C Calculate electrostatic (H-bonding) energy of the main chain.
C
107 continue
+cmc
+cmc Sep-06: egb takes care of dynamic ss bonds too
+cmc
+ if (dyn_ss) call dyn_set_nss
+
c print *,"Processor",myrank," computed USCSC"
#ifdef TIMING
#ifdef MPI
#ifdef SPLITELE
etot=wsc*evdw+wscp*evdw2+welec*ees+wvdwpp*evdw1
& +wang*ebe+wtor*etors+wscloc*escloc
- & +wstrain*ehpb+nss*ebr+wcorr*ecorr+wcorr5*ecorr5
+ & +wstrain*ehpb+wcorr*ecorr+wcorr5*ecorr5
& +wcorr6*ecorr6+wturn4*eello_turn4+wturn3*eello_turn3
& +wturn6*eturn6+wel_loc*eel_loc+edihcnstr+wtor_d*etors_d
& +wbond*estr+Uconst+wsccor*esccor
#else
etot=wsc*evdw+wscp*evdw2+welec*(ees+evdw1)
& +wang*ebe+wtor*etors+wscloc*escloc
- & +wstrain*ehpb+nss*ebr+wcorr*ecorr+wcorr5*ecorr5
+ & +wstrain*ehpb+wcorr*ecorr+wcorr5*ecorr5
& +wcorr6*ecorr6+wturn4*eello_turn4+wturn3*eello_turn3
& +wturn6*eturn6+wel_loc*eel_loc+edihcnstr+wtor_d*etors_d
& +wbond*estr+Uconst+wsccor*esccor
do i=1,4*nres
glocbuf(i)=gloc(i,icg)
enddo
-#define DEBUG
#ifdef DEBUG
write (iout,*) "gloc_sc before reduce"
do i=1,nres
enddo
enddo
#endif
-#undef DEBUG
do i=1,nres
do j=1,3
gloc_scbuf(j,i)=gloc_sc(j,i,icg)
call MPI_Reduce(gloc_scbuf(1,1),gloc_sc(1,1,icg),3*nres,
& MPI_DOUBLE_PRECISION,MPI_SUM,king,FG_COMM,IERR)
time_reduce=time_reduce+MPI_Wtime()-time00
-#define DEBUG
#ifdef DEBUG
write (iout,*) "gloc_sc after reduce"
do i=1,nres
enddo
enddo
#endif
-#undef DEBUG
#ifdef DEBUG
write (iout,*) "gloc after reduce"
do i=1,4*nres
& edihcnstr,ebr*nss,
& Uconst,etot
10 format (/'Virtual-chain energies:'//
- & 'EVDW= ',1pE16.6,' WEIGHT=',1pD16.6,' (SC-SC)'/
- & 'EVDW2= ',1pE16.6,' WEIGHT=',1pD16.6,' (SC-p)'/
- & 'EES= ',1pE16.6,' WEIGHT=',1pD16.6,' (p-p)'/
- & 'EVDWPP=',1pE16.6,' WEIGHT=',1pD16.6,' (p-p VDW)'/
- & 'ESTR= ',1pE16.6,' WEIGHT=',1pD16.6,' (stretching)'/
- & 'EBE= ',1pE16.6,' WEIGHT=',1pD16.6,' (bending)'/
- & 'ESC= ',1pE16.6,' WEIGHT=',1pD16.6,' (SC local)'/
- & 'ETORS= ',1pE16.6,' WEIGHT=',1pD16.6,' (torsional)'/
- & 'ETORSD=',1pE16.6,' WEIGHT=',1pD16.6,' (double torsional)'/
- & 'EHPB= ',1pE16.6,' WEIGHT=',1pD16.6,
+ & 'EVDW= ',1pE16.6,' WEIGHT=',1pE16.6,' (SC-SC)'/
+ & 'EVDW2= ',1pE16.6,' WEIGHT=',1pE16.6,' (SC-p)'/
+ & 'EES= ',1pE16.6,' WEIGHT=',1pE16.6,' (p-p)'/
+ & 'EVDWPP=',1pE16.6,' WEIGHT=',1pE16.6,' (p-p VDW)'/
+ & 'ESTR= ',1pE16.6,' WEIGHT=',1pE16.6,' (stretching)'/
+ & 'EBE= ',1pE16.6,' WEIGHT=',1pE16.6,' (bending)'/
+ & 'ESC= ',1pE16.6,' WEIGHT=',1pE16.6,' (SC local)'/
+ & 'ETORS= ',1pE16.6,' WEIGHT=',1pE16.6,' (torsional)'/
+ & 'ETORSD=',1pE16.6,' WEIGHT=',1pE16.6,' (double torsional)'/
+ & 'EHPB= ',1pE16.6,' WEIGHT=',1pE16.6,
& ' (SS bridges & dist. cnstr.)'/
- & 'ECORR4=',1pE16.6,' WEIGHT=',1pD16.6,' (multi-body)'/
- & 'ECORR5=',1pE16.6,' WEIGHT=',1pD16.6,' (multi-body)'/
- & 'ECORR6=',1pE16.6,' WEIGHT=',1pD16.6,' (multi-body)'/
- & 'EELLO= ',1pE16.6,' WEIGHT=',1pD16.6,' (electrostatic-local)'/
- & 'ETURN3=',1pE16.6,' WEIGHT=',1pD16.6,' (turns, 3rd order)'/
- & 'ETURN4=',1pE16.6,' WEIGHT=',1pD16.6,' (turns, 4th order)'/
