Re: [gmx-users] energy minimisation of carbon nanotubes.

Sat, 15 Sep 2012 10:33:32 -0700 


On 9/15/12 12:49 PM, Elie M wrote:


Dear all,
I have a small question regarding energy minimization. I am minimizing a carbon 
naotube in vaccuo and my (mdp )input file is: ;

;     SWNT (10,0) on its own

;     Elie Moujaes, SWNT+polymers project

;     Energy minimization input file

;

cpp                 =/usr/bin/cpp

define              =
-DFLEXIBLE

constraints         =
none

integrator          =
cg

nsteps              =
2000

;

;     Energy minimizing stuff

;

emtol               =  0.00001

emstep              =
0.03



nstcomm             =
1

pbc                 =  xyz

periodic_molecules  =  yes

ns_type             =
grid

rlist               =  1

rcoulomb            =  1.0

rvdw                =  1.0

Tcoupl              =
no

Pcoupl              =
no

gen_vel             =
no
I have put emstep very loww toa chieve accuracy.In the output i got:
Reading file SWNT-EM.tpr, VERSION 4.0.5 (single precision)Polak-Ribiere 
Conjugate Gradients:   Tolerance (Fmax)   =  1.00000e-05   Number of steps    = 
        2000   F-max             =  3.48055e+03 on atom 799   F-Norm            
=  9.67779e+02

Stepsize too small, or no change in energy.Converged to machine precision,but not 
to the requested precision Fmax < 1e-05
Double precision normally gives you higher accuracy.
writing lowest energy coordinates.
Polak-Ribiere Conjugate Gradients converged to machine precision in 359 steps,but 
did not reach the requested Fmax < 1e-05.Potential Energy  =  
8.7646348e+03Maximum force     =  1.6186214e+01 on atom 701Norm of force     =  
5.4860659e+00
It seems that I have to use the double precision version but as the single 
precision is concerned,Is the minimization fine (as the maximum force on atom 
701 is 16...)?



The outcome seems reasonable.  I doubt that any algorithm, in single or double 
precision, would ever reach Fmax < 1e-05.  Values of Fmax < 10 are generally 
suitable for just about any purpose and Fmax < 1000 will generally result in 
stable simulations for most systems.


-Justin

--
========================================

Justin A. Lemkul, Ph.D.
Research Scientist
Department of Biochemistry
Virginia Tech
Blacksburg, VA
jalemkul[at]vt.edu | (540) 231-9080
http://www.bevanlab.biochem.vt.edu/Pages/Personal/justin

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