Biomolecular Implementation of Computing Devices with Unbounded Memory

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We propose a new way to implement (general) computing devices with unbounded memory. In particular, we show a procedure to implement automata with unbounded stack memory, push-down automata, using circular DNA molecules and a class IIs restriction enzyme. The proposed ideas are inspired by the results from [1]. The same ideas are extended to show a way to implement push-down automata with two stacks (i.e, universal computing devices) using two circular molecules glued with a DX molecule and a class IIs restriction enzyme. In this case each computational molecule also contains a DX portion. These devices can potentially be incorporated in an array of TX molecules.

Matteo Cavaliere, Natasa Jonoska, Sivan Yogev, Ron

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Class Iis Restriction | DNA 2004 | Push-down Automata | Restriction Enzyme |

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Added	01 Jul 2010
Updated	01 Jul 2010
Type	Conference
Year	2004
Where	DNA
Authors	Matteo Cavaliere, Natasa Jonoska, Sivan Yogev, Ron Piran, Ehud Keinan, Nadrian C. Seeman

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Biomolecular Implementation of Computing Devices with Unbounded Memory

Class Iis Restriction | DNA 2004 | Push-down Automata | Restriction Enzyme |

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