, 131, 136, 258, 0, & + 49, 126, 196, 255, 0, & + 13, 100, 180, 257, 0, & + 50, 112, 139, 259, 0, & + 35, 140, 186, 226, 0, & + 46, 130, 158, 244, 0, & + 51, 70, 141, 142, 266, & + 52, 142, 143, 261, 0, & + 5, 112, 144, 262, 0, & + 29, 77, 183, 264, 0, & + 53, 146, 204, 240, 0, & + 54, 80, 181, 259, 0, & + 19, 63, 148, 180, 263, & + 44, 149, 171, 208, 0, & + 55, 150, 160, 236, 0, & + 33, 151, 161, 265, 0, & + 56, 114, 178, 267, 0, & + 45, 73, 153, 173, 225, & + 15, 132, 182, 268, 0, & + 47, 111, 173, 279, 0, & + 55, 82, 89, 260, 0, & + 43, 157, 210, 269, 0, & + 57, 142, 160, 248, 0, & + 58, 155, 159, 273, 0, & + 6, 96, 162, 254, 0, & + 21, 102, 161, 194, 0, & + 125, 171, 270, 278, 0, & + 48, 132, 163, 245, 0, & + 3, 93, 164, 213, 0, & + 27, 145, 165, 261, 0, & + 59, 84, 181, 269, 0, & + 32, 129, 172, 277, 0, & + 10, 168, 171, 245, 0, & + 1, 54, 101, 150, 0, & + 60, 170, 195, 251, 0, & + 61, 164, 176, 266, 0, & + 62, 82, 172, 256, 0, & + 9, 159, 191, 261, 0, & + 28, 116, 134, 230, 0, & + 63, 127, 175, 255, 0, & + 53, 130, 193, 270, 0, & + 14, 137, 177, 246, 0, & + 50, 148, 152, 217, 0, & + 38, 179, 183, 250, 0, & + 30, 178, 202, 252, 0, & + 24, 166, 191, 271, 0, & + 54, 105, 143, 279, 0, & + 28, 179, 193, 218, 0, & + 8, 61, 184, 202, 233, & + 64, 117, 168, 237, 0, & + 56, 140, 199, 263, 0, & + 65, 122, 166, 225, 0, & + 25, 176, 188, 268, 0, & + 36, 118, 125, 257, 0, & + 66, 190, 203, 230, 0, & + 40, 92, 199, 273, 0, & + 64, 81, 196, 231, 0, & + 49, 78, 191, 241, 0, & + 40, 89, 151, 266, 0, & + 61, 170, 192, 274, 0, & + 74, 139, 239, 249, 272, & + 91, 162, 256, 278, 0, & + 10, 198, 238, 244, 0, & + 67, 108, 192, 272, 0, & + 23, 165, 239, 275, 0, & + 7, 187, 201, 212, 0, & + 38, 107, 206, 274, 0, & + 53, 147, 190, 275, 0, & + 65, 168, 204, 272, 0, & + 60, 90, 199, 264, 0, & + 59, 104, 182, 280, 0, & + 62, 206, 207, 209, 0, & + 52, 93, 108, 221, 0, & + 68, 155, 179, 224, 0, & + 32, 165, 210, 228, 0, & + 69, 184, 186, 278, 0, & + 58, 73, 139, 160, 242, & + 129, 169, 215, 280, 0, & + 69, 115, 119, 214, 0, & + 57, 126, 193, 234, 0, & + 68, 78, 110, 216, 0, & + 4, 146, 197, 220, 0, & + 22, 115, 153, 277, 0, & + 59, 208, 219, 271, 0, & + 55, 144, 163, 220, 0, & + 43, 79, 196, 240, 0, & + 68, 91, 174, 268, 0, & + 51, 138, 146, 277, 0, & + 1, 70, 85, 123, 0, & + 36, 84, 200, 247, 0, & + 50, 131, 169, 254, 0, & + 62, 148, 227, 276, 0, & + 2, 94, 176, 259, 0, & + 37, 90, 204, 211, 0, & + 14, 134, 175, 267, 0, & + 58, 172, 212, 232, 0, & + 122, 170, 270, 276, 0, & + 46, 144, 185, 224, 0, & + 31, 79, 194, 276, 0, & + 57, 77, 227, 267, 0, & + 18, 75, 135, 255, 0, & + 65, 136, 157, 189, 0, & + 3, 124, 198, 214, 0, & + 12, 119, 195, 265, 0, & + 13, 95, 206, 271, 0, & + 52, 97, 202, 247, 0, & + 11, 151, 210, 234, 0, & + 27, 86, 181, 274, 0, & + 44, 177, 213, 273, 0, & + 24, 140, 154, 265, 0, & + 1, 16, 76, 195, 0, & + 56, 128, 198, 275, 0, & + 7, 106, 156, 222, 0, & + 12, 138, 177, 243, 0, & + 66, 157, 180, 235, 0, & + 34, 203, 205, 251, 0, & + 2, 20, 203, 219, 0, & + 71, 86, 211, 232, 0, & + 37, 105, 200, 229, 0, & + 60, 175, 182, 221, 0, & + 21, 152, 188, 279, 0, & + 41, 64, 80, 103, 260, & + 2, 48, 158, 232, 0, & + 42, 104, 233, 238, 0, & + 72, 149, 183, 236, 0, & + 25, 127, 153, 269, 0, & + 18, 67, 87, 147, 227, & + 17, 167, 207, 235, 0, & + 30, 98, 109, 213, 0, & + 51, 178, 208, 231, 0, & + 29, 88, 185, 280, 0, & + 66, 154, 188, 253, 0, & + 67, 116, 161, 241, 0, & + 63, 94, 133, 250, 0, & + 33, 159, 197, 215, 0, & + 73, 156, 219, 263, 0, & + 49, 72, 141, 201, 223, & + 4, 201, 238, 246, 0, & + 19, 121, 150, 258, 0, & + 47, 109, 145, 258, 0, & + 42, 81, 162, 262, 0, & + 39, 173, 205, 262, 0, & + 31, 167, 184, 248, 0, & + 