Project ID: plumID:23.011
Source: Alanine/OneOPES_MultiCV/3/plumed.dat
Originally used with PLUMED version: 2.9
Stable: zipped raw stdout - zipped raw stderr - stderr
Master: zipped raw stdout - zipped raw stderr - stderr
Click on the labels of the actions for more information on what each action computes
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# vim:ft=plumedEnables syntax highlighting for PLUMED files in vim. See here for more details. #RESTART
MOLINFOThis command is used to provide information on the molecules that are present in your system. More details STRUCTUREa file in pdb format containing a reference structure=input.ala2.pdb phi: TORSIONCalculate one or multiple torsional angles. More details ATOMSthe four atoms involved in the torsional angle=@phi-2the four atoms that are required to calculate the phi dihedral for residue 2. Click here for more information. psi: TORSIONCalculate one or multiple torsional angles. More details ATOMSthe four atoms involved in the torsional angle=@psi-2the four atoms that are required to calculate the psi dihedral for residue 2. Click here for more information. omega: TORSIONCalculate one or multiple torsional angles. More details ATOMSthe four atoms involved in the torsional angle=@omega-2the four atoms that are required to calculate the omega dihedral for residue 2. Click here for more information. ene: ENERGYCalculate the total potential energy of the simulation box. More details
d1: DISTANCECalculate the distance/s between pairs of atoms. More details ATOMSthe pair of atom that we are calculating the distance between=2,19 d2: DISTANCECalculate the distance/s between pairs of atoms. More details ATOMSthe pair of atom that we are calculating the distance between=6,17 d3: DISTANCECalculate the distance/s between pairs of atoms. More details ATOMSthe pair of atom that we are calculating the distance between=7,16 OPES_METAD_EXPLOREOn-the-fly probability enhanced sampling with well-tempered target distribution in exploreation mode. More details ... LABELa label for the action so that its output can be referenced in the input to other actions=opes ARGthe labels of the scalars on which the bias will act=psi SIGMA the initial widths of the kernels, divided by the square root of gamma=0.2 FILE a file in which the list of all deposited kernels is stored=Kernels.data STATE_RFILEread from this file the compressed kernels and all the info needed to RESTART the simulation=compressed.Kernels STATE_WFILEwrite to this file the compressed kernels and all the info needed to RESTART the simulation=compressed.Kernels PACEthe frequency for kernel deposition=5000 BARRIERthe free energy barrier to be overcome=50 ... OPES_METAD_EXPLORE
OPES_METAD_EXPLOREOn-the-fly probability enhanced sampling with well-tempered target distribution in exploreation mode. More details ... LABELa label for the action so that its output can be referenced in the input to other actions=opes1 ARGthe labels of the scalars on which the bias will act=d1 SIGMA the initial widths of the kernels, divided by the square root of gamma=0.02 FILE a file in which the list of all deposited kernels is stored=Kernels1.data STATE_RFILEread from this file the compressed kernels and all the info needed to RESTART the simulation=compressed1.Kernels STATE_WFILEwrite to this file the compressed kernels and all the info needed to RESTART the simulation=compressed1.Kernels PACEthe frequency for kernel deposition=10000 BARRIERthe free energy barrier to be overcome=3 ... OPES_METAD_EXPLORE
OPES_METAD_EXPLOREOn-the-fly probability enhanced sampling with well-tempered target distribution in exploreation mode. More details ... LABELa label for the action so that its output can be referenced in the input to other actions=opes2 ARGthe labels of the scalars on which the bias will act=d2 SIGMA the initial widths of the kernels, divided by the square root of gamma=0.015 FILE a file in which the list of all deposited kernels is stored=Kernels2.data STATE_RFILEread from this file the compressed kernels and all the info needed to RESTART the simulation=compressed2.Kernels STATE_WFILEwrite to this file the compressed kernels and all the info needed to RESTART the simulation=compressed2.Kernels PACEthe frequency for kernel deposition=10000 BARRIERthe free energy barrier to be overcome=3 ... OPES_METAD_EXPLORE
OPES_METAD_EXPLOREOn-the-fly probability enhanced sampling with well-tempered target distribution in exploreation mode. More details ... LABELa label for the action so that its output can be referenced in the input to other actions=opes3 ARGthe labels of the scalars on which the bias will act=d3 SIGMA the initial widths of the kernels, divided by the square root of gamma=0.01 FILE a file in which the list of all deposited kernels is stored=Kernels3.data STATE_RFILEread from this file the compressed kernels and all the info needed to RESTART the simulation=compressed3.Kernels STATE_WFILEwrite to this file the compressed kernels and all the info needed to RESTART the simulation=compressed3.Kernels PACEthe frequency for kernel deposition=10000 BARRIERthe free energy barrier to be overcome=3 ... OPES_METAD_EXPLORE
PRINTPrint quantities to a file. More details STRIDE the frequency with which the quantities of interest should be output=100 FILEthe name of the file on which to output these quantities=COLVAR ARGthe labels of the values that you would like to print to the file=opes.bias,phi,psi,ene,omega,d1,d2,d3,opes1.bias,opes2.bias,opes3.bias FMTthe format that should be used to output real numbers=%7.4f ENDPLUMEDTerminate plumed input. More details