Difference between revisions of "Ubq nvt.mdp"

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Line 33: Line 33:
 
   
 
   
 
  ; 7.3.11 VdW
 
  ; 7.3.11 VdW
  vdwtype                = cut-off      ; twin-range cut-off with rlist where rvdw > rlist
+
  vdwtype                = cut-off      ; twin-range cut-off with rlist where rvdw >= rlist
 
  rvdw                    = 0.8          ; [nm] distance for LJ cut-off
 
  rvdw                    = 0.8          ; [nm] distance for LJ cut-off
 
  DispCorr                = EnerPres      ; apply long range dispersion corrections
 
  DispCorr                = EnerPres      ; apply long range dispersion corrections

Latest revision as of 12:14, 22 July 2011

; 7.3.2 Preprocessing
define                  = -DPOSRES      ; defines to pass to the preprocessor

; 7.3.3 Run Control
integrator              = md                    ; md integrator
tinit                   = 0                     ; [ps] starting time for run
dt                      = 0.002                 ; [ps] time step for integration
nsteps                  = 25000                 ; maximum number of steps to integrate, 0.002 * 25,000 = 50 ps
comm_mode               = Linear                ; remove center of mass translation
nstcomm                 = 1                     ; [steps] frequency of mass motion removal
comm_grps               = Protein Non-Protein   ; group(s) for center of mass motion removal

; 7.3.8 Output Control
nstxout                 = 25000         ; [steps] freq to write coordinates to trajectory
nstvout                 = 25000         ; [steps] freq to write velocities to trajectory
nstfout                 = 25000         ; [steps] freq to write forces to trajectory
nstlog                  = 100           ; [steps] freq to write energies to log file
nstenergy               = 100           ; [steps] freq to write energies to energy file
nstxtcout               = 100           ; [steps] freq to write coordinates to xtc trajectory
xtc_precision           = 1000          ; [real] precision to write xtc trajectory
xtc_grps                = System        ; group(s) to write to xtc trajectory
energygrps              = System        ; group(s) to write to energy file

; 7.3.9 Neighbor Searching
nstlist                 = 1             ; [steps] freq to update neighbor list
ns_type                 = grid          ; method of updating neighbor list
pbc                     = xyz           ; periodic boundary conditions in all directions
rlist                   = 0.8           ; [nm] cut-off distance for the short-range neighbor list

; 7.3.10 Electrostatics
coulombtype             = PME           ; Particle-Mesh Ewald electrostatics
rcoulomb                = 0.8           ; [nm] distance for Coulomb cut-off

; 7.3.11 VdW
vdwtype                 = cut-off       ; twin-range cut-off with rlist where rvdw >= rlist
rvdw                    = 0.8           ; [nm] distance for LJ cut-off
DispCorr                = EnerPres      ; apply long range dispersion corrections

; 7.3.13 Ewald
fourierspacing          = 0.12          ; [nm] grid spacing for FFT grid when using PME
pme_order               = 4             ; interpolation order for PME, 4 = cubic
ewald_rtol              = 1e-5          ; relative strength of Ewald-shifted potential at rcoulomb

; 7.3.14 Temperature Coupling
tcoupl                  = berendsen                     ; temperature coupling with Berendsen-thermostat
tc_grps                 = Protein    Non-Protein        ; groups to couple seperately to temperature bath
tau_t                   = 0.1        0.1                ; [ps] time constant for coupling
ref_t                   = 310        310                ; [K] reference temperature for coupling

; 7.3.17 Velocity Generation
gen_vel                 = yes           ; generate velocities according to Maxwell distribution of temperature
gen_temp                = 310           ; [K] temperature for Maxwell distribution
gen_seed                = -1            ; [integer] used to initialize random generator for random velocities

; 7.3.18 Bonds
constraints             = all-bonds     ; convert all bonds to constraints
constraint_algorithm    = LINCS         ; LINear Constraint Solver
continuation            = no            ; no = apply constraints to the start configuration
lincs_order             = 4             ; highest order in the expansion of the contraint coupling matrix
lincs_iter              = 1             ; number of iterations to correct for rotational lengthening
lincs_warnangle         = 30            ; [degrees] maximum angle that a bond can rotate before LINCS will complain