45, 102, 187, 257, 0, & + 11, 174, 207, 264, 0/ + +data nrw/ & +5,4,4,4,4,5,4,4,4,4,4,4,4,4,4,4,4,4,4,4, & +4,4,4,4,4,4,4,5,4,5,4,4,5,4,4,4,4,4,4,4, & +4,4,4,4,4,5,4,4,4,4,5,4,4,4,4,4,4,4,4,4, & +4,4,4,4,4,4,4,5,4,4,4,4,4,5,4,4,4,4,5,4, & +4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4, & +4,4,4,4,4,4,4,4,4,5,4,4,4,4,4,4,4,4,4,4, & +4,5,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,5,4,4, & +4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4, & +4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4, & +4,4,5,4,4,4,4,5,4,4,4,4,4,4,4,4,4,5,4,4, & +4,4,4,4,4,4/ + +ncw=3 diff --git a/lib/fst280/ldpcsim280_101.f90 b/lib/fst280/ldpcsim280_101.f90 new file mode 100644 index 000000000..df5e1f019 --- /dev/null +++ b/lib/fst280/ldpcsim280_101.f90 @@ -0,0 +1,139 @@ +program ldpcsim280_101 + +! End-to-end test of the (280,101)/crc24 encoder and decoders. + + use packjt77 + + parameter(N=280, K=101, M=N-K) + character*8 arg + character*37 msg0,msg + character*77 c77 + character*24 c24 + integer*1 msgbits(101) + integer*1 apmask(280) + integer*1 cw(280) + integer*1 codeword(N),message101(101) + integer ncrc24 + real rxdata(N),llr(N) + real llrd(280) + logical first,unpk77_success + data first/.true./ + + nargs=iargc() + if(nargs.ne.6 .and. nargs.ne.7) then + print*,'Usage : ldpcsim niter norder maxosd #trials s K [msg]' + print*,'e.g. ldpcsim280_101 20 3 2 1000 0.85 91 "K9AN K1JT FN20"' + print*,'s : if negative, then value is ignored and sigma is calculated from SNR.' + print*,'niter : is the number of BP iterations.' + print*,'norder: -1 is BP only, norder>=0 is OSD order' + print*,'K :is the number of message+CRC bits and must be in the range [77,101]' + print*,'WSPR-format message is optional' + return + endif + call getarg(1,arg) + read(arg,*) max_iterations + call getarg(2,arg) + read(arg,*) norder + call getarg(3,arg) + read(arg,*) maxosd + call getarg(4,arg) + read(arg,*) ntrials + call getarg(5,arg) + read(arg,*) s + call getarg(6,arg) + read(arg,*) Keff + msg0='K9AN K1JT FN20 ' + if(nargs.eq.7) call getarg(7,msg0) + call pack77(msg0,i3,n3,c77) + call unpack77(c77,0,msg,unpk77_success) + if(unpk77_success) then + write(*,1100) msg(1:37) +1100 format('Decoded message: ',a37) + else + print*,'Error unpacking message' + endif + + rate=real(91)/real(N) + + write(*,*) "code rate: ",rate + write(*,*) "niter : ",max_iterations + write(*,*) "norder : ",norder + write(*,*) "s : ",s + write(*,*) "K : ",Keff + + msgbits=0 + read(c77,'(77i1)') msgbits(1:77) + write(*,*) 'message' + write(*,'(77i1)') msgbits(1:77) + + call get_crc24(msgbits,101,ncrc24) + write(c24,'(b24.24)') ncrc24 + read(c24,'(24i1)') msgbits(78:101) + write(*,*) 'message with crc24' + write(*,'(101i1)') msgbits(1:101) + call encode280_101(msgbits,codeword) + call init_random_seed() + call sgran() + + write(*,*) 'codeword' + write(*,'(77i1,1x,24i1,1x,73i1)') codeword + + write(*,*) "Eb/N0 Es/N0 ngood nundetected sigma symbol error rate" + do idb = 8,-3,-1 + db=idb/2.0-1.0 + sigma=1/sqrt( 2*rate*(10**(db/10.0)) ) ! to make db represent Eb/No +! sigma=1/sqrt( 2*(10**(db/10.0)) ) ! db represents Es/No + ngood=0 + nue=0 + nberr=0 + do itrial=1, ntrials +! Create a realization of a noisy received word + do i=1,N + rxdata(i) = 2.0*codeword(i)-1.0 + sigma*gran() + enddo + nerr=0 + do i=1,N + if( rxdata(i)*(2*codeword(i)-1.0) .lt. 0 ) nerr=nerr+1 + enddo + nberr=nberr+nerr + + rxav=sum(rxdata)/N + rx2av=sum(rxdata*rxdata)/N + rxsig=sqrt(rx2av-rxav*rxav) + rxdata=rxdata/rxsig + if( s .lt. 0 ) then + ss=sigma + else + ss=s + endif + + llr=2.0*rxdata/(ss*ss) + apmask=0 +! max_iterations is max number of belief propagation iterations + call