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DNA
2004
Springer

Biomolecular Implementation of Computing Devices with Unbounded Memory

14 years 5 months ago
Biomolecular Implementation of Computing Devices with Unbounded Memory
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
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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