TD_EXPONENTIALLY_MODIFIED_GAUSSIAN
This is part of the ves module
It is only available if you configure PLUMED with ./configure –enable-modules=ves . Furthermore, this feature is still being developed so take care when using it and report any problems on the mailing list.

Target distribution given by a sum of exponentially modified Gaussian distributions (static).

Employ a target distribution that is given by a sum where each term is a product of one-dimensional exponentially modified Gaussian distributions,

\[ p(\mathbf{s}) = \sum_{i} \, w_{i} \prod_{k}^{d} \frac{\lambda_{k,i}}{2} \, \exp\left[ \frac{\lambda_{k,i}}{2} (2 \mu_{k,i} + \lambda_{k,i} \sigma_{k,i}^2 -2 s_{k}) \right] \, \mathrm{erfc}\left[ \frac{\mu_{k,i} + \lambda_{k,i} \sigma_{k,i}^2 - s_{k})}{\sqrt{2} \sigma_{k,i}} \right] \]

where \((\mu_{1,i},\mu_{2,i},\ldots,\mu_{d,i})\) are the centers of the Gaussian component, \((\sigma_{1,i},\sigma_{2,i},\ldots,\sigma_{d,i})\) are the standard deviations of the Gaussian component, \((\lambda_{1,i},\lambda_{2,i},\ldots,\lambda_{d,i})\) are the rate parameters of the exponential component, and \(\mathrm{erfc}(x)=1-\mathrm{erf}(x)\) is the complementary error function. The weights \(w_{i}\) are normalized to 1, \(\sum_{i}w_{i}=1\).

The centers \((\mu_{1,i},\mu_{2,i},\ldots,\mu_{d,i})\) are given using the numbered CENTER keywords, the standard deviations \((\sigma_{1,i},\sigma_{2,i},\ldots,\sigma_{d,i})\) using the the numbered SIGMA keywords, and the rate parameters \((\lambda_{1,i},\lambda_{2,i},\ldots,\lambda_{d,i})\) using the numbered LAMBDA keywords. The weights are given using the WEIGHTS keywords, if no weights are given are all terms weighted equally.

Options
SHIFT_TO_ZERO ( default=off ) Shift the minimum value of the target distribution to zero. This can for example be used to avoid negative values in the target distribution. If this option is active the distribution will be automatically normalized.
NORMALIZE

( default=off ) Renormalized the target distribution over the intervals on which it is defined to make sure that it is properly normalized to 1. In most cases this should not be needed as the target distributions should be normalized. The code will issue a warning (but still run) if this is needed for some reason.

CENTER The center of each exponentially modified Gaussian distributions. You can use multiple instances of this keyword i.e. CENTER1, CENTER2, CENTER3...
SIGMA The sigma parameters for each exponentially modified Gaussian distributions. You can use multiple instances of this keyword i.e. SIGMA1, SIGMA2, SIGMA3...
LAMBDA The lambda parameters for each exponentially modified Gaussian distributions You can use multiple instances of this keyword i.e. LAMBDA1, LAMBDA2, LAMBDA3...
WEIGHTS The weights of the distributions. By default all are weighted equally.
WELLTEMPERED_FACTOR Broaden the target distribution such that it is taken as [p(s)]^(1/ \(\gamma\)) where \(\gamma\) is the well tempered factor given here. If this option is active the distribution will be automatically normalized.
Examples

An exponentially modified Gaussian distribution in one-dimension

td1: TD_EXPONENTIALLY_MODIFIED_GAUSSIAN CENTER1=-10.0 SIGMA1=1.0 LAMBDA1=0.25

A sum of two one-dimensional exponentially modified Gaussian distributions

TD_EXPONENTIALLY_MODIFIED_GAUSSIAN ...
 CENTER1=-10.0 SIGMA1=1.0 LAMBDA1=0.5
 CENTER2=+10.0 SIGMA2=1.0 LAMBDA2=1.0
 WEIGHTS=2.0,1.0
 LABEL=td1
... TD_EXPONENTIALLY_MODIFIED_GAUSSIAN

A sum of two two-dimensional exponentially modified Gaussian distributions

TD_EXPONENTIALLY_MODIFIED_GAUSSIAN ...
 CENTER1=-5.0,+5.0 SIGMA1=1.0,1.0 LAMBDA1=0.5,0.5
 CENTER2=+5.0,+5.0 SIGMA2=1.0,1.0 LAMBDA2=1.0,1.0
 WEIGHTS=1.0,1.0
 LABEL=td1
... TD_EXPONENTIALLY_MODIFIED_GAUSSIAN