John von Neumann and the origins of modern computing
John von Neumann and the origins of modern computing
The simple dynamics of super Turing theories
Theoretical Computer Science - Special issue on universal machines and computations
Emergence: from chaos to order
Emergence: from chaos to order
A new kind of science
When Things Start to Think
Computing in nonlinear media and automata collectives
Computing in nonlinear media and automata collectives
Theory of Computation
The Vision of Autonomic Computing
Computer
Theory of Self-Reproducing Automata
Theory of Self-Reproducing Automata
Axioms for bigraphical structure
Mathematical Structures in Computer Science
Investigations Into Graceful Degradation of Evolutionary Developmental Software
Natural Computing: an international journal
A Calculus of Looping Sequences for Modelling Microbiological Systems
Fundamenta Informaticae - SPECIAL ISSUE ON CONCURRENCY SPECIFICATION AND PROGRAMMING (CS&P 2005) Ruciane-Nide, Poland, 28-30 September 2005
POEtic tissue: an integrated architecture for bio-inspired hardware
ICES'03 Proceedings of the 5th international conference on Evolvable systems: from biology to hardware
An architecture for modelling emergence in CA-Like systems
ECAL'05 Proceedings of the 8th European conference on Advances in Artificial Life
CMSB'04 Proceedings of the 20 international conference on Computational Methods in Systems Biology
Proceedings of the 9th annual conference companion on Genetic and evolutionary computation
ICARIS '08 Proceedings of the 7th international conference on Artificial Immune Systems
Designing Biological Computers: Systemic Computation and Sensor Networks
Bio-Inspired Computing and Communication
Crash-proof systemic computing: a demonstration of native fault-tolerance and self-maintenance
ACST '08 Proceedings of the Fourth IASTED International Conference on Advances in Computer Science and Technology
Fast bio-inspired computation using a GPU-based systemic computer
Parallel Computing
Systemic computation using graphics processors
ICES'10 Proceedings of the 9th international conference on Evolvable systems: from biology to hardware
MEMICS'11 Proceedings of the 7th international conference on Mathematical and Engineering Methods in Computer Science
Introducing the FPGA-Based hardware architecture of systemic computation (HAoS)
MEMICS'11 Proceedings of the 7th international conference on Mathematical and Engineering Methods in Computer Science
Novel visualisation and analysis of natural and complex systems using systemic computation
Information Visualization
| Hi-index | 0.00 |
Natural systems provide unique examples of computation in a form very different from contemporary computer architectures. Biology also demonstrates capabilities such as adaptation, self-repair and self-organisation that are becoming increasingly desirable for our technology. To address these issues a new computer model and architecture with natural characteristics is presented. Systemic computation is Turing Complete; it is designed to support biological algorithms such as neural networks, evolutionary algorithms and models of development, and shares the desirable capabilities of biology not found in conventional architectures. Systemic computation may also be implemented using natural systems, enabling the potential for future computational analysis and control of biology.