Project ID: plumID:22.025
Source: t0.700/p0.16627-fes/plumed.inp
Originally used with PLUMED version: 2.8
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
tested onv2.10
tested onmaster
tested on master
LOAD
Loads a library, possibly defining new actions. More details
FILE
file to be loaded
=../../code/ReweightGeomFES.cpp
UNITS
This command sets the internal units for the code. More details
NATURAL
use natural units

VOLUME
Calculate the volume of the simulation box. More details
LABEL
a label for the action so that its output can be referenced in the input to other actions
=vol
CUSTOM
Calculate a combination of variables using a custom expression. More details
ARG
the values input to this function
=vol
FUNC
the function you wish to evaluate
=x/4096
PERIODIC
if the output of your function is periodic then you should specify the periodicity of the function
=NO
LABEL
a label for the action so that its output can be referenced in the input to other actions
=molvol
COORDINATIONNUMBER
Calculate the coordination numbers of atoms so that you can then calculate functions of the distribution of More details
...
LABEL
a label for the action so that its output can be referenced in the input to other actions
=coord
SPECIES
this keyword is used for colvars such as coordination number
=1-4096
SWITCH
the switching function that it used in the construction of the contact matrix
={RATIONAL R_0=1.6 D_MAX=2.5}
LESS_THAN
calculate the number of variables that are less than a certain target value
={RATIONAL R_0=5 D_MAX=7.5 NN=12}
LOWMEM
this flag does nothing and is present only to ensure back-compatibility
... COORDINATIONNUMBER
UPPER_WALLS
Defines a wall for the value of one or more collective variables, More details
ARG
the arguments on which the bias is acting
=molvol
AT
the positions of the wall
=1.55
KAPPA
the force constant for the wall
=1e5
LABEL
a label for the action so that its output can be referenced in the input to other actions
=wall1
UPPER_WALLS
Defines a wall for the value of one or more collective variables, More details
ARG
the arguments on which the bias is acting
=coord.lessthan
AT
the positions of the wall
=1e5
KAPPA
the force constant for the wall
=1.0
STRIDE
the frequency with which the forces due to the bias should be calculated
=10
LABEL
a label for the action so that its output can be referenced in the input to other actions
=wall2
# ANN BIAS
ANN
Calculates the ANN-function. More details
...
LABEL
a label for the action so that its output can be referenced in the input to other actions
=fesfit
ARG
the labels of the values from which the function is calculated
=molvol
NUM_LAYERS
number of layers of the neural network
=4
NUM_NODES
numbers of nodes in each layer of the neural network
=1,1,12,1
ACTIVATIONS
activation functions for the neural network
=Linear,Tanh,Linear
WEIGHTS0
flattened weight arrays connecting adjacent layers, WEIGHTS0 represents flattened weight array connecting layer 0 and layer 1, WEIGHTS1 represents flattened weight array connecting layer 1 and layer 2,
=10.0
WEIGHTS1
flattened weight arrays connecting adjacent layers, WEIGHTS0 represents flattened weight array connecting layer 0 and layer 1, WEIGHTS1 represents flattened weight array connecting layer 1 and layer 2,
=4.75097405,2.91887555,2.82926915,-3.59316048,0.49969254,-0.40810349,1.9762008,-0.47728759,-5.18068898,0.46881489,0.45665404,0.44282013
WEIGHTS2
flattened weight arrays connecting adjacent layers, WEIGHTS0 represents flattened weight array connecting layer 0 and layer 1, WEIGHTS1 represents flattened weight array connecting layer 1 and layer 2,
=5.51329574,-2.88834576,1.09373469,-2.20493473,-2.33493222,2.06870735,-10.22922159,2.63014712,3.99406241,-2.8436315,-2.27933111,-2.60982836
BIASES0
bias array for each layer of the neural network, BIASES0 represents bias array for layer 1, BIASES1 represents bias array for layer 2,
=-14.0
BIASES1
bias array for each layer of the neural network, BIASES0 represents bias array for layer 1, BIASES1 represents bias array for layer 2,
=-4.40775734,-0.76768773,-0.36271527,1.86876347,0.16729882,-0.82522105,-3.4119729,-0.28069506,0.71846675,0.32863845,0.40231,0.49866407
BIASES2
bias array for each layer of the neural network, BIASES0 represents bias array for layer 1, BIASES1 represents bias array for layer 2,
=-1.06908941 ... ANN
CUSTOM
Calculate a combination of variables using a custom expression. More details
ARG
the values input to this function
=fesfit.node-0
FUNC
the function you wish to evaluate
=-1.0*x
PERIODIC
if the output of your function is periodic then you should specify the periodicity of the function
=NO
LABEL
a label for the action so that its output can be referenced in the input to other actions
=wt
BIASVALUE
Takes the value of one variable and use it as a bias More details
ARG
the labels of the scalar/vector arguments whose values will be used as a bias on the system
=wt
LABEL
a label for the action so that its output can be referenced in the input to other actions
=b1
REWEIGHT_BIAS
Calculate weights for ensemble averages that negate the effect the bias has on the region of phase space explored More details
TEMP
the system temperature
=0.700
ARG
the biases that must be taken into account when reweighting
=b1.bias
LABEL
a label for the action so that its output can be referenced in the input to other actions
=bias
REWEIGHT_GEOMFES
This action is not part of PLUMED and was included by using a LOAD command More details
TEMP=0.700 ARG=coord.lessthan LABEL=gd1
HISTOGRAM
Accumulate the average probability density along a few CVs from a trajectory. More details
...