bpdecode280_101(llr,apmask,max_iterations,message101,cw,nharderror,niterations,nchecks) + dmin=0.0 + if( (nharderror .lt. 0) .and. (norder .ge. 0) ) then +! call osd280_101(llr, Keff, apmask, norder, message101, cw, nharderror, dmin) + call decode280_101(llr, Keff, maxosd, norder, apmask, message101, cw, ntype, nharderror, dmin) + endif + + if(nharderror.ge.0) then + n2err=0 + do i=1,N + if( cw(i)*(2*codeword(i)-1.0) .lt. 0 ) n2err=n2err+1 + enddo + if(n2err.eq.0) then + ngood=ngood+1 + else + nue=nue+1 + endif + endif + enddo +! snr2500=db+10*log10(200.0/116.0/2500.0) + esn0=db+10*log10(rate) + pberr=real(nberr)/(real(ntrials*N)) + write(*,"(f4.1,4x,f5.1,1x,i8,1x,i8,8x,f5.2,8x,e10.3)") db,esn0,ngood,nue,ss,pberr + + enddo + +end program ldpcsim280_101 diff --git a/lib/fst280/ldpcsim280_74.f90 b/lib/fst280/ldpcsim280_74.f90 new file mode 100644 index 000000000..8953973e9 --- /dev/null +++ b/lib/fst280/ldpcsim280_74.f90 @@ -0,0 +1,132 @@ +program ldpcsim280_74 + +! End-to-end test of the (280,74)/crc24 encoder and decoders. + + use packjt77 + + parameter(N=280, K=74, M=N-K) + character*8 arg + character*37 msg0,msg + character*77 c77 + character*24 c24 + integer*1 msgbits(74) + integer*1 apmask(280) + integer*1 cw(280) + integer*1 codeword(N),message74(74) + integer ncrc24 + real rxdata(N),llr(N) + real llrd(280) + logical first,unpk77_success + data first/.true./ + + nargs=iargc() + if(nargs.ne.5 .and. nargs.ne.6) then + print*,'Usage: ldpcsim norder maxosd #trials s K [msg]' + print*,'e.g. ldpcsim280_74 3 2 1000 0.85 91 "K9AN K1JT FN20"' + print*,'s : if negative, then value is ignored and sigma is calculated from SNR.' + print*,'niter: is the number of BP iterations.' + print*,'norder: -1 is BP only, norder>=0 is OSD order' + print*,'maxosd: number of calls to OSD' + print*,'K :is the number of message+CRC bits and must be in the range [50,74]' + print*,'WSPR-format message is optional' + return + endif + call getarg(1,arg) + read(arg,*) norder + call getarg(2,arg) + read(arg,*) maxosd + call getarg(3,arg) + read(arg,*) ntrials + call getarg(4,arg) + read(arg,*) s + call getarg(5,arg) + read(arg,*) Keff + msg0='K9AN K1JT FN20 ' + if(nargs.eq.6) call getarg(6,msg0) + call pack77(msg0,i3,n3,c77) + call unpack77(c77,0,msg,unpk77_success) + if(unpk77_success) then + write(*,1100) msg(1:37) +1100 format('Decoded message: ',a37) + else + print*,'Error unpacking message' + endif + + rate=real(64)/real(N) + + write(*,*) "code rate: ",rate + write(*,*) "norder : ",norder + write(*,*) "s : ",s + write(*,*) "K : ",Keff + + msgbits=0 + read(c77,'(50i1)') msgbits(1:50) + write(*,*) 'message' + write(*,'(50i1)') msgbits(1:50) + + msgbits(51:74)=0 + call get_crc24(msgbits,74,ncrc24) + write(c24,'(b24.24)') ncrc24 + read(c24,'(24i1)') msgbits(51:74) + write(*,*) 'message with crc24' + write(*,'(74i1)') msgbits(1:74) + call encode280_74(msgbits,codeword) + call init_random_seed() + call sgran() + + write(*,*) 'codeword' + write(*,'(50i1,1x,24i1,1x,206i1)') codeword + + write(*,*) "Eb/N0 Es/N0 ngood nundetected sigma symbol error rate" + do idb = 2,-2,-1 + db=idb/2.0-1.0 + sigma=1/sqrt( 2*rate*(10**(db/10.0)) ) ! to make db represent Eb/No +! sigma=1/sqrt( 2*(10**(db/10.0)) ) ! db represents Es/No + ngood=0 + nue=0 + nberr=0 + do itrial=1, ntrials +! Create a realization of a noisy received word + do i=1,N + rxdata(i) = 2.0*codeword(i)-1.0 + sigma*gran() + enddo + nerr=0 + do i=1,N + if( rxdata(i)*(2*codeword(i)-1.0) .lt. 0 ) nerr=nerr+1 + enddo + nberr=nberr+nerr + + rxav=sum(rxdata)/N + rx2av=sum(rxdata*rxdata)/N + rxsig=sqrt(rx2av-rxav*rxav) + rxdata=rxdata/rxsig + if( s .lt. 0 ) then + ss=sigma + else + ss=s + endif + + llr=2.0*rxdata/(ss*ss) + apmask=0 + call decode280_74(llr,Keff,maxosd,norder,apmask,message74,cw,ntype,nharderror,dmin) + + if(nharderror.ge.0) then + n2err=0 + do i=1,N + if( cw(i)*(2*codeword(i)-1.0) .lt. 0 ) n2err=n2err+1 + enddo + if(n2err.eq.0) then + ngood=ngood+1 + else + nue=nue+1 + endif + endif + enddo +! snr2500=db+10*log10(200.0/116.0/2500.0) + esn0=db+10*log10(rate) + pberr=real(nberr)/(real(ntrials*N)) + write(*,"(f4.1,4x,f5.1,1x,i8,1x,i8,8x,f5.2,8x,e10.3)") db,esn0,ngood,nue,ss,pberr + + enddo + +end program ldpcsim280_74 diff --git a/lib/fst280/osd280_101.f90 b/lib/fst280/osd280_101.f90 new file mode 100644 index 000000000..acea3f664 --- /dev/null +++ b/lib/fst280/osd280_101.f90 @@ -0,0 +1,403 @@ +subroutine osd280_101(llr,k,apmask,ndeep,message101,cw,nhardmin,dmin) +! +! An ordered-statistics decoder for the (280,101) code. +! Message payload is 77 bits. Any or all of a 24-bit CRC can be +! used for detecting incorrect codewords. The remaining CRC bits are +! cascaded with the LDPC code for the purpose of improving the +! distance spectrum of the code. +! +! If p1 (0.le.p1.le.24) is the number of CRC24 bits that are +! to be used for bad codeword detection, then the argument k should +! be set to 77+p1. +! +! Valid values for k are in the range [77,101]. +! + character*24 c24 + integer, parameter:: N=280 + integer*1 apmask(N),apmaskr(N) + integer*1, allocatable, save :: gen(:,:) + integer*1, allocatable :: genmrb(:,:),g2(:,:) + integer*1, allocatable :: temp(:),m0(:),me(:),mi(:),misub(:),e2sub(:),e2(:),ui(:) + integer*1, allocatable :: r2pat(:) + integer indices(N),nxor(N) + integer*1 cw(N),ce(N),c0(N),hdec(N) + integer*1, allocatable :: decoded(:) + integer*1 message101(101) + integer indx(N) + real llr(N),rx(N),absrx(N) + + logical first,reset + data first/.true./ + save first + + allocate( genmrb(k,N), g2(N,k) ) + allocate( temp(k), m0(k), me(k), mi(k), misub(k), e2sub(N-k), e2(N-k), ui(N-k) ) + allocate( r2pat(N-k), decoded(k) ) + + if( first ) then ! fill the generator matrix +! +! Create generator matrix for partial CRC cascaded with LDPC code. +! +! Let p2=101-k and p1+p2=24. +! +! The last p2 bits of the CRC24 are cascaded with the LDPC code. +! +! The first p1=k-77 CRC24 bits will be used for error detection. +! + allocate( gen(k,N) ) + gen=0 + do i=1,k + message101=0 + message101(i)=1 + if(i.le.77) then + call get_crc24(message101,101,ncrc24) + write(c24,'(b24.24)') ncrc24 + read(c24,'(24i1)') message101(78:101) + message101(78:k)=0 + endif + call encode280_101(message101,cw) + gen(i,:)=cw + enddo + + first=.false. + endif + + rx=llr + apmaskr=apmask + +! Hard decisions on the received word. + hdec=0 + where(rx .ge. 0) hdec=1 + +! Use magnitude of received symbols as a measure of reliability. + absrx=abs(rx) + call indexx(absrx,N,indx) + +! Re-order the columns of the generator matrix in order of decreasing reliability. + do i=1,N + genmrb(1:k,i)=gen(1:k,indx(N+1-i)) + indices(i)=indx(N+1-i) + enddo + +! Do gaussian elimination to create a generator matrix with the most reliable +! received bits in positions 1:k in order of decreasing reliability (more or less). + do id=1,k ! diagonal element indices + do icol=id,k+20 ! The 20 is ad hoc - beware + iflag=0 + if( genmrb(id,icol) .eq. 1 ) then + iflag=1 + if( icol .ne. id ) then ! reorder column + temp(1:k)=genmrb(1:k,id) + genmrb(1:k,id)=genmrb(1:k,icol) + genmrb(1:k,icol)=temp(1:k) + itmp=indices(id) + indices(id)=indices(icol) + indices(icol)=itmp + endif + do ii=1,k + if( ii .ne. id .and. genmrb(ii,id) .eq. 1 ) then + genmrb(ii,1:N)=ieor(genmrb(ii,1:N),genmrb(id,1:N)) + endif + enddo + exit + endif + enddo + enddo + + g2=transpose(genmrb) + +! The