mirror of https://github.com/saitohirga/WSJT-X.git
QRA65 now decodes using qra_loops() -- the same inner loops as QRA64. Very effective!
This commit is contained in:
Joe Taylor
parent
5e23f88f7e
commit
c5502cda05
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@ -570,7 +570,6 @@ set (wsjt_FSRCS
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lib/softsym9w.f90
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lib/shell.f90
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lib/spec64.f90
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lib/spec_qra65.f90
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lib/spec9f.f90
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lib/stdmsg.f90
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lib/subtract65.f90
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@ -1317,7 +1316,7 @@ if (${OPENMP_FOUND} OR APPLE)
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endif (APPLE)
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if (WIN32)
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set_target_properties (jt9 PROPERTIES
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LINK_FLAGS -Wl,--stack,16777216
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LINK_FLAGS -Wl,--stack,28000000
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)
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endif ()
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target_link_libraries (jt9 wsjt_fort_omp wsjt_cxx fort_qt)
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@ -1454,7 +1453,7 @@ else ()
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)
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if (WIN32)
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set_target_properties (wsjtx PROPERTIES
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LINK_FLAGS -Wl,--stack,16777216
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LINK_FLAGS -Wl,--stack,28000000
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)
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endif ()
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endif ()
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@ -3,13 +3,12 @@ subroutine ana64(dd,npts,c0)
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use timer_module, only: timer
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parameter (NMAX=60*12000) !Max size of raw data at 12000 Hz
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parameter (NSPS=3456) !Samples per symbol at 6000 Hz
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parameter (NSPC=7*NSPS) !Samples per Costas array
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real dd(NMAX) !Raw data
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complex c0(0:720000) !Complex spectrum of dd()
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save
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nfft1=672000
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! nfft1=672000
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nfft1=720000
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nfft2=nfft1/2
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df1=12000.0/nfft1
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fac=2.0/nfft1
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@ -81,8 +81,6 @@ subroutine qra64a(dd,npts,nf1,nf2,nfqso,ntol,mode64,minsync,ndepth, &
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snr2=0.
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endif
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nfreq=nint(f0)
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write(71,3071) idf,idt,ncall,irc,nsnr,dtx,nfreq,decoded
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3071 format(5i5,f7.2,i6,2x,a22)
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900 if(irc.lt.0) then
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sy=max(1.0,sync)
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@ -41,18 +41,20 @@ contains
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character(len=6) :: hisgrid
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character*37 decoded
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integer*2 iwave(NMAX) !Raw data
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real dd(NMAX) !Raw data
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integer dat4(12)
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logical lapdx,ltext
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complex, allocatable :: c00(:) !Analytic signal, 6000 S/s
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complex, allocatable :: c0(:) !Analytic signal, 6000 S/s
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real, allocatable, save :: s3(:,:) !Symbol spectra
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real, allocatable, save :: s3a(:,:) !Symbol spectra for avg messages
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real a(5)
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data nc1z/-1/,nc2z/-1/,ng2z/-1/,maxaptypez/-1/,nsubmodez/-1/
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save nc1z,nc2z,ng2z,maxaptypez,nsave,nsubmodez
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mode65=2**nsubmode
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nfft1=ntrperiod*12000
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nfft2=ntrperiod*6000
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allocate (c00(0:nfft1-1))
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allocate (c0(0:nfft1-1))
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if(nsubmode.ne.nsubmodez) then
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@ -74,106 +76,61 @@ contains
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nsps=41472
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else
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stop 'Invalid TR period'
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endif
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baud=12000.0/nsps
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df1=12000.0/nfft1
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! do i=1,12000*ntrperiod
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! write(61,3061) i/12000.0,iwave(i)/32767.0
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!3061 format(2f12.6)
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! enddo
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this%callback => callback
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if(nutc.eq.-999) print*,lapdx,nfa,nfb,nfqso !Silence warning
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endif
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npts=ntrperiod*12000
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baud=12000.0/nsps
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df1=12000.0/nfft1
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this%callback => callback
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if(nutc.eq.-999) print*,lapdx,nfa,nfb,nfqso !Silence warning
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! Prime the QRA decoder for possible use of AP
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call packcall(mycall(1:6),nc1,ltext)
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call packcall(hiscall(1:6),nc2,ltext)
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call packgrid(hisgrid(1:4),ng2,ltext)
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b90=20.0 !8 to 25 is OK; not very critical
