Project ID: plumID:21.013
Source: h2-diss/ni001/plumed.inp
Originally used with PLUMED version: 2.6
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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UNITSThis command sets the internal units for the code. More details LENGTHthe units of lengths=A TIMEthe units of time=fs ENERGYthe units of energy=kcal/mol LOADLoads a library, possibly defining new actions. More details FILEfile to be loaded=../../data/ReweightGeomFES.cpp DISTANCECalculate the distance/s between pairs of atoms. More details ATOMSthe pair of atom that we are calculating the distance between=65,66 LABELa label for the action so that its output can be referenced in the input to other actions=d1 DISTANCESCalculate the distances between multiple piars of atoms More details GROUPACalculate the distances between all the atoms in GROUPA and all the atoms in GROUPB=65-66 GROUPBCalculate the distances between all the atoms in GROUPA and all the atoms in GROUPB=1-64 LESS_THANcalculate the number of variables that are less than a certain target value. Options for this keyword are explained in the documentation for LESS_THAN.={RATIONAL R_0=2.0} MINcalculate the minimum value={BETA=100.0} LABELa label for the action so that its output can be referenced in the input to other actions=metalh
UPPER_WALLSDefines a wall for the value of one or more collective variables, More details ARGthe arguments on which the bias is acting=d1,metalh.min ATthe positions of the wall=1.50,4.00 KAPPAthe force constant for the wall=500,100 LABELa label for the action so that its output can be referenced in the input to other actions=wall
COMBINECalculate a polynomial combination of a set of other variables. More details ARGthe values input to this function=d1,metalh.lessthan COEFFICIENTS the coefficients of the arguments in your function=0.990,0.141 PERIODICif the output of your function is periodic then you should specify the periodicity of the function=NO LABELa label for the action so that its output can be referenced in the input to other actions=cv
METADUsed to performed metadynamics on one or more collective variables. More details ... ARGthe labels of the scalars on which the bias will act=cv SIGMAthe widths of the Gaussian hills=0.05 HEIGHTthe heights of the Gaussian hills=0.25 PACEthe frequency for hill addition=1000 BIASFACTORuse well tempered metadynamics and use this bias factor=25 TEMPthe system temperature - this is only needed if you are doing well-tempered metadynamics=500 GRID_MINthe lower bounds for the grid=0.0 GRID_MAXthe upper bounds for the grid=4.0 GRID_BINthe number of bins for the grid=800 CALC_RCT calculate the c(t) reweighting factor and use that to obtain the normalized bias [rbias=bias-rct] RCT_USTRIDEthe update stride for calculating the c(t) reweighting factor=1 LABELa label for the action so that its output can be referenced in the input to other actions=b1 ... METAD
REWEIGHT_METADCalculate the weights configurations should contribute to the histogram in a simulation in which a metadynamics bias acts upon the system. More details TEMPthe system temperature=500 LABELa label for the action so that its output can be referenced in the input to other actions=bias REWEIGHT_GEOMFESThis action is not part of PLUMED and was included by using a LOAD command More details TEMP=500 ARG=cv LABEL=gcv REWEIGHT_GEOMFESThis action is not part of PLUMED and was included by using a LOAD command More details TEMP=500 ARG=d1 LABEL=g1 REWEIGHT_GEOMFESThis action is not part of PLUMED and was included by using a LOAD command More details TEMP=500 ARG=metalh.lessthan LABEL=g2 REWEIGHT_BIASCalculate weights for ensemble averages that negate the effect the bias has on the region of phase space explored More details TEMPthe system temperature=500 ARG the biases that must be taken into account when reweighting=wall.bias LABELa label for the action so that its output can be referenced in the input to other actions=wbias
HISTOGRAMAccumulate the average probability density along a few CVs from a trajectory. More details ... ARGthe quantities that are being used to construct the histogram=cv GRID_MIN the lower bounds for the grid=0.0 GRID_MAX the upper bounds for the grid=4.0 GRID_BINthe number of bins for the grid=3000 BANDWIDTHthe bandwidths for kernel density esimtation=0.01 LOGWEIGHTSthe logarithm of the quantity to use as the weights when calculating averages=bias,wbias CLEAR the frequency with whihc to clear the data that is being averaged=5000000 LABELa label for the action so that its output can be referenced in the input to other actions=hh ... HISTOGRAM
