mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-11-05 08:51:19 -05:00
cb503e89f1
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@8386 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
287 lines
9.8 KiB
Fortran
287 lines
9.8 KiB
Fortran
program wsprlfsim
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! Simulate characteristics of a potential "WSPR-LF" mode using LDPC (300,60)
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! code, OQPSK modulation, and 5 minute T/R sequences.
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! Reception and Demodulation algorithm:
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! 1. Compute coarse spectrum; find fc1 = approx carrier freq
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! 2. Mix from fc1 to 0; LPF at +/- 0.75*R
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! 3. Square, FFT; find peaks near -R/2 and +R/2 to get fc2
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! 4. Mix from fc2 to 0
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! 5. Fit cb13 (central part of csync) to c -> lag, phase
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! 6. Fit complex ploynomial for channel equalization
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! 7. Get soft bits from equalized data
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include 'wsprlf_params.f90'
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! Q: Would it be better for central Sync array to use both I and Q channels?
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character*8 arg
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complex cbb(0:NZ-1) !Complex baseband waveform
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complex csync(0:NZ-1) !Sync symbols only, from cbb
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complex c(0:NZ-1) !Complex waveform
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complex c0(0:NZ-1) !Complex waveform
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complex c1(0:NZ-1) !Complex waveform
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complex zz(NS+ND) !Complex symbol values (intermediate)
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complex z
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real xnoise(0:NZ-1) !Generated random noise
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real ynoise(0:NZ-1) !Generated random noise
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real rxdata(ND),llr(ND) !Soft symbols
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real pp(2*NSPS) !Shaped pulse for OQPSK
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real a(5) !For twkfreq1
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real aa(20),bb(20) !Fitted polyco's
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real t(11)
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character*12 label(11)
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integer*8 count0,count1,count2,count3,clkfreq
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integer nc(11)
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integer id(NS+ND) !NRZ values (+/-1) for Sync and Data
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integer ierror(NS+ND)
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integer icw(NN)
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integer itone(NN)
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integer*1 msgbits(KK),decoded(KK),apmask(ND),cw(ND)
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! integer*1 codeword(ND)
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data msgbits/0,0,1,0,0,1,1,1,1,0,0,1,0,0,0,0,0,0,0,0,1,0,0,0,1,1,0,0,0,1, &
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1,1,1,0,1,1,1,1,1,1,1,0,0,1,0,0,1,1,0,1,1,0,1,0,1,1,0,0,1,1/
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data label/'genwsprlf','twkfreq1 a','watterson','noise gen','getfc1w', &
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'getfc2w','twkfreq1 b','xdt loop','cpolyfitw','msksoftsym', &
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'bpdecode300'/
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nargs=iargc()
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if(nargs.ne.6) then
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print*,'Usage: wsprlfsim f0(Hz) delay(ms) fspread(Hz) maxn iters snr(dB)'
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print*,'Example: wsprlfsim 0 0 0 5 10 -20'
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print*,'Set snr=0 to cycle through a range'
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go to 999
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endif
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call getarg(1,arg)
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read(arg,*) f0 !Generated carrier frequency
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call getarg(2,arg)
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read(arg,*) delay !Delta_t (ms) for Watterson model
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call getarg(3,arg)
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read(arg,*) fspread !Fspread (Hz) for Watterson model
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call getarg(4,arg)
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read(arg,*) maxn !Max nterms for polyfit
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call getarg(5,arg)
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read(arg,*) iters !Iterations at each SNR
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call getarg(6,arg)
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read(arg,*) snrdb !Specified SNR_2500
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nc=0
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twopi=8.0*atan(1.0)
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fs=NSPS*12000.0/NSPS0 !Sample rate = 22.2222... Hz
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dt=1.0/fs !Sample interval (s)
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tt=NSPS*dt !Duration of "itone" symbols (s)
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ts=2*NSPS*dt !Duration of OQPSK symbols (s)
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baud=1.0/tt !Keying rate for "itone" symbols (baud)
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txt=NZ*dt !Transmission length (s)
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bandwidth_ratio=2500.0/(fs/2.0)
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write(*,1000) fs,f0,delay,fspread,maxn,baud,3*baud,txt,iters
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1000 format('fs:',f10.3,' f0:',f5.1,' Delay:',f4.1,' fSpread:',f5.2, &
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' maxn:',i3,/'Baud:',f8.3,' BW:',f5.1,' TxT:',f6.1,' iters:',i4/)
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write(*,1004)
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1004 format(/' SNR sync data ser ber fer fsigma tsigma', &
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' tsec'/68('-'))
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do i=1,N2 !Half-sine pulse shape
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pp(i)=sin(0.5*(i-1)*twopi/(2*NSPS))
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enddo
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t=0.
