Solving minimum vertex cover problems with microfluidic DNA computer
Information and Automation(2011)
摘要
Based on its massive parallel computational power and high density storage capacity, DNA computing has been applied to various computational problems. In order to improve its reliability, reduce time and simplified operations, microfluidic chips support an effective way to realize an automatable and universal DNA computer. In this paper we introduce microfluidic logic operators, simple fluidic switches and memory. Furthermore, the use of electronic fluidic control components in microfluidic systems will be demonstrated in such way as to perform dynamic operations and programming. Finally a proposal for an actual fluidic computer will be made which solves the minimum vertex cover problems.
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关键词
optimisation,parallel processing,logic circuits,minimum vertex cover,fluidic switch,fluidic computer,dna computing,microfluidic chips,storage management,dynamic operations,computational complexity,microfluidic,selection,reliability,minimum vertex cover problem,massive parallel computational power,microfluidics,microfluidic logic operators,biocomputing,high density storage capacity,electronic fluidic control component,microfluidic dna computer,memory,chip,dna,inductors,logic gates,valves,vertex cover
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