[gmx-users] REMD slow's down drastically
Dr. Vitaly Chaban
vvchaban at gmail.com
Mon Feb 24 16:42:57 CET 2014
sorry, and what performance did you expect from REMD?
Dr. Vitaly V. Chaban
On Mon, Feb 24, 2014 at 8:32 AM, Singam Karthick <sikart21 at yahoo.in> wrote:
> Dear members,
> I am trying to run REMD simulation for poly Alanine (12 residue) system. I used remd generator to get the range of temperature with the exchange probability of 0.3. I was getting the 125 replicas. I tried to simulate 125 replicas its drastically slow down the simulation time (for 70 pico seconds it took around 17 hours ) could anyone please tell me how to solve this issue.
>
> Following is the MDP file
>
> title = G4Ga3a4a5 production.
> ;define = ;-DPOSRES ; position restrain the protein
> ; Run parameters
> integrator = md ; leap-frog integrator
> nsteps = 12500000 ; 2 * 5000000 = 3ns
> dt = 0.002 ; 2 fs
> ; Output control
> nstxout = 0 ; save coordinates every 0.2 ps
> nstvout = 10000 ; save velocities every 0.2 ps
> nstxtcout = 500 ; save xtc coordinate every 0.2 ps
> nstenergy = 500 ; save energies every 0.2 ps
> nstlog = 100 ; update log file every 0.2 ps
> ; Bond parameters
> continuation = yes ; Restarting after NVT
> constraint_algorithm = lincs ; holonomic constraints
> constraints = hbonds ; all bonds (even heavy atom-H bonds) constrained
> lincs_iter = 1 ; accuracy of LINCS
> lincs_order = 4 ; also related to accuracy
> morse = no
> ; Neighborsearching
> ns_type = grid ; search neighboring grid cels
> nstlist = 5 ; 10 fs
> rlist = 1.0 ; short-range neighborlist cutoff (in nm)
> rcoulomb = 1.0 ; short-range electrostatic cutoff (in nm)
> rvdw = 1.0 ; short-range van der Waals cutoff (in nm)
> ; Electrostatics
> coulombtype = PME ; Particle Mesh Ewald for long-range electrostatics
> pme_order = 4 ; cubic interpolation
> fourierspacing = 0.16 ; grid spacing for FFT
> ; Temperature coupling is on
> tcoupl = V-rescale ; modified Berendsen thermostat
> tc-grps = protein SOL Cl ;two coupling groups - more accurate
> tau_t = 0.1 0.1 0.1 ; time constant, in ps
> ref_t = XXXXX XXXXX XXXXX ; reference temperature, one for each group, in K
> ; Pressure coupling is on
> pcoupl = Parrinello-Rahman ; Pressure coupling on in NPT
> pcoupltype = isotropic ; uniform scaling of box vectors
> tau_p = 2.0 ; time constant, in ps
> ref_p = 1.0 ; reference pressure, in bar
> compressibility = 4.5e-5 ; isothermal compressibility of water, bar^-1
> ; Periodic boundary conditions
> pbc = xyz ; 3-D PBC
> ; Dispersion correction
>
> DispCorr = EnerPres ; account for cut-off vdW scheme
>
>
> regards
> singam
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