P-Lingua
From The P-Lingua Website
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P-Lingua is able to define P systems within a set of [[supported models]]. Check the [[P-Lingua format]] to learn more about the syntax of the language. | P-Lingua is able to define P systems within a set of [[supported models]]. Check the [[P-Lingua format]] to learn more about the syntax of the language. | ||
+ | |||
+ | <amsmath> | ||
+ | \label{e:barwq}\begin{split} | ||
+ | H_c&=\frac{1}{2n} \sum^n_{l=0}(-1)^{l}(n-{l})^{p-2} | ||
+ | \sum_{l _1+\dots+ l _p=l}\prod^p_{i=1} \binom{n_i}{l _i}\\ | ||
+ | &\quad\cdot[(n-l )-(n_i-l _i)]^{n_i-l _i}\cdot | ||
+ | \Bigl[(n-l )^2-\sum^p_{j=1}(n_i-l _i)^2\Bigr]. | ||
+ | \end{split} | ||
+ | </amsmath> |
Revision as of 09:24, 4 April 2010
P-Lingua is a programming language for membrane computing which aims to be a standard to define P systems. It and its associated tools have been developed by members of the Research Group on Natural Computing, at the University of Sevilla, Spain.
The P-Lingua programmes define P systems in an easy-to-learn, modular and parametric way. In this sense, it is possible to define a family of P systems with the use of parameters.
P-Lingua is able to define P systems within a set of supported models. Check the P-Lingua format to learn more about the syntax of the language.
<amsmath> \label{e:barwq}\begin{split} H_c&=\frac{1}{2n} \sum^n_{l=0}(-1)^{l}(n-{l})^{p-2} \sum_{l _1+\dots+ l _p=l}\prod^p_{i=1} \binom{n_i}{l _i}\\ &\quad\cdot[(n-l )-(n_i-l _i)]^{n_i-l _i}\cdot \Bigl[(n-l )^2-\sum^p_{j=1}(n_i-l _i)^2\Bigr]. \end{split} </amsmath>