hard decisions for the k MRB bits define the order 0 message, m0. +! Encode m0 using the modified generator matrix to find the "order 0" codeword. +! Flip various combinations of bits in m0 and re-encode to generate a list of +! codewords. Return the member of the list that has the smallest Euclidean +! distance to the received word. + + hdec=hdec(indices) ! hard decisions from received symbols + m0=hdec(1:k) ! zero'th order message + absrx=absrx(indices) + rx=rx(indices) + apmaskr=apmaskr(indices) + + call mrbencode101(m0,c0,g2,N,k) + nxor=ieor(c0,hdec) + nhardmin=sum(nxor) + dmin=sum(nxor*absrx) + + cw=c0 + ntotal=0 + nrejected=0 + npre1=0 + npre2=0 + + if(ndeep.eq.0) goto 998 ! norder=0 + if(ndeep.gt.6) ndeep=6 + if( ndeep.eq. 1) then + nord=1 + npre1=0 + npre2=0 + nt=40 + ntheta=12 + elseif(ndeep.eq.2) then + nord=1 + npre1=1 + npre2=0 + nt=40 + ntheta=12 + elseif(ndeep.eq.3) then + nord=1 + npre1=1 + npre2=1 + nt=40 + ntheta=12 + ntau=14 + elseif(ndeep.eq.4) then + nord=2 + npre1=1 + npre2=1 + nt=40 + ntheta=12 + ntau=17 + elseif(ndeep.eq.5) then + nord=3 + npre1=1 + npre2=1 + nt=40 + ntheta=12 + ntau=15 + elseif(ndeep.eq.6) then + nord=4 + npre1=1 + npre2=1 + nt=95 + ntheta=12 + ntau=15 + endif + + do iorder=1,nord + misub(1:k-iorder)=0 + misub(k-iorder+1:k)=1 + iflag=k-iorder+1 + do while(iflag .ge.0) + if(iorder.eq.nord .and. npre1.eq.0) then + iend=iflag + else + iend=1 + endif + d1=0. + do n1=iflag,iend,-1 + mi=misub + mi(n1)=1 + if(any(iand(apmaskr(1:k),mi).eq.1)) cycle + ntotal=ntotal+1 + me=ieor(m0,mi) + if(n1.eq.iflag) then + call mrbencode101(me,ce,g2,N,k) + e2sub=ieor(ce(k+1:N),hdec(k+1:N)) + e2=e2sub + nd1kpt=sum(e2sub(1:nt))+1 + d1=sum(ieor(me(1:k),hdec(1:k))*absrx(1:k)) + else + e2=ieor(e2sub,g2(k+1:N,n1)) + nd1kpt=sum(e2(1:nt))+2 + endif + if(nd1kpt .le. ntheta) then + call mrbencode101(me,ce,g2,N,k) + nxor=ieor(ce,hdec) + if(n1.eq.iflag) then + dd=d1+sum(e2sub*absrx(k+1:N)) + else + dd=d1+ieor(ce(n1),hdec(n1))*absrx(n1)+sum(e2*absrx(k+1:N)) + endif + if( dd .lt. dmin ) then + dmin=dd + cw=ce + nhardmin=sum(nxor) + nd1kptbest=nd1kpt + endif + else + nrejected=nrejected+1 + endif + enddo +! Get the next test error pattern, iflag will go negative +! when the last pattern with weight iorder has been generated. + call nextpat101(misub,k,iorder,iflag) + enddo + enddo + + if(npre2.eq.1) then + reset=.true. + ntotal=0 + do i1=k,1,-1 + do i2=i1-1,1,-1 + ntotal=ntotal+1 + mi(1:ntau)=ieor(g2(k+1:k+ntau,i1),g2(k+1:k+ntau,i2)) + call boxit101(reset,mi(1:ntau),ntau,ntotal,i1,i2) + enddo + enddo + + ncount2=0 + ntotal2=0 + reset=.true. +! Now run through again and do the second pre-processing rule + misub(1:k-nord)=0 + misub(k-nord+1:k)=1 + iflag=k-nord+1 + do while(iflag .ge.0) + me=ieor(m0,misub) + call mrbencode101(me,ce,g2,N,k) + e2sub=ieor(ce(k+1:N),hdec(k+1:N)) + do i2=0,ntau + ntotal2=ntotal2+1 + ui=0 + if(i2.gt.0) ui(i2)=1 + r2pat=ieor(e2sub,ui) +778 continue + call fetchit101(reset,r2pat(1:ntau),ntau,in1,in2) + if(in1.gt.0.and.in2.gt.0) then + ncount2=ncount2+1 + mi=misub + mi(in1)=1 + mi(in2)=1 + if(sum(mi).lt.nord+npre1+npre2.or.any(iand(apmaskr(1:k),mi).eq.1)) cycle + me=ieor(m0,mi) + call mrbencode101(me,ce,g2,N,k) + nxor=ieor(ce,hdec) + dd=sum(nxor*absrx) + if( dd .lt. dmin ) then + dmin=dd + cw=ce + nhardmin=sum(nxor) + endif + goto 778 + endif + enddo + call nextpat101(misub,k,nord,iflag) + enddo + endif + +998 continue +! Re-order the codeword to [message bits][parity bits] format. + cw(indices)=cw + hdec(indices)=hdec + message101=cw(1:101) + call get_crc24(message101,101,nbadcrc) + if(nbadcrc.ne.0) nhardmin=-nhardmin + + return +end subroutine osd280_101 + +subroutine