Skip to search form
Skip to main content
Skip to account menu
Semantic Scholar
Semantic Scholar's Logo
Search 228,397,758 papers from all fields of science
Search
Sign In
Create Free Account
Chemical computer
Known as:
Chemical computing
A chemical computer, also called reaction-diffusion computer, BZ computer (stands for Belousov–Zhabotinsky computer) or gooware computer is an…
Expand
Wikipedia
(opens in a new tab)
Create Alert
Alert
Related topics
Related topics
18 relations
Andrew Adamatzky
Belousov–Zhabotinsky reaction
Billiard-ball computer
Binary code
Expand
Broader (3)
Classes of computers
Quantum computing
Theoretical computer science
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2016
2016
Chemical Term Reduction with Active P Systems
Péter Battyányi
,
György Vaszil
Int. Conf. on Membrane Computing
2016
Corpus ID: 34460398
We present an attempt to translate the terms of a variant of the \(\gamma \)-calculus into membrane systems, such that the…
Expand
2013
2013
SimSoup: Molecules Designed for Switchable Autocatalytic Memory
C. Gordon-Smith
European Conference on Artificial Life
2013
Corpus ID: 16991965
A memory system based on an artificial chemistry is presented. This is relevant for metabolism based Origin of Life theories, and…
Expand
2013
2013
Experimental Evaluation of a Hierarchical Chemical Computing Platform
M. Obrovac
,
Cédric Tedeschi
International Journal of Networking and Computing
2013
Corpus ID: 9143434
Chemical computing was initially proposed as a paradigm capturing the essence of parallel programs. Within such a model, a…
Expand
2011
2011
Fault Tolerant Autonomic Computing Systems in a Chemical Setting
J. Banâtre
,
C. Morin
,
T. Priol
Dependable and Historic Computing
2011
Corpus ID: 19496953
The chemical computing model was originally proposed as a simple and elegant parallel programming paradigm. Data are seen as…
Expand
2011
2011
Emergent Control
Peter Kreyssig
,
P. Dittrich
Organic Computing
2011
Corpus ID: 5486555
In order to control the dynamics of a system, feedback control (FC for short) is an extremely successful strategy, which is…
Expand
2011
2011
Towards on-chip on-demand microfluidic production and manipulation of droplets for chemical computing
P. King
,
Josephine C. Corsi
,
H. Morgan
,
M. D. Planque
,
Klaus-Peter Zauner
2011
Corpus ID: 110132048
Our research is aimed at the development of architectures for chemical computing using BelousovZhabotinsky (BZ) oscillating…
Expand
Review
2010
Review
2010
A survey of evolutionary and embryogenic approaches to autonomic networking
D. Miorandi
,
L. Yamamoto
,
F. Pellegrini
Comput. Networks
2010
Corpus ID: 34320073
2007
2007
Collaborative Computational Chemical Grid Based on CGSP
Ying Zhao
,
Xuelin Shi
IFIP International Conference on Network and…
2007
Corpus ID: 14673588
Chemical engineering involves the design and manufacturing of new chemical compounds and materials, the analysis of chemical…
Expand
Review
2003
Review
2003
Pathways and Networks of Nuclear Receptors and Modeling of Syndrome X
T. Kaminuma
2003
Corpus ID: 11211303
Nuclear receptors form a superfamily of proteins that function as ligand-activated transcription factors. One class of these…
Expand
1998
1998
Workshop "learning 98" an Approach to Learning in Autocatalytic Sets in Analogy to Neural Networks
Harald H Uning
1998
Corpus ID: 14253730
Autocatalytic sets are a particular type of dynamics that occur naturally in biochemical or ecosystems. They are characterised by…
Expand
By clicking accept or continuing to use the site, you agree to the terms outlined in our
Privacy Policy
(opens in a new tab)
,
Terms of Service
(opens in a new tab)
, and
Dataset License
(opens in a new tab)
ACCEPT & CONTINUE