Nanoscale Resonance Energy Transfer-Based Devices for Probabilistic Computing

Author

Siyang Wang ; Lebeck, Alvin R. ; Dwyer, Chris

Author_Institution

Duke Univ., Durham, NC, USA

Volume

35

Issue

5

fYear

2015

Firstpage

72

Lastpage

84

Abstract

Despite the theoretical advances in probabilistic computing, a fundamental mismatch persists between the deterministic hardware that traditional computers use and the stochastic nature of probabilistic algorithms. In this article, the authors propose Resonance Energy Transfer (RET) between chromophores as an enabling technology for probabilistic computing functional units. As a natural continuous-time Markov chain, RET networks can physically implement efficient samplers with arbitrary probability distributions and have great potential for accelerating probabilistic algorithms.

Keywords

Markov processes; mathematics computing; statistical distributions; RET network; chromophore; continuous-time Markov chain; probabilistic algorithm; probabilistic computing; probability distribution; resonance energy transfer-based device; Approximation methods; Energy exchange; Markov random fields; Probabilistic logic; Probability distribution; DNA nanotechnology; chromophore; continuous-time Markov chain; micro; probabilistic algorithm; resonance energy transfer; self-assembly;

fLanguage

English

Journal_Title

Micro, IEEE

Publisher

ieee

ISSN

0272-1732

Type

jour

DOI

10.1109/MM.2015.124

Filename

7310943