X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?p=unres.git;a=blobdiff_plain;f=source%2Funres%2Fsrc_CSA_DiL%2Fminim_jlee.F;fp=source%2Funres%2Fsrc_CSA_DiL%2Fminim_jlee.F;h=0000000000000000000000000000000000000000;hp=2b53f11fc0247b9717038234f7c2ddea4b8b153b;hb=de4bc5453ea46e111d936cb85e1758ed21c08fcd;hpb=b75425747e3e2b448ca5e0ef8367712e1f339124 diff --git a/source/unres/src_CSA_DiL/minim_jlee.F b/source/unres/src_CSA_DiL/minim_jlee.F deleted file mode 100644 index 2b53f11..0000000 --- a/source/unres/src_CSA_DiL/minim_jlee.F +++ /dev/null @@ -1,452 +0,0 @@ -#ifdef MPI - subroutine minim_jlee -c controls minimization and sorting routines - implicit real*8 (a-h,o-z) - include 'DIMENSIONS' - parameter (liv=60,lv=(77+maxvar*(maxvar+17)/2)) - include 'COMMON.VAR' - include 'COMMON.IOUNITS' - include 'COMMON.MINIM' - include 'COMMON.CONTROL' - include 'mpif.h' - external func,gradient,fdum - real ran1,ran2,ran3 - include 'COMMON.SETUP' - include 'COMMON.GEO' - include 'COMMON.FFIELD' - include 'COMMON.SBRIDGE' - include 'COMMON.DISTFIT' - include 'COMMON.CHAIN' - dimension muster(mpi_status_size) - dimension var(maxvar),erg(mxch*(mxch+1)/2+1) - dimension var2(maxvar) - integer iffr(maxres),ihpbt(maxdim),jhpbt(maxdim) - double precision d(maxvar),v(1:lv+1),garbage(maxvar) - double precision energia(0:n_ene),time0s,time1s - dimension indx(9),info(12) - dimension iv(liv) - dimension idum(1),rdum(1) - dimension icont(2,maxcont) - logical check_var,fail - integer iloop(2) - common /przechowalnia/ v - data rad /1.745329252d-2/ -c receive # of start -! print *,'Processor',me,' calling MINIM_JLEE maxfun',maxfun, -! & ' maxmin',maxmin,' tolf',tolf,' rtolf',rtolf - nhpb0=nhpb - 10 continue - time0s=MPI_WTIME() -c print *, 'MINIM_JLEE: ',me,' is waiting' - call mpi_recv(info,12,mpi_integer,king,idint,CG_COMM, - * muster,ierr) - time1s=MPI_WTIME() - write (iout,'(a12,f10.4,a4)')'Waiting for ',time1s-time0s,' sec' - call flush(iout) - if (info(1).eq.0.and.info(2).eq.-2) then -cd write (iout,*) 'Parallel tmscore for refresh bank' -cd call flush(iout) - call refresh_bank_worker_tmscore(var) - goto 10 - endif - n=info(1) -c print *, 'MINIM_JLEE: ',me,' received: ',n - -crc if (ierr.ne.0) go to 100 -c if # = 0, return - if (n.eq.0) then - write (iout,*) 'Finishing minim_jlee - signal',n,' from master' - call flush(iout) - return - endif - - nfun=0 - IF (n.lt.0) THEN - call mpi_recv(var,nvar,mpi_double_precision, - * king,idreal,CG_COMM,muster,ierr) - call mpi_recv(iffr,nres,mpi_integer, - * king,idint,CG_COMM,muster,ierr) - call mpi_recv(var2,nvar,mpi_double_precision, - * king,idreal,CG_COMM,muster,ierr) - ELSE -c receive initial values of variables - call mpi_recv(var,nvar,mpi_double_precision, - * king,idreal,CG_COMM,muster,ierr) -crc if (ierr.ne.0) go to 100 - ENDIF - - if(vdisulf.and.info(2).ne.-1) then - if(info(4).ne.0)then - call mpi_recv(ihpbt,info(4),mpi_integer, - * king,idint,CG_COMM,muster,ierr) - call mpi_recv(jhpbt,info(4),mpi_integer, - * king,idint,CG_COMM,muster,ierr) - endif - endif - - IF (n.lt.0) THEN - n=-n - nhpb=nhpb0 - link_start=1 - link_end=nhpb - call init_int_table - call contact_cp(var,var2,iffr,nfun,n) - ENDIF - - if(vdisulf.and.info(2).ne.