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call system_clock(count0,clkfreq)
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call genwsprlf(msgbits,id,icw,cbb,csync,itone)!Generate baseband waveform
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call system_clock(count1,clkfreq)
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t(1)=float(count1-count0)/float(clkfreq)
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nc(1)=nc(1)+1
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do i=0,NZ-1
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write(40,4001) i,cbb(i),csync(i)
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4001 format(i8,4f12.6)
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enddo
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call system_clock(count0,clkfreq)
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a=0.
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a(1)=f0
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call twkfreq1(cbb,NZ,fs,a,c0) !Mix baseband to specified frequency
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call system_clock(count1,clkfreq)
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t(2)=float(count1-count0)/float(clkfreq)
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nc(2)=nc(2)+1
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isna=-20
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isnb=-40
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if(snrdb.ne.0.0) then
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isna=nint(snrdb)
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isnb=isna
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endif
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do isnr=isna,isnb,-1 !Loop over SNR range
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if(isna.ne.isnb) snrdb=isnr
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sig=sqrt(bandwidth_ratio) * 10.0**(0.05*snrdb)
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if(snrdb.gt.90.0) sig=1.0
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nhard=0
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nhardsync=0
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nfe=0
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sqf=0.
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sqt=0.
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call system_clock(count2,clkfreq)
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do iter=1,iters !Loop over requested iterations
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c=c0
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write(*,*) 'iter ',iter
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call system_clock(count0,clkfreq)
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if(delay.ne.0.0 .or. fspread.ne.0.0) then
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call watterson(c,NZ,fs,delay,fspread)
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endif
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call system_clock(count1,clkfreq)
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t(3)=t(3)+float(count1-count0)/float(clkfreq)
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nc(3)=nc(3)+1
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call system_clock(count0,clkfreq)
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c=sig*c !Scale to requested SNR
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if(snrdb.lt.90) then
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do i=0,NZ-1 !Generate gaussian noise
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xnoise(i)=gran()
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ynoise(i)=gran()
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enddo
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c=c + cmplx(xnoise,ynoise) !Add AWGN noise
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endif
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call system_clock(count1,clkfreq)
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t(4)=t(4)+float(count1-count0)/float(clkfreq)
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nc(4)=nc(4)+1
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call system_clock(count0,clkfreq)
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call getfc1w(c,fs,fc1) !First approx for freq
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call system_clock(count1,clkfreq)
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t(5)=t(5)+float(count1-count0)/float(clkfreq)
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nc(5)=nc(5)+1
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write(*,*) 'fc1 ',fc1
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call system_clock(count0,clkfreq)
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call getfc2w(c,csync,fs,fc1,fc2,fc3) !Refined freq
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write(*,*) 'fc1,fc2,fc3 ',fc1,fc2,fc3
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call system_clock(count1,clkfreq)
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t(6)=t(6)+float(count1-count0)/float(clkfreq)
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nc(6)=nc(6)+1
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sqf=sqf + (fc1+fc2-f0)**2
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call system_clock(count0,clkfreq)
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!NB: Measured performance is about equally good using fc2 or fc3 here:
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a(1)=-(fc1+fc2)
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a(2:5)=0.
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call twkfreq1(c,NZ,fs,a,c) !Mix c down by fc1+fc2
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call system_clock(count1,clkfreq)
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t(7)=t(7)+float(count1-count0)/float(clkfreq)
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nc(7)=nc(7)+1
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! The following may not be necessary?
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! z=sum(c(3088:3503)*cb13)/208.0 !Get phase from Barker 13 vector
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! z0=z/abs(z)
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! c=c*conjg(z0)
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call system_clock(count0,clkfreq)
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!---------------------------------------------------------------- DT
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! Not presently used:
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amax=0.
