Untidy Evolution: Evolving Messy Gates for Fault Tolerance. In: Liu, Y., Tanaka, K., Iwata, M., Higuchi, T., Yasunaga, M. (eds) Evolvable Systems: From�...
Untidy Evolution: Evolving Messy Gates for Fault Tolerance. Julian F. Miller1 and Morten Hartmann2,3. 1 School of Computer Science, University of Birmingham.
We refer to this as a kind of messiness. The principal idea behind these messy gates is that artificial evolution makes a virtue of the untidiness. We are�...
Abstract. The exploitation of the physical characteristics has already been demonstrated in the intrinsic evolution of electronic circuits. This.
As a starting point we investigate a model of gate-like components with added noise. We refer to this as a kind of messiness. The principal idea behind these�...
Untidy Evolution: Evolving Messy Gates for Fault Tolerance
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author = "Julian F. Miller and Morten Hartmann",; title = "Untidy Evolution: Evolving Messy Gates for Fault Tolerance",; booktitle = "Evolvable Systems: From�...
Untidy Evolution: Evolving Messy Gates for Fault Tolerance. Conference Paper ... Circuits evolved using messy gate components have evolved architectures that are�...
The messy gate concept may be said to be a fault tolerant methodology rather than fault detection and repair methodology. This tolerance is a tolerance to a�...
"Untidy Evolution: Evolving Messy Gates for Fault Tolerance", abstract, postscript, pdf by Julian F. Miller and Morten Hartmann, 4th International�...
Untidy Evolution: Evolving Messy Gates for Fault Tolerance. 14 years 2 months ago. Untidy Evolution: Evolving Messy Gates for Fault Tolerance � Download www�...