Simulating Biochemical Reaction Networks using Lattice Microbes: A Workflow August 3rd, 2012 Piyush Labhsetwar, Elijah Roberts and Zaida Luthey-Schulten - Gillespie algorithm - Document - PDFSEARCH.IO - Document Search Engine

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	Simulating Biochemical Reaction Networks using Lattice Microbes: A Workflow August 3rd, 2012 Piyush Labhsetwar, Elijah Roberts and Zaida Luthey-Schulten Add to Reading List Document Date: 2012-10-26 21:49:49 Open Document File Size: 3,95 MB Share Result on Facebook Company GPU / Simulating Biochemical Reaction Networks / / Facility Zaida Luthey-Schulten Luthey-Schulten Group University of Illinois / / IndustryTerm deterministic solution / biochemical reaction network / chemical laboratory / chemical master equation / Reaction networks / biological systems / software introduction / lac operator / chemical kinetics / utilities lm setrm / chemical species / biochemical reaction networks / inhomogenous systems / / OperatingSystem Mac OS X / LINUX / / Organization University of Illinois / / Person Joke G. Blom / Elijah Roberts / Maciej Dobrzynzki / Computational Biology / Daniel T Gillespie / Andrew Magis / Zaida Luthey-Schulten / Leonardo Sepulveda / Julio O. Ortiz / Jaap A Kaandorp / Wen-Mei W. Hwu / J. Vidal Rodriguez / Wolfgang Baumeister / John E. Stone / / Product Lattice Microbes / / ProgrammingLanguage MATLAB / L / R / C / / ProvinceOrState Pennsylvania / Illinois / / Technology proteomics / Bioinformatics / Linux / http / simulation / PDF / / URL www.sbml.org / http / SocialTag Chemical kinetics Probability and statistics Monte Carlo methods Computational chemistry Stochastic models Gillespie algorithm Stochastic simulation MATLAB Reaction rate Statistics