[DFTB-Plus-User] XLBOMD
10174602105
10174602105 at stu.ecnu.edu.cn
Sat Jun 13 07:20:31 CEST 2020
Thanks a lot!
---Original---
From: "Ben Hourahine"<benjamin.hourahine at strath.ac.uk>
Date: Fri, Jun 12, 2020 19:25 PM
To: "dftb-plus-user"<dftb-plus-user at mailman.zfn.uni-bremen.de>;
Subject: Re: [DFTB-Plus-User] XLBOMD
Hello Gu,
Depending on what data you need to gather, you could instead try running an ensemble of simulations (i.e. separate calculations with different random seeds) and then calculate property averages afterwards or select more stable structures if annealing.
For time independent properties this is equivalent to a single long calculation, but can be parallelized much better. Unfortunately it doesn't help for things like vibrational mode calculations or other time ordered properties.
There is some literature discussion that this ensemble method (when applicable) is more efficient at sampling phase space than a single long calculation (alternatively you could also use accelerated method like plumed or similar, again if relevant).
Regards
Ben
On 12/06/2020 02:41, 10174602105 wrote:
Thank you so much!
---Original---
From: "Sharma SRK Chaitanya Yamijala"<sharmajncasr at gmail.com>
Date: Thu, Jun 11, 2020 03:42 AM
To: "User list for DFTB+ related questions"<dftb-plus-user at mailman.zfn.uni-bremen.de>;
Cc: "tz878"<tz878 at nyu.edu>;
Subject: Re: [DFTB-Plus-User] XLBOMD
You can run an NVT calculation (without XLBOMD) for a few picoseconds and then use the final positions and velocities for your XLBOMD NVE simulation. Since you ran an NVT first, the velocities of the atoms will be at your target temperature.
I hope this procedure will probably help you to start an XLBOMD-NVE simulation at the required temperature.
--------------------------------------------------------------------
SRK Chaitanya Sharma, Yamijala.
https://scholar.google.com/citations?hl=en&user=IglNkREAAAAJ
On Wed, Jun 10, 2020 at 9:30 AM 10174602105 <10174602105 at stu.ecnu.edu.cn> wrote:
Hi DFTB+ community,
I am a new user of DFTB+ code. I am trying to speed up SCC MD, so I use the fast XL-BOMD method. However, it does not work.
Here is the Diver block:
Driver = VelocityVerlet {
TimeStep [fs] = 0.5
# Use thermostat to maintain temperature
Thermostat = NoseHoover {
Temperature [Kelvin] = 2000
CouplingStrength [cm^-1] = 3200
}
# extended Lagrangian dynamics, using the 'fast' option
XlbomdFast {
IntegrationSteps = 5
Scale = 0.5
TransientSteps = 10
}
Steps = 40
MovedAtoms = 1:-1
}
I got the following error:
ERROR!
-> XLBOMD does not work with thermostats yet
Done.
Must it be NVE? Then how can I control the temperature with XLBOMD? Can someone please offer some advice?
PS: The system is about C, H, O, N atoms.
Thank you,
Shuangfei Gu
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