- & 'ETURN6=',1pE16.6,' WEIGHT=',1pD16.6,' (turns, 6th order)'/
- & 'ESCCOR=',1pE16.6,' WEIGHT=',1pD16.6,' (backbone-rotamer corr)'/
+ & 'ECORR4=',1pE16.6,' WEIGHT=',1pE16.6,' (multi-body)'/
+ & 'ECORR5=',1pE16.6,' WEIGHT=',1pE16.6,' (multi-body)'/
+ & 'ECORR6=',1pE16.6,' WEIGHT=',1pE16.6,' (multi-body)'/
+ & 'EELLO= ',1pE16.6,' WEIGHT=',1pE16.6,' (electrostatic-local)'/
+ & 'ETURN3=',1pE16.6,' WEIGHT=',1pE16.6,' (turns, 3rd order)'/
+ & 'ETURN4=',1pE16.6,' WEIGHT=',1pE16.6,' (turns, 4th order)'/
+ & 'ETURN6=',1pE16.6,' WEIGHT=',1pE16.6,' (turns, 6th order)'/
+ & 'ESCCOR=',1pE16.6,' WEIGHT=',1pE16.6,' (backbone-rotamer corr)'/
& 'EDIHC= ',1pE16.6,' (dihedral angle constraints)'/
& 'ESS= ',1pE16.6,' (disulfide-bridge intrinsic energy)'/
& 'UCONST= ',1pE16.6,' (Constraint energy)'/
include 'COMMON.IOUNITS'
include 'COMMON.CALC'
include 'COMMON.CONTROL'
+ include 'COMMON.SBRIDGE'
logical lprn
evdw=0.0D0
ccccc energy_dec=.false.
C
do iint=1,nint_gr(i)
do j=istart(i,iint),iend(i,iint)
+ IF (dyn_ss_mask(i).and.dyn_ss_mask(j)) THEN
+ call dyn_ssbond_ene(i,j,evdwij)
+ evdw=evdw+evdwij
+ ELSE
ind=ind+1
itypj=itype(j)
c dscj_inv=dsc_inv(itypj)
#else
call sc_grad
#endif
+ ENDIF ! dyn_ss
enddo ! j
enddo ! iint
enddo ! i
include 'COMMON.IOUNITS'
dimension ggg(3)
ehpb=0.0D0
-cd write(iout,*)'edis: nhpb=',nhpb,' fbr=',fbr
-cd write(iout,*)'link_start=',link_start,' link_end=',link_end
+c write(iout,*)'edis: nhpb=',nhpb,' fbr=',fbr
+c write(iout,*)'link_start=',link_start,' link_end=',link_end
if (link_end.eq.0) return
do i=link_start,link_end
C If ihpb(i) and jhpb(i) > NRES, this is a SC-SC distance, otherwise a
c & dhpb(i),dhpb1(i),forcon(i)
C 24/11/03 AL: SS bridges handled separately because of introducing a specific
C distance and angle dependent SS bond potential.
- if (ii.gt.nres .and. itype(iii).eq.1 .and. itype(jjj).eq.1) then
+cmc if (ii.gt.nres .and. itype(iii).eq.1 .and. itype(jjj).eq.1) then
+C 18/07/06 MC: Use the convention that the first nss pairs are SS bonds
+ if (.not.dyn_ss .and. i.le.nss) then
+C 15/02/13 CC dynamic SSbond - additional check
+ if (ii.gt.nres
+ & .and. itype(iii).eq.1 .and. itype(jjj).eq.1) then
call ssbond_ene(iii,jjj,eij)
ehpb=ehpb+2*eij
-cd write (iout,*) "eij",eij
+ endif
else if (ii.gt.nres .and. jj.gt.nres) then
c Restraints from contact prediction
dd=dist(ii,jj)
deltat12=om2-om1+2.0d0
cosphi=om12-om1*om2
eij=akcm*deltad*deltad+akth*(deltat1*deltat1+deltat2*deltat2)
- & +akct*deltad*deltat12
+ & +akct*deltad*deltat12+ebr
& +v1ss*cosphi+v2ss*cosphi*cosphi+v3ss*cosphi*cosphi*cosphi
+ & +ss_depth
c write(iout,*) i,j,"rij",rij,"d0cm",d0cm," akcm",akcm," akth",akth,
c & " akct",akct," deltad",deltad," deltat",deltat1,deltat2,
c & " deltat12",deltat12," eij",eij
include 'COMMON.GEO'
logical swap
double precision vv(2),pizda(2,2),auxmat(2,2),auxvec(2),
- & auxvec1(2),auxvec2(1),auxmat1(2,2)
+ & auxvec1(2),auxvec2(2),auxmat1(2,2)
logical lprn
common /kutas/ lprn
CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC