lowb=-5*sigv
highb=5*sigv
d_t_work_new(ii)=anorm_distr(xv,sigv,lowb,highb)
-c write (iout,*) "i",i," ii",ii," geigen",geigen(i),
-c & " d_t_work_new",d_t_work_new(ii)
+ write (iout,*) "i",i," ii",ii," geigen",geigen(i),
+ & " d_t_work_new",d_t_work_new(ii)
enddo
enddo
call flush(iout)
d_t_work(ind)=d_t_work(ind)
& +Gvec(i,j)*d_t_work_new((j-1)*3+k+1)
enddo
-c write (iout,*) "i",i," ind",ind," d_t_work",d_t_work(ind)
-c call flush(iout)
+ write (iout,*) "i",i," ind",ind," d_t_work",d_t_work(ind)
+ call flush(iout)
enddo
enddo
c Transfer to the d_t vector
enddo
endif
enddo
-c call kinetic(EK)
-c write (iout,*) "Kinetic energy",Ek,EK1," kinetic temperature",
-c & 2.0d0/(dimen3*Rb)*EK,2.0d0/(dimen3*Rb)*EK1
-c call flush(iout)
+ call kinetic(EK)
+ write (iout,*) "Kinetic energy",Ek,EK1," kinetic temperature",
+ & 2.0d0/(dimen3*Rb)*EK,2.0d0/(dimen3*Rb)*EK1
+ call flush(iout)
return
end
#ifndef LANG0