Heiner Linke
Professor, Deputy dean (prorektor) at Faculty of Engineering, LTH
Solving Exact Cover Instances with Molecular-Motor-Powered Network-Based Biocomputation
Author
Summary, in English
Information processing by traditional, serial electronic processors consumes an ever-increasing part of the global electricity supply. An alternative, highly energy efficient, parallel computing paradigm is network-based biocomputation (NBC). In NBC a given combinatorial problem is encoded into a nanofabricated, modular network. Parallel exploration of the network by a very large number of independent molecular-motor-propelled protein filaments solves the encoded problem. Here we demonstrate a significant scale-up of this technology by solving four instances of Exact Cover, a nondeterministic polynomial time (NP) complete problem with applications in resource scheduling. The difficulty of the largest instances solved here is 128 times greater in comparison to the current state of the art for NBC.
Department/s
- Solid State Physics
- NanoLund: Center for Nanoscience
Publishing year
2022
Language
English
Pages
396-403
Publication/Series
ACS Nanoscience AU
Volume
2
Issue
5
Links
Document type
Journal article
Publisher
The American Chemical Society (ACS)
Topic
- Nano Technology
- Computer Engineering
- Condensed Matter Physics
Keywords
- biocomputation
- biofunctionalization
- computational nanotechnology
- molecular motors
- nanobiotechnology
- parallel computing
Status
Published
ISBN/ISSN/Other
- ISSN: 2694-2496