mrbencode101(me,codeword,g2,N,K) + integer*1 me(K),codeword(N),g2(N,K) +! fast encoding for low-weight test patterns + codeword=0 + do i=1,K + if( me(i) .eq. 1 ) then + codeword=ieor(codeword,g2(1:N,i)) + endif + enddo + return +end subroutine mrbencode101 + +subroutine nextpat101(mi,k,iorder,iflag) + integer*1 mi(k),ms(k) +! generate the next test error pattern + ind=-1 + do i=1,k-1 + if( mi(i).eq.0 .and. mi(i+1).eq.1) ind=i + enddo + if( ind .lt. 0 ) then ! no more patterns of this order + iflag=ind + return + endif + ms=0 + ms(1:ind-1)=mi(1:ind-1) + ms(ind)=1 + ms(ind+1)=0 + if( ind+1 .lt. k ) then + nz=iorder-sum(ms) + ms(k-nz+1:k)=1 + endif + mi=ms + do i=1,k ! iflag will point to the lowest-index 1 in mi + if(mi(i).eq.1) then + iflag=i + exit + endif + enddo + return +end subroutine nextpat101 + +subroutine boxit101(reset,e2,ntau,npindex,i1,i2) + integer*1 e2(1:ntau) + integer indexes(5000,2),fp(0:525000),np(5000) + logical reset + common/boxes/indexes,fp,np + + if(reset) then + patterns=-1 + fp=-1 + np=-1 + sc=-1 + indexes=-1 + reset=.false. + endif + + indexes(npindex,1)=i1 + indexes(npindex,2)=i2 + ipat=0 + do i=1,ntau + if(e2(i).eq.1) then + ipat=ipat+ishft(1,ntau-i) + endif + enddo + + ip=fp(ipat) ! see what's currently stored in fp(ipat) + if(ip.eq.-1) then + fp(ipat)=npindex + else + do while (np(ip).ne.-1) + ip=np(ip) + enddo + np(ip)=npindex + endif + return +end subroutine boxit101 + +subroutine fetchit101(reset,e2,ntau,i1,i2) + integer indexes(5000,2),fp(0:525000),np(5000) + integer lastpat + integer*1 e2(ntau) + logical reset + common/boxes/indexes,fp,np + save lastpat,inext + + if(reset) then + lastpat=-1 + reset=.false. + endif + + ipat=0 + do i=1,ntau + if(e2(i).eq.1) then + ipat=ipat+ishft(1,ntau-i) + endif + enddo + index=fp(ipat) + + if(lastpat.ne.ipat .and. index.gt.0) then ! return first set of indices + i1=indexes(index,1) + i2=indexes(index,2) + inext=np(index) + elseif(lastpat.eq.ipat .and. inext.gt.0) then + i1=indexes(inext,1) + i2=indexes(inext,2) + inext=np(inext) + else + i1=-1 + i2=-1 + inext=-1 + endif + lastpat=ipat + return +end subroutine fetchit101 + diff --git a/lib/fst280/osd280_74.f90 b/lib/fst280/osd280_74.f90 new file mode 100644 index 000000000..6f87dd216 --- /dev/null +++ b/lib/fst280/osd280_74.f90 @@ -0,0 +1,403 @@ +subroutine osd280_74(llr,k,apmask,ndeep,message74,cw,nhardmin,dmin) +! +! An ordered-statistics decoder for the (280,74) code. +! Message payload is 50 bits. Any or all of a 24-bit CRC can be +! used for detecting incorrect codewords. The remaining CRC bits are +! cascaded with the LDPC code for the purpose of improving the +! distance spectrum of the code. +! +! If p1 (0.le.p1.le.24) is the number of CRC24 bits that are +! to be used for bad codeword detection, then the argument k should +! be set to 50+p1. +! +! Valid values for k are in the range [50,74]. +! + character*24 c24 + integer, parameter:: N=280 + integer*1 apmask(N),apmaskr(N) + integer*1, allocatable, save :: gen(:,:) + integer*1, allocatable :: genmrb(:,:),g2(:,:) + integer*1, allocatable :: temp(:),m0(:),me(:),mi(:),misub(:),e2sub(:),e2(:),ui(:) + integer*1, allocatable :: r2pat(:) + integer indices(N),nxor(N) + integer*1 cw(N),ce(N),c0(N),hdec(N) + integer*1, allocatable :: decoded(:) + integer*1 message74(74) + integer indx(N) + real llr(N),rx(N),absrx(N) + + logical first,reset + data first/.true./ + save first + + allocate( genmrb(k,N), g2(N,k) ) + allocate( temp(k), m0(k), me(k), mi(k), misub(k), e2sub(N-k), e2(N-k), ui(N-k) ) + allocate( r2pat(N-k), decoded(k) ) + + if( first ) then ! fill the generator matrix +! +! Create generator matrix for partial CRC cascaded with LDPC