-1) then - nss=0 - if(info(4).ne.0)then -cd write(iout,*) 'SS=',info(4),'N=',info(1),'IT=',info(2) - call var_to_geom(nvar,var) - call chainbuild - do i=1,info(4) - if (dist(ihpbt(i),jhpbt(i)).lt.7.0) then - nss=nss+1 - ihpb(nss)=ihpbt(i) - jhpb(nss)=jhpbt(i) -cd write(iout,*) 'SS mv=',info(3), -cd & ihpb(nss)-nres,jhpb(nss)-nres, -cd & dist(ihpb(nss),jhpb(nss)) - dhpb(nss)=dbr - forcon(nss)=fbr - else -cd write(iout,*) 'rm SS mv=',info(3), -cd & ihpbt(i)-nres,jhpbt(i)-nres,dist(ihpbt(i),jhpbt(i)) - endif - enddo - endif - nhpb=nss - link_start=1 - link_end=nhpb - call init_int_table - endif - - if (info(3).eq.14) then - write(iout,*) 'calling local_move',info(7),info(8) - call local_move_init(.false.) - call var_to_geom(nvar,var) - call local_move(info(7),info(8),20d0,50d0) - call geom_to_var(nvar,var) - endif - - - if (info(3).eq.16) then - write(iout,*) 'calling beta_slide',info(7),info(8), - & info(10), info(11), info(12) - call var_to_geom(nvar,var) - call beta_slide(info(7),info(8),info(10),info(11),info(12) - & ,nfun,n) - call geom_to_var(nvar,var) - endif - - - if (info(3).eq.17) then - write(iout,*) 'calling beta_zip',info(7),info(8) - call var_to_geom(nvar,var) - call beta_zip(info(7),info(8),nfun,n) - call geom_to_var(nvar,var) - endif - - -crc overlap test - - if (overlapsc) then - - call var_to_geom(nvar,var) - call chainbuild - call etotal(energia(0)) - nfun=nfun+1 - if (energia(1).eq.1.0d20) then - info(3)=-info(3) - write (iout,'(a,1pe14.5)')'#OVERLAP evdw=1d20',energia(1) - call overlap_sc(fail) - if(.not.fail) then - call geom_to_var(nvar,var) - call etotal(energia(0)) - nfun=nfun+1 - write (iout,'(a,1pe14.5)')'#OVERLAP evdw after',energia(1) - else - v(10)=1.0d20 - iv(1)=-1 - goto 201 - endif - endif - endif - - if (searchsc) then - call var_to_geom(nvar,var) - call sc_move(2,nres-1,1,10d0,nft_sc,etot) - call geom_to_var(nvar,var) -cd write(iout,*) 'sc_move',nft_sc,etot - endif - - if (check_var(var,info)) then - v(10)=1.0d21 - iv(1)=6 - goto 201 - endif - - -crc - -! write (iout,*) 'MINIM_JLEE: Processor',me,' nvar',nvar -! write (iout,'(8f10.4)') (var(i),i=1,nvar) -! write (*,*) 'MINIM_JLEE: Processor',me,' received nvar',nvar -! write (*,'(8f10.4)') (var(i),i=1,nvar) - - do i=1,nvar - garbage(i)=var(i) - enddo - - call deflt(2,iv,liv,lv,v) -* 12 means fresh start, dont call deflt - iv(1)=12 -* max num of fun calls - if (maxfun.eq.0) maxfun=500 - iv(17)=maxfun -* max num of iterations - if (maxmin.eq.0) maxmin=1000 - iv(18)=maxmin -* controls output - iv(19)=2 -* selects output unit -cd iv(21)=iout - iv(21)=0 -* 1 means to print out result - iv(22)=0 -cd iv(22)=1 -* 1 means to print out summary stats - iv(23)=0 -* 1 means to print initial x and d - iv(24)=0 - -c if(me.eq.3.and.n.eq.255) then -c print *,' CHUJ: stoi' -c iv(21)=6 -c iv(22)=1 -c iv(23)=1 -c iv(24)=1 -c endif - -* min val for v(radfac) default is 0.1 - v(24)=0.1D0 -* max val for v(radfac) default is 4.0 - v(25)=2.0D0 -c v(25)=4.0D0 -* check false conv if (act fnctn decrease) .lt. v(26)*(exp decrease) -* the sumsl default is 0.1 - v(26)=0.1D0 -* false conv if (act fnctn decrease) .lt. v(34) -* the sumsl default is 100*machep - v(34)=v(34)/100.0D0 -* absolute convergence - if (tolf.eq.0.0D0) tolf=1.0D-4 - v(31)=tolf -* relative convergence - if (rtolf.eq.0.0D0) rtolf=1.0D-4 - v(32)=rtolf -* controls initial step size - v(35)=1.0D-1 -* large