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nFadingModel=1
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call packcall(mycall(1:6),nc1,ltext)
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call packcall(hiscall(1:6),nc2,ltext)
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call packgrid(hisgrid(1:4),ng2,ltext)
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b90=20.0 !8 to 25 is OK; not very critical
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nFadingModel=1
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! AP control could be done differently, but this works well:
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maxaptype=0
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if(ndepth.eq.2) maxaptype=3
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if(ndepth.eq.3) maxaptype=5
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maxaptype=0
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if(ndepth.eq.2) maxaptype=3
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if(ndepth.eq.3) maxaptype=5
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if(nc1.ne.nc1z .or. nc2.ne.nc2z .or. ng2.ne.ng2z .or. &
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maxaptype.ne.maxaptypez) then
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do naptype=0,maxaptype
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if(naptype.eq.2 .and. maxaptype.eq.4) cycle
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call qra64_dec(s3,nc1,nc2,ng2,naptype,1,nSubmode,b90, &
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nFadingModel,dat4,snr2,irc)
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enddo
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nc1z=nc1
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nc2z=nc2
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ng2z=ng2
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maxaptypez=maxaptype
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s3a=0.
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nsave=0
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endif
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naptype=maxaptype
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if(nc1.ne.nc1z .or. nc2.ne.nc2z .or. ng2.ne.ng2z .or. &
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maxaptype.ne.maxaptypez) then
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do naptype=0,maxaptype
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if(naptype.eq.2 .and. maxaptype.eq.4) cycle
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call qra64_dec(s3,nc1,nc2,ng2,naptype,1,nSubmode,b90, &
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nFadingModel,dat4,snr2,irc)
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enddo
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nc1z=nc1
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nc2z=nc2
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ng2z=ng2
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maxaptypez=maxaptype
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s3a=0.
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nsave=0
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endif
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naptype=maxaptype
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call timer('sync_q65',0)
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call sync_qra65(iwave,ntrperiod*12000,mode65,nsps,nfqso,ntol,xdt,f0,snr1)
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call timer('sync_q65',1)
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call timer('sync_q65',0)
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call sync_qra65(iwave,ntrperiod*12000,mode65,nsps,nfqso,ntol,xdt,f0,snr1)
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call timer('sync_q65',1)
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! Downsample to give complex data at 6000 S/s
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call timer('down_q65',0)
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fac=2.0/nfft1
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c0=fac*iwave(1:nfft1)
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call four2a(c0,nfft1,1,-1,1) !Forward c2c FFT
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c0(nfft2/2+1:nfft2)=0. !Zero the top half
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c0(0)=0.5*c0(0)
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call four2a(c0,nfft2,1,1,1) !Inverse c2c FFT
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a=0.
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a(1)=-(f0 + mode65*baud) !Data tones start mode65 bins higher
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call twkfreq(c0,c0,ntrperiod*6000,6000.0,a)
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call timer('down_q65',1)
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jpk0=(xdt+1.0)*6000 !###
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if(jpk0.lt.0) jpk0=0
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jpk=(xdt+0.5)*6000 - 384 !### Empirical ###
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if(ntrperiod.ge.60) jpk=(xdt+1.0)*6000 - 384 !### TBD ??? ###
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if(jpk.lt.0) jpk=0
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xdt=jpk/6000.0 - 0.5
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LL=64*(mode65+2)
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NN=63
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call timer('spec_q65',0)
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call spec_qra65(c0(jpk:),nsps/2,s3,LL,NN) !Compute synced symbol spectra
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call timer('spec_q65',1)
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fac=1.0/32767.0
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dd=fac*iwave
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! npts=648000
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minsync=-2
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nmode=65
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do j=1,63 !Normalize to symbol baseline
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call pctile(s3(:,j),LL,40,base)
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s3(:,j)=s3(:,j)/base
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enddo
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call ana64(dd,npts,c00)
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LL2=64*(mode65+1)-1
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s3max=20.0
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do j=1,63 !Apply AGC to suppress pings
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xx=maxval(s3(-64:LL2,j))
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if(xx.gt.s3max) s3(-64:LL2,j)=s3(-64:LL2,j)*s3max/xx
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enddo
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! Call Nico's QRA64 decoder
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call timer('qra64_de',0)
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call qra64_dec(s3,nc1,nc2,ng2,naptype,0,nSubmode,b90, &
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nFadingModel,dat4,snr2,irc)
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call timer('qra64_de',1)
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if(irc.lt.0) then
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! No luck so far. Try for an average decode.