HISTOGRAMAccumulate the average probability density along a few CVs from a trajectory. More details ... ARGthe quantities that are being used to construct the histogram=cv GRID_MIN the lower bounds for the grid=0.0 GRID_MAX the upper bounds for the grid=4.0 GRID_BINthe number of bins for the grid=3000 BANDWIDTHthe bandwidths for kernel density esimtation=0.01 LOGWEIGHTSthe logarithm of the quantity to use as the weights when calculating averages=bias,wbias,gcv CLEAR the frequency with whihc to clear the data that is being averaged=5000000 LABELa label for the action so that its output can be referenced in the input to other actions=hhg ... HISTOGRAM
HISTOGRAMAccumulate the average probability density along a few CVs from a trajectory. More details ... ARGthe quantities that are being used to construct the histogram=d1 GRID_MIN the lower bounds for the grid=0.0 GRID_MAX the upper bounds for the grid=2.0 GRID_BINthe number of bins for the grid=2000 BANDWIDTHthe bandwidths for kernel density esimtation=0.01 LOGWEIGHTSthe logarithm of the quantity to use as the weights when calculating averages=bias,wbias,g1 CLEAR the frequency with whihc to clear the data that is being averaged=5000000 LABELa label for the action so that its output can be referenced in the input to other actions=hh1 ... HISTOGRAM
HISTOGRAMAccumulate the average probability density along a few CVs from a trajectory. More details ... ARGthe quantities that are being used to construct the histogram=metalh.lessthan GRID_MIN the lower bounds for the grid=0.0 GRID_MAX the upper bounds for the grid=6.0 GRID_BINthe number of bins for the grid=3000 BANDWIDTHthe bandwidths for kernel density esimtation=0.02 LOGWEIGHTSthe logarithm of the quantity to use as the weights when calculating averages=bias,wbias,g2 CLEAR the frequency with whihc to clear the data that is being averaged=5000000 LABELa label for the action so that its output can be referenced in the input to other actions=hh2 ... HISTOGRAM
CONVERT_TO_FESConvert a histogram to a free energy surface. More details GRIDthe histogram that you would like to convert into a free energy surface (old syntax)=hh TEMPthe temperature at which you are operating=500.0 LABELa label for the action so that its output can be referenced in the input to other actions=ff CONVERT_TO_FESConvert a histogram to a free energy surface. More details GRIDthe histogram that you would like to convert into a free energy surface (old syntax)=hhg TEMPthe temperature at which you are operating=500.0 LABELa label for the action so that its output can be referenced in the input to other actions=ffg CONVERT_TO_FESConvert a histogram to a free energy surface. More details GRIDthe histogram that you would like to convert into a free energy surface (old syntax)=hh1 TEMPthe temperature at which you are operating=500.0 LABELa label for the action so that its output can be referenced in the input to other actions=ff1 CONVERT_TO_FESConvert a histogram to a free energy surface. More details GRIDthe histogram that you would like to convert into a free energy surface (old syntax)=hh2 TEMPthe temperature at which you are operating=500.0 LABELa label for the action so that its output can be referenced in the input to other actions=ff2
DUMPGRIDOutput the function on the grid to a file with the PLUMED grid format. More details GRIDthe grid you would like to print (can also use ARG for specifying what is being printed)=ff FILE the file on which to write the grid=fes STRIDE the frequency with which the grid should be output to the file=1000000 DUMPGRIDOutput the function on the grid to a file with the PLUMED grid format. More details GRIDthe grid you would like to print (can also use ARG for specifying what is being printed)=ffg FILE the file on which to write the grid=fesg STRIDE the frequency with which the grid should be output to the file=1000000 DUMPGRIDOutput the function on the grid to a file with the PLUMED grid format. More details GRIDthe grid you would like to print (can also use ARG for specifying what is being printed)=ff1 FILE the file on which to write the grid=fes1 STRIDE the frequency with which the grid should be output to the file=1000000 DUMPGRIDOutput the function on the grid to a file with the PLUMED grid format. More details GRIDthe grid you would like to print (can also use ARG for specifying what is being printed)=ff2 FILE the file on which to write the grid=fes2 STRIDE the frequency with which the grid should be output to the file=1000000 FLUSHThis command instructs plumed to flush all the open files with a user specified frequency. More details STRIDEthe frequency with which all the open files should be flushed=100000 PRINTPrint quantities to a file. More details ARGthe labels of the values that you would like to print to the file=d1,metalh.lessthan,cv,b1.bias,b1.rct STRIDE the frequency with which the quantities of interest should be output=10000 FILEthe name of the file on which to output these quantities=colvar