International audienceThe Turing completeness result for continuous chemical reaction networks (CRN) shows that any computable function over the real numbers can be computed by a CRN over a finite set of formal molecular species using at most bimolecular reactions with mass action law kinetics. The proof uses a previous result of Turing completeness for functions defined by polynomial ordinary differential equations (PODE), the dualrail encoding of real variables by the difference of concentration between two molecular species, and a back-end quadratization transformation to restrict to elementary reactions with at most two reactants. In this paper, we present a polynomialization algorithm of quadratic time complexity to transform a system ...
We present two quantitative behavioral equivalences over species of a chemical reaction network(CRN)...
For polynomial ODE models, we introduce and discuss the concepts of exact and approximate conservati...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
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...
Best paper awardInternational audienceWhen seeking to understand how computation is carried out in t...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
Understanding the algorithmic behaviors that are in principle realizable in a chemical system is nec...
One goal of synthetic biology is to implement useful functions with biochemical reactions, either by...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
The Turing completeness of continuous Chemical Reaction Networks (CRNs) states that any computable r...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
We present two quantitative behavioral equivalences over species of a chemical reaction network(CRN)...
For polynomial ODE models, we introduce and discuss the concepts of exact and approximate conservati...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
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...
Best paper awardInternational audienceWhen seeking to understand how computation is carried out in t...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
Understanding the algorithmic behaviors that are in principle realizable in a chemical system is nec...
One goal of synthetic biology is to implement useful functions with biochemical reactions, either by...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
The Turing completeness of continuous Chemical Reaction Networks (CRNs) states that any computable r...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
We present two quantitative behavioral equivalences over species of a chemical reaction network(CRN)...
For polynomial ODE models, we introduce and discuss the concepts of exact and approximate conservati...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...