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call timer('qra64_av',0)
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s3a=s3a+s3
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nsave=nsave+1
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if(nsave.ge.2) then
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call qra64_dec(s3a,nc1,nc2,ng2,naptype,0,nSubmode,b90, &
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nFadingModel,dat4,snr2,irc)
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if(irc.ge.0) irc=100*nsave + irc
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endif
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call timer('qra64_av',1)
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endif
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snr2=snr2 + db(6912.0/nsps)
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if(irc.gt.0) call badmsg(irc,dat4,nc1,nc2,ng2)
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call timer('qraloops',0)
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call qra_loops(c00,npts/2,nmode,mode65,nsubmode,nFadingModel,minsync, &
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ndepth,nc1,nc2,ng2,naptype,jpk0,xdt,f0,width,snr2,s3,irc,dat4)
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if(nmode.eq.65) xdt=xdt+0.4 !### Empirical WHY ??? ###
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call timer('qraloops',1)
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decoded=' '
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if(irc.ge.0) then
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@ -1,5 +1,5 @@
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subroutine qra_loops(c00,npts2,mode,mode64,nsubmode,nFadingModel,minsync, &
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ndepth,nc1,nc2,ng2,naptype,jpk0,dtx,f0,width,snr2,s3,irc,dat4)
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ndepth,nc1,nc2,ng2,naptype,jpk0,xdt,f0,width,snr2,s3,irc,dat4)
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use timer_module, only: timer
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parameter (LN=1152*63)
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@ -10,7 +10,6 @@ subroutine qra_loops(c00,npts2,mode,mode64,nsubmode,nFadingModel,minsync, &
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integer dat4(12),dat4x(12) !Decoded message (as 12 integers)
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integer nap(0:11) !AP return codes
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data nap/0,2,3,2,3,4,2,3,6,4,6,6/
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! save
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irc=-99
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s3lim=20.
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@ -26,6 +25,8 @@ subroutine qra_loops(c00,npts2,mode,mode64,nsubmode,nFadingModel,minsync, &
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NN=63
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napmin=99
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ncall=0
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nsps=3456 !QRA64
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if(mode.eq.65) nsps=3840 !QRA65
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do idf0=1,11
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idf=idf0/2
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@ -36,25 +37,9 @@ subroutine qra_loops(c00,npts2,mode,mode64,nsubmode,nFadingModel,minsync, &
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do idt0=1,idtmax
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idt=idt0/2
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if(mod(idt0,2).eq.0) idt=-idt
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jpk=jpk0 + 750*idt
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if(mode.eq.64) then
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call spec64(c0,jpk,s3a,LL,NN)
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else
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if(jpk.lt.0) jpk=0
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call timer('spec_q65',0)
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call spec_qra65(c0(jpk:),nsps2,s3,LL,NN) !Get synced symbol spectra
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call timer('spec_q65',1)
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! do j=1,63 !Normalize to symbol baseline
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! call pctile(s3(:,j),LL,40,base)
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! s3(:,j)=s3(:,j)/base
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! enddo
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! LL2=64*(mode65+1)-1
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! s3max=20.0
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! do j=1,63 !Apply AGC to suppress pings
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! xx=maxval(s3(-64:LL2,j))
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! if(xx.gt.s3max) s3(-64:LL2,j)=s3(-64:LL2,j)*s3max/xx
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! enddo
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endif
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jpk=jpk0 + 750*idt
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if(jpk.lt.0) jpk=0
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call spec64(c0,nsps,mode,jpk,s3a,LL,NN)
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call pctile(s3a,LL*NN,40,base)
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s3a=s3a/base
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where(s3a(1:LL*NN)>s3lim) s3a(1:LL*NN)=s3lim
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@ -77,7 +62,7 @@ subroutine qra_loops(c00,npts2,mode,mode64,nsubmode,nFadingModel,minsync, &
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snr2x=snr2
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napmin=nap(iirc)
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irckeep=irc
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dtxkeep=jpk/6000.0 - 1.0
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xdtkeep=jpk/6000.0 - 1.0
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f0keep=-a(1)
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idfkeep=idf
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idtkeep=idt
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@ -94,7 +79,7 @@ subroutine qra_loops(c00,npts2,mode,mode64,nsubmode,nFadingModel,minsync, &