code. +! +! Let p2=74-k and p1+p2=24. +! +! The last p2 bits of the CRC24 are cascaded with the LDPC code. +! +! The first p1=k-50 CRC24 bits will be used for error detection. +! + allocate( gen(k,N) ) + gen=0 + do i=1,k + message74=0 + message74(i)=1 + if(i.le.50) then + call get_crc24(message74,74,ncrc24) + write(c24,'(b24.24)') ncrc24 + read(c24,'(24i1)') message74(51:74) + message74(51:k)=0 + endif + call encode280_74(message74,cw) + gen(i,:)=cw + enddo + + first=.false. + endif + + rx=llr + apmaskr=apmask + +! Hard decisions on the received word. + hdec=0 + where(rx .ge. 0) hdec=1 + +! Use magnitude of received symbols as a measure of reliability. + absrx=abs(rx) + call indexx(absrx,N,indx) + +! Re-order the columns of the generator matrix in order of decreasing reliability. + do i=1,N + genmrb(1:k,i)=gen(1:k,indx(N+1-i)) + indices(i)=indx(N+1-i) + enddo + +! Do gaussian elimination to create a generator matrix with the most reliable +! received bits in positions 1:k in order of decreasing reliability (more or less). + do id=1,k ! diagonal element indices + do icol=id,k+20 ! The 20 is ad hoc - beware + iflag=0 + if( genmrb(id,icol) .eq. 1 ) then + iflag=1 + if( icol .ne. id ) then ! reorder column + temp(1:k)=genmrb(1:k,id) + genmrb(1:k,id)=genmrb(1:k,icol) + genmrb(1:k,icol)=temp(1:k) + itmp=indices(id) + indices(id)=indices(icol) + indices(icol)=itmp + endif + do ii=1,k + if( ii .ne. id .and. genmrb(ii,id) .eq. 1 ) then + genmrb(ii,1:N)=ieor(genmrb(ii,1:N),genmrb(id,1:N)) + endif + enddo + exit + endif + enddo + enddo + + g2=transpose(genmrb) + +! The hard decisions for the k MRB bits define the order 0 message, m0. +! Encode m0 using the modified generator matrix to find the "order 0" codeword. +! Flip various combinations of bits in m0 and re-encode to generate a list of +! codewords. Return the member of the list that has the smallest Euclidean +! distance to the received word. + + hdec=hdec(indices) ! hard decisions from received symbols + m0=hdec(1:k) ! zero'th order message + absrx=absrx(indices) + rx=rx(indices) + apmaskr=apmaskr(indices) + + call mrbencode74(m0,c0,g2,N,k) + nxor=ieor(c0,hdec) + nhardmin=sum(nxor) + dmin=sum(nxor*absrx) + + cw=c0 + ntotal=0 + nrejected=0 + npre1=0 + npre2=0 + + if(ndeep.eq.0) goto 998 ! norder=0 + if(ndeep.gt.6) ndeep=6 + if( ndeep.eq. 1) then + nord=1 + npre1=0 + npre2=0 + nt=40 + ntheta=12 + elseif(ndeep.eq.2) then + nord=1 + npre1=1 + npre2=0 + nt=40 + ntheta=12 + elseif(ndeep.eq.3) then + nord=1 + npre1=1 + npre2=1 + nt=40 + ntheta=12 + ntau=14 + elseif(ndeep.eq.4) then + nord=2 + npre1=1 + npre2=1 + nt=40 + ntheta=12 + ntau=17 + elseif(ndeep.eq.5) then + nord=3 + npre1=1 + npre2=1 + nt=40 + ntheta=12 + ntau=19 + elseif(ndeep.eq.6) then + nord=4 + npre1=1 + npre2=1 + nt=40 + ntheta=12 + ntau=19 + endif + + do iorder=1,nord + misub(1:k-iorder)=0 + misub(k-iorder+1:k)=1 + iflag=k-iorder+1 + do while(iflag .ge.0) + if(iorder.eq.nord .and. npre1.eq.0) then + iend=iflag + else + iend=1 + endif + d1=0. + do n1=iflag,iend,-1 + mi=misub + mi(n1)=1 + if(any(iand(apmaskr(1:k),mi).eq.1)) cycle + ntotal=ntotal+1 + me=ieor(m0,mi) + if(n1.eq.iflag) then + call mrbencode74(me,ce,g2,N,k) + e2sub=ieor(ce(k+1:N),hdec(k+1:N)) + e2=e2sub + nd1kpt=sum(e2sub(1:nt))+1 + d1=sum(ieor(me(1:k),hdec(1:k))*absrx(1:k)) + else + e2=ieor(e2sub,g2(k+1:N,n1)) + nd1kpt=sum(e2(1:nt))+2 + endif + if(nd1kpt .le. ntheta) then + call mrbencode74(me,ce,g2,N,k) + nxor=ieor(ce,hdec) + if(n1.eq.iflag) then + dd=d1+sum(e2sub*absrx(k+1:N)) + else + dd=d1+ieor(ce(n1),hdec(n1))*absrx(n1)+sum(e2*absrx(k+1:N)) + endif + if( dd .lt. dmin ) then + dmin=dd + cw=ce + nhardmin=sum(nxor) + nd1kptbest=nd1kpt + endif + else + nrejected=nrejected+1 + endif + enddo +! Get the next test error pattern, iflag will go negative +! when the last pattern with weight iorder has been generated. + call nextpat74(misub,k,iorder,iflag) + enddo + enddo + + if(npre2.eq.1) then + reset=.true. + ntotal=0 + do i1=k,1,-1 + do i2=i1-1,1,-1 + ntotal=ntotal+1 + mi(1:ntau)=ieor(g2(k+1:k+ntau,i1),g2(k+1:k+ntau,i2)) + call boxit74(reset,mi(1:ntau),ntau,ntotal,i1,i2) + enddo + enddo + + ncount2=0 + ntotal2=0 + reset=.true. +! Now run through again and do the second pre-processing rule + misub(1:k-nord)=0 + misub(k-nord+1:k)=1 + iflag=k-nord+1 + do while(iflag .ge.0) + me=ieor(m0,misub) + call mrbencode74(me,ce,g2,N,k) + e2sub=ieor(ce(k+1:N),hdec(k+1:N)) + do i2=0,ntau + ntotal2=ntotal2+1 + ui=0 + if(i2.gt.0) ui(i2)=1 + r2pat=ieor(e2sub,ui) +778 continue + call fetchit74(reset,r2pat(1:ntau),ntau,in1,in2) + if(in1.gt.0.and.in2.gt.0) then + ncount2=ncount2+1 + mi=misub + mi(in1)=1 + mi(in2)=1 + if(sum(mi).lt.nord+npre1+npre2.or.any(iand(apmaskr(1:k),mi).eq.1)) cycle + me=ieor(m0,mi) + call mrbencode74(me,ce,g2,N,k) + nxor=ieor(ce,hdec) + dd=sum(nxor*absrx) + if( dd .lt. dmin ) then + dmin=dd + cw=ce + nhardmin=sum(nxor) + endif + goto 778 + endif + enddo + call nextpat74(misub,k,nord,iflag) + enddo + endif + +998 continue +! Re-order the codeword to [message bits][parity bits] format. + cw(indices)=cw + hdec(indices)=hdec + message74=cw(1:74) + call get_crc24(message74,74,nbadcrc) + if(nbadcrc.ne.0) nhardmin=-nhardmin + + return +end subroutine osd280_74 + +subroutine mrbencode74(me,codeword,g2,N,K) + integer*1 me(K),codeword(N),g2(N,K) +! fast encoding for low-weight test patterns + codeword=0 + do i=1,K + if( me(i) .eq. 1 ) then + codeword=ieor(codeword,g2(1:N,i)) + endif + enddo + return +end subroutine mrbencode74 + +subroutine nextpat74(mi,k,iorder,iflag) + integer*1 mi(k),ms(k) +! generate the next test error pattern + ind=-1 + do i=1,k-1 + if( mi(i).eq.0 .and. mi(i+1).eq.1) ind=i + enddo + if( ind .lt. 0 ) then ! no more patterns of this order + iflag=ind + return + endif + ms=0 + ms(1:ind-1)=mi(1:ind-1) + ms(ind)=1 + ms(ind+1)=0 + if( ind+1 .lt. k ) then + nz=iorder-sum(ms) + ms(k-nz+1:k)=1 + endif + mi=ms + do i=1,k ! iflag will point to the lowest-index 1 in mi + if(mi(i).eq.1) then + iflag=i + exit + endif + enddo + return +end subroutine nextpat74 + +subroutine boxit74(reset,e2,ntau,npindex,i1,i2) + integer*1 e2(1:ntau) + integer indexes(5000,2),fp(0:525000),np(5000) + logical reset + common/boxes/indexes,fp,np + + if(reset) then + patterns=-1 + fp=-1 + np=-1 + sc=-1 + indexes=-1 + reset=.false. + endif + + indexes(npindex,1)=i1 + indexes(npindex,2)=i2 + ipat=0 + do i=1,ntau + if(e2(i).eq.1) then + ipat=ipat+ishft(1,ntau-i) + endif + enddo + + ip=fp(ipat) ! see what's currently stored in fp(ipat) + if(ip.eq.-1) then + fp(ipat)=npindex + else + do while (np(ip).ne.-1) + ip=np(ip) + enddo + np(ip)=npindex + endif + return +end subroutine boxit74 + +subroutine fetchit74(reset,e2,ntau,i1,i2) + integer indexes(5000,2),fp(0:525000),np(5000) + integer lastpat + integer*1 e2(ntau) + logical reset + common/boxes/indexes,fp,np + save lastpat,inext + + if(reset) then + lastpat=-1 + reset=.false. + endif + + ipat=0 + do i=1,ntau + if(e2(i).eq.1) then + ipat=ipat+ishft(1,ntau-i) + endif + enddo + index=fp(ipat) + + if(lastpat.ne.ipat .and. index.gt.0) then ! return first set of indices + i1=indexes(index,1) + i2=indexes(index,2) + inext=np(index) + elseif(lastpat.eq.ipat .and. inext.gt.0) then + i1=indexes(inext,1) + i2=indexes(inext,2) + inext=np(inext) + else + i1=-1 + i2=-1 + inext=-1 + endif + lastpat=ipat + return +end subroutine fetchit74 +