Klein, JP., Leete, TH., Rubin, H.: A Biomolecular Implementation of Logically Reversible Computation with Minimal Energy Dissipation. BioSystems 52, (1999) 15-23 Mihai Oltean  Home/Search   Document Details and Download   Summary   Related Articles   Check

....Subsequent proposed methods [OGB97, LKSR97, GPZ97] for basic operations such as arithmetic (addition and subtraction) permit chaining of the output of these operations into the inputs to further operations, and to allow operations to be executed in massive parallel fashion. Rubin el al [RKL98] gave an experimental demonstration of a BMC method for chained integer arithmetic. This work also gave one of the first demonstrations in BMC of logically reversible computation. An experimental demonstration of such a method for parallel arithmetic, at large scale, will be a major experimental ....

Rubin, H., J. Klein, T. Leete, A biomolecular implementation of logically reversible computation with minimal energy dissipation, 4th Int. Meeting on DNA-Based Computing, Baltimore, Penns., (June, 1998).

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Klein, JP., Leete, TH., Rubin, H.: A Biomolecular Implementation of Logically Reversible Computation with Minimal Energy Dissipation. BioSystems 52, (1999) 15-23 Mihai Oltean

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J.P. Klein, T.H. Leete, and H. Rubin, "A Biomolecular Implementation of Logically Reversible Computation with Minimal Energy Dissipation," BioSystems. //au: vol? no? month? year? pages?//

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J.P. Klein, T.H. Leete, and H. Rubin, "A Biomolecular Implementation of Logically Reversible Computation with Minimal Energy Dissipation," BioSystems. //au: vol? no? month? year? pages?//

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