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b90=b90x
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snr2=snr2x
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irc=irckeep
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dtx=dtxkeep
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xdt=xdtkeep
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f0=f0keep
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idt=idtkeep
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idf=idfkeep
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@ -1,26 +1,50 @@
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subroutine spec64(c0,jpk,s3,LL,NN)
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subroutine spec64(c0,nsps,mode,jpk,s3,LL,NN)
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parameter (NSPS=3456) !Samples per symbol at 6000 Hz
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parameter (MAXFFT=3840)
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complex c0(0:360000) !Complex spectrum of dd()
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complex cs(0:NSPS-1) !Complex symbol spectrum
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complex cs(0:MAXFFT-1) !Complex symbol spectrum
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real s3(LL,NN) !Synchronized symbol spectra
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real xbase0(LL),xbase(LL)
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integer isync(22) !Indices of sync symbols
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data isync/1,9,12,13,15,22,23,26,27,33,35,38,46,50,55,60,62,66,69,74,76,85/
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nfft=nsps
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fac=1.0/nfft
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do j=1,NN
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jj=j+7 !Skip first Costas array
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if(j.ge.33) jj=j+14 !Skip middle Costas array
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ja=jpk + (jj-1)*nfft
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jb=ja+nfft-1
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cs(0:nfft-1)=fac*c0(ja:jb)
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call four2a(cs,nfft,1,-1,1)
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do ii=1,LL
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i=ii-65
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if(i.lt.0) i=i+nfft
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s3(ii,j)=real(cs(i))**2 + aimag(cs(i))**2
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if(mode.eq.64) then
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do j=1,NN
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jj=j+7 !Skip first Costas array
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if(j.ge.33) jj=j+14 !Skip middle Costas array
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ja=jpk + (jj-1)*nfft
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jb=ja+nfft-1
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cs(0:nfft-1)=fac*c0(ja:jb)
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call four2a(cs,nfft,1,-1,1)
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do ii=1,LL
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i=ii-65
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if(i.lt.0) i=i+nfft
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s3(ii,j)=real(cs(i))**2 + aimag(cs(i))**2
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enddo
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enddo
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enddo
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else
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j=0
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n=1
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do k=1,84
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if(k.eq.isync(n)) then
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n=n+1
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cycle
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endif
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j=j+1
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ja=(k-1)*nsps + jpk
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jb=ja+nsps-1
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cs(0:nfft-1)=fac*c0(ja:jb)
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call four2a(cs,nsps,1,-1,1) !c2c FFT to frequency
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do ii=1,LL
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i=ii-65
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if(i.lt.0) i=i+nsps
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s3(ii,j)=real(cs(i))**2 + aimag(cs(i))**2
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enddo
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enddo
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endif
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df=6000.0/nfft
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do i=1,LL
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@ -38,5 +62,18 @@ subroutine spec64(c0,jpk,s3,LL,NN)
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s3(i,1:NN)=s3(i,1:NN)/(xbase(i)+0.001) !Apply frequency equalization
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enddo
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! print*,'a',LL,NN,jpk
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! df=6000.0/nfft
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! do i=1,LL
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! write(71,3071) i,i-65,i*df,(s3(i,j),j=1,4)
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!3071 format(2i8,f10.3,4e12.3)
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! enddo
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!
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! do j=1,NN
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! write(72,3072) j,maxloc(s3(1:LL,j)),maxloc(s3(1:LL,j))-65
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!3072 format(3i8)
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! enddo
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! if(nfft.ne.-999) stop
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return
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end subroutine spec64
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