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jpk=0
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iaa=0
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ibb=NZ-1
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do j=-20*NSPS,20*NSPS,NSPS/8
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ia=j
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ib=NZ-1+j
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if(ia.lt.0) then
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ia=0
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iaa=-j
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else
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iaa=0
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endif
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if(ib.gt.NZ-1) then
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ib=NZ-1
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ibb=NZ-1-j
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endif
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z=sum(c(ia:ib)*conjg(csync(iaa:ibb)))
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if(abs(z).gt.amax) then
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amax=abs(z)
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jpk=j
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endif
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enddo
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xdt=jpk/fs
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sqt=sqt + xdt**2
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call system_clock(count1,clkfreq)
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t(8)=t(8)+float(count1-count0)/float(clkfreq)
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nc(8)=nc(8)+1
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!-----------------------------------------------------------------
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nterms=maxn
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c1=c
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do itry=1,20
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idf=itry/2
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if(mod(itry,2).eq.0) idf=-idf
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nhard0=0
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nhardsync0=0
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ifer=1
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a(1)=idf*0.00085
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a(2:5)=0.
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call system_clock(count0,clkfreq)
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call twkfreq1(c1,NZ,fs,a,c) !Mix c1 into c
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call cpolyfitw(c,pp,id,maxn,aa,bb,zz,nhs)
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call system_clock(count1,clkfreq)
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t(9)=t(9)+float(count1-count0)/float(clkfreq)
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nc(9)=nc(9)+1
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call system_clock(count0,clkfreq)
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call msksoftsymw(zz,aa,bb,id,nterms,ierror,rxdata,nhard0,nhardsync0)
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call system_clock(count1,clkfreq)
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t(10)=t(10)+float(count1-count0)/float(clkfreq)
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nc(10)=nc(10)+1
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if(nhardsync0.gt.35) cycle
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rxav=sum(rxdata)/ND
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rx2av=sum(rxdata*rxdata)/ND
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rxsig=sqrt(rx2av-rxav*rxav)
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rxdata=rxdata/rxsig
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ss=0.84
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llr=2.0*rxdata/(ss*ss)
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apmask=0
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max_iterations=40
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ifer=0
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call system_clock(count0,clkfreq)
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call bpdecode300(llr,apmask,max_iterations,decoded,niterations,cw)
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call system_clock(count1,clkfreq)
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t(11)=t(11)+float(count1-count0)/float(clkfreq)
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nc(11)=nc(11)+1
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nbadcrc=0
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if(niterations.ge.0) call chkcrc10(decoded,nbadcrc)
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if(niterations.lt.0 .or. count(msgbits.ne.decoded).gt.0 .or. &
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nbadcrc.ne.0) ifer=1
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if(ifer.eq.0) exit
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enddo !Freq dither loop
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nhard=nhard+nhard0
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nhardsync=nhardsync+nhardsync0
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nfe=nfe+ifer
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if(nhardsync0+nhard0+niterations+ifer.gt.0) write(42,1045) snrdb, &
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nhardsync0,nhard0,niterations,ifer,xdt
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1045 format(f6.1,4i6,f8.2)
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enddo
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call system_clock(count3,clkfreq)
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tsec=float(count3-count2)/float(clkfreq)
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fsigma=sqrt(sqf/iters)
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tsigma=sqrt(sqt/iters)
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ser=float(nhardsync)/(NS*iters)
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ber=float(nhard)/(ND*iters)
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fer=float(nfe)/iters
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write(*,1050) snrdb,nhardsync,nhard,ser,ber,fer,fsigma,tsigma,tsec
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1050 format(f6.1,2i7,2f8.4,f7.3,2f8.2f8.3)
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enddo
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write(*,1060) NS*iters,ND*iters
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1060 format(68('-')/6x,2i7)
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write(*,1065)
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1065 format(/'Timing sec frac calls'/39('-'))
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do i=1,11
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write(*,1070) label(i),t(i),t(i)/sum(t),nc(i)
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1070 format(a12,2f9.3,i8)
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enddo
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write(*,1072) sum(t),1.0
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1072 format(39('-')/12x,2f10.3)
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999 end program wsprlfsim
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