[gmx-users] NPT, freezegroups and Position Restraints.
HANNIBAL LECTER
hanniballecter13 at gmail.com
Mon Aug 19 17:58:56 CEST 2013
I usually use 1.0 for my systems and I get the correct values for the
temperatures. If I couple it as a system, the low T-CNT yields a different
value than the target 300K.
On Mon, Aug 19, 2013 at 11:48 AM, Justin Lemkul <jalemkul at vt.edu> wrote:
>
>
> On 8/19/13 11:42 AM, HANNIBAL LECTER wrote:
>
>> Thanks Justin.
>>
>> I am not sure how it is fundamentally incompatible. Especially with
>> refcoord-scaling = com. Can you please provide with some more input on
>> that?
>>
>>
> The refcoord-scaling option doesn't matter with frozen groups. Anything
> that is frozen, by definition, never has its position updated. Under the
> influence of pressure coupling, other particles around the frozen group can
> have their positions scaled and thus collide with the frozen group, which
> has remained in its original location.
>
>
>
>> The outputs are from g_energy.
>>
>>
> OK, good.
>
>
> Here is the .mdp file.
>>
>> define = -DPOSRES_CNT
>> constraints = all-bonds
>> pbc = xyz
>> integrator = sd
>> ld_seed = 215546
>> dt = 0.002 ; ps !
>> nsteps = 50000 ; 50 ns
>> ;nsteps = 125000 ; 250 ps
>> nstcomm = 10
>> nstcalcenergy = 10
>> nstxout = 0
>> nstxtcout = 5000 ;every 10 ps
>> nstvout = 100
>> nstfout = 0
>> nstlog = 1000
>> nstenergy = 1000
>> nstlist = 10
>> ns_type = grid
>> rlist = 1.0
>> vdwtype = cut-off
>> rvdw = 1.0
>> coulombtype = pme
>> rcoulomb = 1.0
>> fourierspacing = 0.12
>> pme_order = 4
>> ewald_rtol = 1e-5
>> optimize_fft = yes
>> tc-grps = Protein CNT SOL
>> tau_t = 1.0 1.0 1.0
>>
>
> Note that tau_t is the inverse friction constant, not the "normal"
> coupling constant. In this case, I don't know what appropriate values are,
> especially if one of your groups is restrained. The manual advises a value
> of 2.0, so at least try that. Otherwise, try coupling the System as a
> whole or use a different integrator (i.e., md) to try to figure out the
> origin of the problem.
>
> -Justin
>
> ref_t = 300.000 300 300
>> ;freezegrps = CNT
>> ;freezedim = Y Y Y
>> ; Energy monitoring
>> energygrps = CNT Protein SOL
>> ; energygrp-excl = CNT CNT
>> ; Isotropic pressure coupling is now on
>> Pcoupl = Berendsen
>> refcoord-scaling = com
>> Pcoupltype = isotropic
>> tau_p = 5
>> compressibility = 4.5e-5
>> ref_p = 1.0
>> gen_vel = yes
>> gen_temp = 300.000
>> gen_seed = 981487
>>
>>
>>
>> On Mon, Aug 19, 2013 at 11:35 AM, Justin Lemkul <jalemkul at vt.edu> wrote:
>>
>>
>>>
>>> On 8/19/13 11:32 AM, HANNIBAL LECTER wrote:
>>>
>>> Hi,
>>>>
>>>> I have been performing NPT simulations with CNT, Protein and water.
>>>> However, when I freeze the CNT, the system crashes with segmentation
>>>> fault.
>>>>
>>>>
>>>> That is to be expected. Frozen atoms and pressure coupling are
>>> fundamentally incompatible.
>>>
>>>
>>> If I use position restraints, the temperature of the system is lower
>>> than
>>>
>>>> what it is expected to be. I am using sd coupling.
>>>>
>>>> If I couple the protein, CNT and SOL separately, the temperature of the
>>>> peptide is lower than 300K (~395K) while the temperature of the CNT is
>>>> 157K. The target temperature is 300K in all cases. Can any please
>>>> explain
>>>> why such discrepancies are occurring?
>>>>
>>>>
>>>> Are these temperatures from g_energy or g_traj? Can you please post a
>>> full .mdp file?
>>>
>>> -Justin
>>>
>>> --
>>> ==============================****====================
>>>
>>>
>>> Justin A. Lemkul, Ph.D.
>>> Postdoctoral Fellow
>>>
>>> Department of Pharmaceutical Sciences
>>> School of Pharmacy
>>> Health Sciences Facility II, Room 601
>>> University of Maryland, Baltimore
>>> 20 Penn St.
>>> Baltimore, MD 21201
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>>> jalemkul at outerbanks.umaryland.****edu <jalemkul at outerbanks.**
>>> umaryland.edu <jalemkul at outerbanks.umaryland.edu>> | (410)
>>> 706-7441
>>>
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> --
> ==============================**====================
>
> Justin A. Lemkul, Ph.D.
> Postdoctoral Fellow
>
> Department of Pharmaceutical Sciences
> School of Pharmacy
> Health Sciences Facility II, Room 601
> University of Maryland, Baltimore
> 20 Penn St.
> Baltimore, MD 21201
>
> jalemkul at outerbanks.umaryland.**edu <jalemkul at outerbanks.umaryland.edu> | (410)
> 706-7441
>
> ==============================**====================
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