Add to ORKGMany realistic mathematical models of biological and chemical systems, such as enzyme cascades and gene regulatory networks, need to include stochasticity. These systems are described as Markov processes and are modelled using the Chemical Master Equation. The Chemical Master Equation is a differential- difference equation (continuous in time and discrete in the state space) for the probability of a certain state at a given time. The state space is the population count of species in the system. A successful method for computing the Chemical Master Equation is the Finite State Projection Method. We give a new algorithm to distribute the Finite State Projection Method method onto multi-core systems. This method is called the Parallel Finite S...
The molecular networks regulating basic physiological processes in a cell are generally converted in...
The numerical solution of the Chemical Master Equation (CME) governing gene regulatory networks and ...
Recently the application of the quasi-steady-state approximation (QSSA) to the stochastic simulation...
Many realistic mathematical models of biological and chemical systems, such as enzyme cascades and g...
AbstractIt is well known that many realistic mathematical models of biological and chemical systems,...
Recently, Munsky and Khammash suggested the Finite State Projection (FSP) algorithm for the numerica...
Abstract At the mesoscopic scale, chemical processes have probability distributions that evolve acco...
At the mesoscopic scale, chemical processes have probability distributions that evolve according to ...
Computational and mathematical models of cellular processes promise great benets in important elds s...
Biochemical reactions underlying genetic regulation are often modelled as a continuous-time, discret...
Abstract — In order to capture important subcellular dy-namics, researchers in computational biology...
Recently the Finite State Projection (FSP) algorithm was suggested for the numerical solution of the...
Numerical solutions of the chemical master equation (CME) are gaining increasing attention with the ...
© 2020 IEEE. The Chemical Master Equation (CME) is commonly used to describe the stochastic behavior...
Stochastic models of biochemical reaction networks are used for understanding the properties of mole...
The molecular networks regulating basic physiological processes in a cell are generally converted in...
The numerical solution of the Chemical Master Equation (CME) governing gene regulatory networks and ...
Recently the application of the quasi-steady-state approximation (QSSA) to the stochastic simulation...
Many realistic mathematical models of biological and chemical systems, such as enzyme cascades and g...
AbstractIt is well known that many realistic mathematical models of biological and chemical systems,...
Recently, Munsky and Khammash suggested the Finite State Projection (FSP) algorithm for the numerica...
Abstract At the mesoscopic scale, chemical processes have probability distributions that evolve acco...
At the mesoscopic scale, chemical processes have probability distributions that evolve according to ...
Computational and mathematical models of cellular processes promise great benets in important elds s...
Biochemical reactions underlying genetic regulation are often modelled as a continuous-time, discret...
Abstract — In order to capture important subcellular dy-namics, researchers in computational biology...
Recently the Finite State Projection (FSP) algorithm was suggested for the numerical solution of the...
Numerical solutions of the chemical master equation (CME) are gaining increasing attention with the ...
© 2020 IEEE. The Chemical Master Equation (CME) is commonly used to describe the stochastic behavior...
Stochastic models of biochemical reaction networks are used for understanding the properties of mole...
The molecular networks regulating basic physiological processes in a cell are generally converted in...
The numerical solution of the Chemical Master Equation (CME) governing gene regulatory networks and ...
Recently the application of the quasi-steady-state approximation (QSSA) to the stochastic simulation...