& ene_i_iex,xxx,tmp,econstr_temp_iex,econstr_temp_i
integer iran_num
double precision ran_number
+ integer i_econstr/20/
cdeb imin_itime_old=0
ntwx_cache=0
do i=nnt,nct
if (itype(i).ne.ntyp1) stdforcsc(i)=stdfsc(iabs(itype(i)))
& *dsqrt(gamsc(iabs(itype(i))))
- enddo
+ enddo
endif
+
endif
if(me.eq.king) then
write (iout,'(a6,i4,a1,100i4)') "ndowna",il,":",
& (ndowna(i,il),i=1,ndowna(0,il))
enddo
+
stdfp=dsqrt(2*Rb*t_bath/d_time)
do i=1,ntyp
stdfsc(i)=dsqrt(2*Rb*t_bath/d_time)
enddo
if (lang.gt.0 .and. .not.surfarea) then
- do i=nnt,nct-1
- stdforcp(i)=stdfp*dsqrt(gamp)
- enddo
+ do i=nnt,nct-1
+ stdforcp(i)=stdfp*dsqrt(gamp)
+ enddo
do i=nnt,nct
if (itype(i).ne.ntyp1) stdforcsc(i)=stdfsc(iabs(itype(i)))
& *dsqrt(gamsc(iabs(itype(i))))
- enddo
- endif
-
+ enddo
+ endif
ELSE IF (.not.(rest.and.file_exist)) THEN
do il=1,remd_m(1)
ifirst(il)=il
iset=i2set(me)
if(me.eq.king.or..not.out1file)
& write(iout,*) me,"iset=",iset,"t_bath=",t_bath
- call flush(iout)
+c call flush(iout)
endif
c
stdfp=dsqrt(2*Rb*t_bath/d_time)
write(iout,*) "MIN ii_write=",ii_write
endif
endif
- call flush(iout)
+c call flush(iout)
endif
if (synflag) then
c Update the time safety limiy
time05=MPI_WTIME()
if (me.eq.king .or. .not. out1file) then
write(iout,*) 'REMD writing traj time=',time05-time04
- call flush(iout)
+c call flush(iout)
endif
iex=i_index(i_temp1,i_mult1,i_iset1,i_mset1)
c 9/1/17 AL: Correction; otherwise the restraint energies are mis-assigned
c on failed replica exchange attempt
- econstr_temp_i=remd_ene(20,i)
- econstr_temp_iex=remd_ene(20,iex)
+ econstr_temp_i=remd_ene(i_econstr,i)
+ econstr_temp_iex=remd_ene(i_econstr,iex)
c 9/11/17 AL: Adaptive sampling (temperature dependent restraints potentials)
if (adaptive) then
- remd_ene(20,i)=remd_ene(n_ene+5,i)
- remd_ene(20,iex)=remd_ene(n_ene+6,iex)
+ remd_ene(i_econstr,i)=remd_ene(n_ene+5,i)
+ remd_ene(i_econstr,iex)=remd_ene(n_ene+6,iex)
endif
elseif(i_dir.eq.2 .and. mset(i_iset+1).gt.0)then
i_iset1=i_iset+1
i_mset1=iran_num(1,mset(i_iset1))
iex=i_index(i_temp1,i_mult1,i_iset1,i_mset1)
- econstr_temp_i=remd_ene(20,i)
- econstr_temp_iex=remd_ene(20,iex)
- remd_ene(20,i)=remd_ene(n_ene+3,i)
- remd_ene(20,iex)=remd_ene(n_ene+4,iex)
+ econstr_temp_i=remd_ene(i_econstr,i)
+ econstr_temp_iex=remd_ene(i_econstr,iex)
+ remd_ene(i_econstr,i)=remd_ene(n_ene+3,i)
+ remd_ene(i_econstr,iex)=remd_ene(n_ene+4,iex)
elseif(remd_m(i_temp+1).gt.0.and.mset(i_iset+1).gt.0)then
i_iset1=i_iset+1
i_mset1=iran_num(1,mset(i_iset1))
iex=i_index(i_temp1,i_mult1,i_iset1,i_mset1)
- econstr_temp_i=remd_ene(20,i)
- econstr_temp_iex=remd_ene(20,iex)
+ econstr_temp_i=remd_ene(i_econstr,i)
+ econstr_temp_iex=remd_ene(i_econstr,iex)
if (adaptive) then
- remd_ene(20,i)=remd_ene(n_ene+7,i)
- remd_ene(20,iex)=remd_ene(n_ene+8,iex)
+ remd_ene(i_econstr,i)=remd_ene(n_ene+7,i)
+ remd_ene(i_econstr,iex)=remd_ene(n_ene+8,iex)
else
- remd_ene(20,i)=remd_ene(n_ene+3,i)
- remd_ene(20,iex)=remd_ene(n_ene+4,iex)
+ remd_ene(i_econstr,i)=remd_ene(n_ene+3,i)
+ remd_ene(i_econstr,iex)=remd_ene(n_ene+4,iex)
endif
else
goto 444
else
remd_ene(0,iex)=ene_iex_iex
remd_ene(0,i)=ene_i_i
- remd_ene(20,iex)=econstr_temp_iex
- remd_ene(20,i)=econstr_temp_i
+ remd_ene(i_econstr,iex)=econstr_temp_iex
+ remd_ene(i_econstr,i)=econstr_temp_i
endif
cd do il=1,nset
enddo
endif
- call flush(iout)
+c call flush(iout)
cd write (iout,'(a6,100i4)') "ifirst",
cd & (ifirst(i),i=1,remd_m(1))
do i=1,ntyp
stdfsc(i)=dsqrt(2*Rb*t_bath/d_time)
enddo
-
c Compute the standard deviations of stochastic forces for Langevin dynamics
c if the friction coefficients do not depend on surface area
if (lang.gt.0 .and. .not.surfarea) then
& *dsqrt(gamsc(iabs(itype(i))))
enddo
endif
-cde write(iout,*) 'REMD after',me,t_bath
+cde write(iout,*) 'REMD after',me,t_bath
time08=MPI_WTIME()
if (me.eq.king .or. .not. out1file) then
write(iout,*) 'REMD exchange time=',time08-time00
- call flush(iout)
+c call flush(iout)
endif
endif
enddo