Experimental aspects of DNA neural network computation (Q1606715)
From MaRDI portal
 | This is the item page for this Wikibase entity, intended for internal use and editing purposes. Please use this page instead for the normal view: Experimental aspects of DNA neural network computation |
scientific article; zbMATH DE number 1771531
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Experimental aspects of DNA neural network computation |
scientific article; zbMATH DE number 1771531 |
Statements
Experimental aspects of DNA neural network computation (English)
0 references
25 July 2002
0 references
Adleman showed that hybridization of pairs of complementary DNA strands could be used for molecular computation. We have explored the possibility that a neural network in which the usual axons and neurons are replaced by the diffusion and molecular recognition of DNA is a possible route to fault-tolerant molecular computation. In this paper we review our model for a DNA analog neural network, estimate the ultimate speed of DNA computations, present an enzymatic representation of DNA matrix algebra and show some exploratory experimental results. We discuss the basis for our optimism on the prospects for practical DNA computing.
0 references