vals of d correspond to small components of step - do i=1,nphi - d(i)=1.0D-1 - enddo - do i=nphi+1,nvar - d(i)=1.0D-1 - enddo -c minimize energy -! write (iout,*) 'Processor',me,' nvar',nvar -! write (iout,*) 'Variables BEFORE minimization:' -! write (iout,'(8f10.4)') (rad2deg*var(i),i=1,nvar) - -c print *, 'MINIM_JLEE: ',me,' before SUMSL ' - - call func(nvar,var,nf,eee,idum,rdum,fdum) - nfun=nfun+1 - if(eee.ge.1.0d20) then -c print *,'MINIM_JLEE: ',me,' CHUJ NASTAPIL' -c print *,' energy before SUMSL =',eee -c print *,' aborting local minimization' - iv(1)=-1 - v(10)=eee - go to 201 - endif - -ct time0s=MPI_WTIME() - call sumsl(nvar,d,var,func,gradient,iv,liv,lv,v,idum,rdum,fdum) -ct write(iout,*) 'sumsl time=',MPI_WTIME()-time0s,iv(7),v(10) -c print *, 'MINIM_JLEE: ',me,' after SUMSL ' - -c find which conformation was returned from sumsl - nfun=nfun+iv(7) -! print *,'Processor',me,' iv(17)',iv(17),' iv(18)',iv(18),' nf',nf, -! & ' retcode',iv(1),' energy',v(10),' tolf',v(31),' rtolf',v(32) -c if (iv(1).ne.4 .or. nf.le.1) then -c write (*,*) 'Processor',me,' something bad in SUMSL',iv(1),nf -c write (*,*) 'Initial Variables' -c write (*,'(8f10.4)') (rad2deg*garbage(i),i=1,nvar) -c write (*,*) 'Variables' -c write (*,'(8f10.4)') (rad2deg*var(i),i=1,nvar) -c write (*,*) 'Vector d' -c write (*,'(8f10.4)') (d(i),i=1,nvar) -c write (iout,*) 'Processor',me,' something bad in SUMSL', -c & iv(1),nf -c write (iout,*) 'Initial Variables' -c write (iout,'(8f10.4)') (rad2deg*garbage(i),i=1,nvar) -c write (iout,*) 'Variables' -c write (iout,'(8f10.4)') (rad2deg*var(i),i=1,nvar) -c write (iout,*) 'Vector d' -c write (iout,'(8f10.4)') (d(i),i=1,nvar) -c endif -c if (nf.lt.iv(6)-1) then -c recalculate intra- and interchain energies -c call func(nvar,var,nf,v(10),iv,v,fdum) -c else if (nf.eq.iv(6)-1) then -c regenerate conformation -c call var_to_geom(nvar,var) -c call chainbuild -c endif -c change origin and axes to standard ECEPP format -c call var_to_geom(nvar,var) -! write (iout,*) 'MINIM_JLEE after minim: Processor',me,' nvar',nvar -! write (iout,'(8f10.4)') (var(i),i=1,nvar) -! write (iout,*) 'Energy:',v(10) -c send back output -c print *, 'MINIM_JLEE: ',me,' minimized: ',n - 201 continue - indx(1)=n -c return code: 6-gradient 9-number of ftn evaluation, etc - indx(2)=iv(1) -c total # of ftn evaluations (for iwf=0, it includes all minimizations). - indx(3)=nfun - indx(4)=info(2) - indx(5)=info(3) - indx(6)=nss - indx(7)=info(5) - indx(8)=info(6) - indx(9)=info(9) - call mpi_send(indx,9,mpi_integer,king,idint,CG_COMM, - * ierr) -c send back energies -c al & cc -c calculate contact order -#ifdef CO_BIAS - call contact(.false.,ncont,icont,co) - erg(1)=v(10)-1.0d2*co -#else - erg(1)=v(10) -#endif - j=1 - call mpi_send(erg,j,mpi_double_precision,king,idreal, - * CG_COMM,ierr) -#ifdef CO_BIAS - call mpi_send(co,j,mpi_double_precision,king,idreal, - * CG_COMM,ierr) -#endif -c send back values of variables - call mpi_send(var,nvar,mpi_double_precision, - * king,idreal,CG_COMM,ierr) -! print * , 'MINIM_JLEE: Processor',me,' send erg and var ' - - if(vdisulf.and.info(2).ne.