ARG
the quantities that are being used to construct the histogram
=coord.lessthan
GRID_MIN
the lower bounds for the grid
=-1
GRID_MAX
the upper bounds for the grid
=20
GRID_BIN
the number of bins for the grid
=1050
BANDWIDTH
the bandwidths for kernel density esimtation
=0.2
LOGWEIGHTS
the logarithm of the quantity to use as the weights when calculating averages
=bias
STRIDE
the frequency with which to store data for averaging
=10
LABEL
a label for the action so that its output can be referenced in the input to other actions
=hh ... HISTOGRAM
HISTOGRAM
Accumulate the average probability density along a few CVs from a trajectory. More details
...
ARG
the quantities that are being used to construct the histogram
=coord.lessthan
GRID_MIN
the lower bounds for the grid
=-1
GRID_MAX
the upper bounds for the grid
=20
GRID_BIN
the number of bins for the grid
=1050
BANDWIDTH
the bandwidths for kernel density esimtation
=0.2
LOGWEIGHTS
the logarithm of the quantity to use as the weights when calculating averages
=bias,gd1
STRIDE
the frequency with which to store data for averaging
=10
LABEL
a label for the action so that its output can be referenced in the input to other actions
=hhg ... HISTOGRAM
HISTOGRAM
Accumulate the average probability density along a few CVs from a trajectory. More details
...
ARG
the quantities that are being used to construct the histogram
=molvol
GRID_MIN
the lower bounds for the grid
=1.40
GRID_MAX
the upper bounds for the grid
=1.60
GRID_BIN
the number of bins for the grid
=400
BANDWIDTH
the bandwidths for kernel density esimtation
=0.005
LOGWEIGHTS
the logarithm of the quantity to use as the weights when calculating averages
=bias
LABEL
a label for the action so that its output can be referenced in the input to other actions
=hhd ... HISTOGRAM
CONVERT_TO_FES
Convert a histogram to a free energy surface. More details
GRID
the histogram that you would like to convert into a free energy surface (old syntax)
=hh
TEMP
the temperature at which you are operating
=0.700
LABEL
a label for the action so that its output can be referenced in the input to other actions
=ff
CONVERT_TO_FES
Convert a histogram to a free energy surface. More details
GRID
the histogram that you would like to convert into a free energy surface (old syntax)
=hhg
TEMP
the temperature at which you are operating
=0.700
LABEL
a label for the action so that its output can be referenced in the input to other actions
=ffg
CONVERT_TO_FES
Convert a histogram to a free energy surface. More details
GRID
the histogram that you would like to convert into a free energy surface (old syntax)
=hhd
TEMP
the temperature at which you are operating
=0.700
LABEL
a label for the action so that its output can be referenced in the input to other actions
=ffd
DUMPGRID
Output the function on the grid to a file with the PLUMED grid format. More details
GRID
the 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
=2000000
DUMPGRID
Output the function on the grid to a file with the PLUMED grid format. More details
GRID
the 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
=2000000
DUMPGRID
Output the function on the grid to a file with the PLUMED grid format. More details
GRID
the grid you would like to print (can also use ARG for specifying what is being printed)
=ffd
FILE
the file on which to write the grid
=fesd
STRIDE
the frequency with which the grid should be output to the file
=2000000
FLUSH
This command instructs plumed to flush all the open files with a user specified frequency. More details
STRIDE
the frequency with which all the open files should be flushed
=2000
PRINT
Print quantities to a file. More details
ARG
the labels of the values that you would like to print to the file
=molvol,coord.lessthan,b1.bias
STRIDE
the frequency with which the quantities of interest should be output
=200
FILE
the name of the file on which to output these quantities
=colvar