Genetic programming (videotape): the movie
Genetic programming (videotape): the movie
Evolution of Parallel Cellular Machines: The Cellular Programming Approach
Evolution of Parallel Cellular Machines: The Cellular Programming Approach
Building Complex Systems Using Developmental Process: An Engineering Approach
ICES '98 Proceedings of the Second International Conference on Evolvable Systems: From Biology to Hardware
Shrinking the Genotype: L-systems for EHW?
ICES '01 Proceedings of the 4th International Conference on Evolvable Systems: From Biology to Hardware
Lineage and Induction in the Development of Evolved Genotypes for Non-uniform 2D CAs
AI '02 Proceedings of the 15th Australian Joint Conference on Artificial Intelligence: Advances in Artificial Intelligence
Bridging The Genotype-Phenotype Mapping For Digital Fpgas
EH '01 Proceedings of the The 3rd NASA/DoD Workshop on Evolvable Hardware
Adding learning to the cellular development of neural networks: Evolution and the baldwin effect
Evolutionary Computation
Towards Development on a Silicon-based Cellular Computing Machine
Natural Computing: an international journal
A Developmental Gene Regulation Network for Constructing Electronic Circuits
ICES '08 Proceedings of the 8th international conference on Evolvable Systems: From Biology to Hardware
Investigating the effect of regulatory decisions in a development model
CEC'09 Proceedings of the Eleventh conference on Congress on Evolutionary Computation
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Inspired by biological development, we wish to introduce a circuit-DNA that may be developed to a given circuit design organism. This organism is a member of a Virtual EHW FPGA species that may be mapped onto a physical FPGA. A rule-based circuit-DNA, as used herein, provides a challenge to find suitable rules for artificial development of such an organism. Approaching this challenge, the work herein may be said to be of an investigative nature, to explore for developmental rules for developing even the simplest organism. The artificial developmental process introduced herein, uses a knowledge rich representation including both knowledge of the circuit's (organism's) building blocks and local knowledge about neighbouring cells. Initial experiments for knowledge rich development on our virtual technology platform, are presented.