International audienceIn this short paper extracted from [7], we present a polynomialization algorithm of quadratic time complexity to transform a system of elementary differential equations in polynomial differential equations (PODE). This algorithm is used as a front-end transformation in a pipeline to compile any elementary mathematical function, either of time or of some input variable, into a finite Chemical Reaction Network (CRN) which computes it. We illustrate the performance of our compiler on a benchmark of elementary functions which serve as formal specification of CRN design problems in synthetic biology, and as comparison basis with natural CRNs exhibiting similar behaviours
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
International audienceOrdinary Differential Equations (ODEs) appear to be a universally adopted and ...
In biological organisms, networks of chemical reactions control the processing of information in a c...
International audienceIn this short paper extracted from [7], we present a polynomialization algorit...
International audienceThe Turing completeness result for continuous chemical reaction networks (CRN)...
International audienceChemical reaction networks (CRNs) are a standard formalism used in chemistry a...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
Understanding the algorithmic behaviors that are in principle realizable in a chemical system is nec...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
We present an algorithm to compute exact aggregations of a class of systems of ordinary differential...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
Best paper awardInternational audienceWhen seeking to understand how computation is carried out in t...
The computational ability of the chemical reaction networks (CRNs) using DNA as the substrate has be...
Abstract. We present an algorithm to compute exact aggregations of a class of systems of ordinary di...
We present an algorithm to compute exact aggregations of a class of systems of ordinary differential...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
International audienceOrdinary Differential Equations (ODEs) appear to be a universally adopted and ...
In biological organisms, networks of chemical reactions control the processing of information in a c...
International audienceIn this short paper extracted from [7], we present a polynomialization algorit...
International audienceThe Turing completeness result for continuous chemical reaction networks (CRN)...
International audienceChemical reaction networks (CRNs) are a standard formalism used in chemistry a...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
Understanding the algorithmic behaviors that are in principle realizable in a chemical system is nec...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
We present an algorithm to compute exact aggregations of a class of systems of ordinary differential...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
Best paper awardInternational audienceWhen seeking to understand how computation is carried out in t...
The computational ability of the chemical reaction networks (CRNs) using DNA as the substrate has be...
Abstract. We present an algorithm to compute exact aggregations of a class of systems of ordinary di...
We present an algorithm to compute exact aggregations of a class of systems of ordinary differential...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
International audienceOrdinary Differential Equations (ODEs) appear to be a universally adopted and ...
In biological organisms, networks of chemical reactions control the processing of information in a c...