How do I generate PSF ?

[Axel]

On Jan 22, 2:34 am, "Jack Shultz" <jackyg... at gmail.com> wrote:
> Axel,
> I am still trying to figure out what to turn to for tutorials and
> literature. Whether I should turn to Amber, GROMACs or QE tutorials. Got an

each of the tutorials address a different audience and each of the
packages have different features. so in principle you should go over
_all_
of them to learn the most and particularly see the common features and
differences (at least that is what i did). there is a huge difference
between
gromacs and quantum espresso with respect of the implemented methods
typical uses and capabilities.

> academic license for Amber which is on its way. You said Amber would be much
> better to learn on than CP2K, so I will look over that material first. I
> understand there is no exact correlation between what I learn in one
> chemistry package to another...but just trying to figure out where to start
> seems hard.

this is completely understandable. it looks hard, because you are not
familiar
enough with the underlying concepts and theory and particularly don't
know
the 'slang' that is used. so before starting any tutorials, you should
take a deep
look into (introductory) books on MD, molecular modeling and quantum
chemistry,
and once you're getting the hang of it, everything will be much more
obvious.

cheers,
    axel.


>
> Jack
>
> On Jan 21, 2008 10:42 AM, Axel <akoh... at gmail.com> wrote:
>
>
>
> > On Jan 21, 2:06 pm, "Jack Shultz" <jackyg... at gmail.com> wrote:
> > > My goal is to learn how to design a covalent bond-breaking reaction
> > model.
> > > So I do what usually works for me with most applications, take an
> > example I
> > > know works 2gly_CI-NEB.inp but I try to build the inital and final
> > images
> > > using H2O2, H2O & O2 molecular files. I modified these files.
>
> > > I only want the final geometry to represent two water molecules and one
> > > diatomic oxygen with sufficient distance to make any weak interactions
> > such
> > > as hydrogen bonds non-existent So I've displaced them 2 angstroms along
> > x
> > > and now I tried 1 angstrom along y.
> > > So I guess I can use that triangle formula since it is only two axis.
> > 2sqr +
> > > 1sqr = csqr = 5 so c = sqrt 5 < 2.8 ... maybe not enough distance.
> > > As far as the FF goes, can you point me to an example that has FF
> > configured
> > > correctly for a bond-breaking reaction? Moreover, are there any
>
> > almost all traditional classical (pairwise additive) force fields do
> > not support bond breaking.
>
> > if you want to look at bond breaking, why not use semi-empirical
> > or DFT? then you don't need to provide topology information.
>
> > in the danger of repeating myself. please go an _first_ study a bit
> > on how the various modeling methods work, what they can do and
> > don't try to do too many things at the same time (NEB is really very
> > much at the end of this 'food chain'). it will pay off in time, and
> > you
> > don't have to ask about things, that puzzle you now, but are
> > essentially trivial.
>
> > cheers,
> >   axel.
>
> > > bond-breaking examples I can look at?
>
> > > Jack
>
> >  > On Jan 21, 2008 2:58 AM, Teodoro Laino <teodor... at gmail.com> wrote:
>
> > > >  On 21 Jan 2008, at 04:35, Jack Shultz wrote:
>
> > > > So I did not displace the water molecules appropriately?
>
> > > > what do you mean with appropriately? If that is the geometry that you
> > want
> > > > to get as your final state.. that's fine.. but don't expect
> > > > the topology generator to work properly with it..
>
> > > > I only tried to seperate them by 2 angstroms along the x-axis...maybe
> > I
> > > > should move them 1 angstrom along the y-axis as well?
>
> > > > a typical hydrogen bond (O1-O2) for bulk water is ~ 2.8 angstrom..
> >  (as
> > > > you said yours is 2.0 Angstgrom)..
>
> > > > Should that help?
>
> > > > Sorry.. I don't understand why/where you are expecting an help
> > changing
> > > > the geometry of the final state of the NEB.
> > > > Perhaps, I was not clear in my last message:
>
> > > > You've setup a bond-breaking reaction with a classical FF: 1) You
> > didn't
> > > > provide any parameter file for the classical FF (!) (and this causes
> > the
> > > > abnormal termination of cp2k)
> > > > 2) You cannot do BB* with CP2K, using a classical Hamiltonian.
>
> > > > *(Bond-Breaking)
>
> > > > cheers,
> > > > Teo