-1.and.nss.ne.0) then -cd call intout -cd call chainbuild -cd call etotal(energia(0)) -cd etot=energia(0) -cd call enerprint(energia(0)) - call mpi_send(ihpb,nss,mpi_integer, - * king,idint,CG_COMM,ierr) - call mpi_send(jhpb,nss,mpi_integer, - * king,idint,CG_COMM,ierr) - endif - - go to 10 - 100 print *, ' error in receiving message from emperor', me - call mpi_abort(mpi_comm_world,ierror,ierrcode) - return - 200 print *, ' error in sending message to emperor' - call mpi_abort(mpi_comm_world,ierror,ierrcode) - return - 300 print *, ' error in communicating with emperor' - call mpi_abort(mpi_comm_world,ierror,ierrcode) - return - 956 format (' initial energy could not be calculated',41x) - 957 format (80x) - 965 format (' convergence code ',i2,' # of function calls ', - * i4,' # of gradient calls ',i4,10x) - 975 format (' energy ',1p,e12.4,' scaled gradient ',e11.3,32x) - end -#else - subroutine minim_jlee -c controls minimization and sorting routines - implicit real*8 (a-h,o-z) - include 'DIMENSIONS' - include 'COMMON.IOUNITS' - write (iout,*) "Unsupported option for serial version" - return - end -#endif - - logical function check_var(var,info) - implicit real*8 (a-h,o-z) - include 'DIMENSIONS' - include 'COMMON.VAR' - include 'COMMON.IOUNITS' - include 'COMMON.GEO' - include 'COMMON.SETUP' - dimension var(maxvar) - dimension info(3) -C AL ------- - check_var=.false. - do i=nphi+ntheta+1,nphi+ntheta+nside -! Check the side chain "valence" angles alpha - if (var(i).lt.1.0d-7) then - write (iout,*) 'CHUJ NASTAPIL ABSOLUTNY!!!!!!!!!!!!' - write (iout,*) 'Processor',me,'received bad variables!!!!' - write (iout,*) 'Variables' - write (iout,'(8f10.4)') (rad2deg*var(j),j=1,nvar) - write (iout,*) 'Continuing calculations at this point', - & ' could destroy the results obtained so far... ABORTING!!!!!!' - write (iout,'(a19,i5,f10.4,a4,2i4,a3,i3)') - & 'valence angle alpha',i-nphi-ntheta,var(i), - & 'n it',info(1),info(2),'mv ',info(3) - write (*,*) 'CHUJ NASTAPIL ABSOLUTNY!!!!!!!!!!!!' - write (*,*) 'Processor',me,'received bad variables!!!!' - write (*,*) 'Variables' - write (*,'(8f10.4)') (rad2deg*var(j),j=1,nvar) - write (*,*) 'Continuing calculations at this point', - & ' could destroy the results obtained so far... ABORTING!!!!!!' - write (*,'(a19,i5,f10.4,a4,2i4,a3,i3)') - & 'valence angle alpha',i-nphi-ntheta,var(i), - & 'n it',info(1),info(2),'mv ',info(3) - check_var=.true. - return - endif - enddo -! Check the backbone "valence" angles theta - do i=nphi+1,nphi+ntheta - if (var(i).lt.1.0d-7) then - write (iout,*) 'CHUJ NASTAPIL ABSOLUTNY!!!!!!!!!!!!' - write (iout,*) 'Processor',me,'received bad variables!!!!' - write (iout,*) 'Variables' - write (iout,'(8f10.4)') (rad2deg*var(j),j=1,nvar) - write (iout,*) 'Continuing calculations at this point', - & ' could destroy the results obtained so far... ABORTING!!!!!!' - write (iout,'(a19,i5,f10.4,a4,2i4,a3,i3)') - & 'valence angle theta',i-nphi,var(i), - & 'n it',info(1),info(2),'mv ',info(3) - write (*,*) 'CHUJ NASTAPIL ABSOLUTNY!!!!!!!!!!!!' - write (*,*) 'Processor',me,'received bad variables!!!!' - write (*,*) 'Variables' - write (*,'(8f10.4)') (rad2deg*var(j),j=1,nvar) - write (*,*) 'Continuing calculations at this point', - & ' could destroy the results obtained so far... ABORTING!!!!!!' - write (*,'(a19,i5,f10.4,a4,2i4,a3,i3)') - & 'valence angle theta',i-nphi,var(i), - & 'n it',info(1),info(2),'mv ',info(3) - check_var=.true. - return - endif - enddo - return - end