2006
DOI: 10.1109/tsmcb.2006.872259
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Generalized Disjunction Decomposition for Evolvable Hardware

Abstract: Abstract-Evolvable hardware (EHW) refers to selfreconfiguration hardware design, where the configuration is under the control of an evolutionary algorithm (EA). One of the main difficulties in using EHW to solve real-world problems is scalability, which limits the size of the circuit that may be evolved. This paper outlines a new type of decomposition strategy for EHW, the "generalized disjunction decomposition" (GDD), which allows the evolution of large circuits. The proposed method has been extensively teste… Show more

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Cited by 82 publications
(102 citation statements)
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References 84 publications
(74 reference statements)
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“…During the evaluation stage a table, called the fitness's value table, which contains the fitness's value of each chromosome that is participating in the evolution of the digital circuit, is generated (see Figure 3). The table in Figure 3 and_plane [2] chromosome of AND plane …”
Section: Initialization and Evaluation Mechanismmentioning
confidence: 99%
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“…During the evaluation stage a table, called the fitness's value table, which contains the fitness's value of each chromosome that is participating in the evolution of the digital circuit, is generated (see Figure 3). The table in Figure 3 and_plane [2] chromosome of AND plane …”
Section: Initialization and Evaluation Mechanismmentioning
confidence: 99%
“…It should be noted that the evolved logic circuits, as the 5 bit multipliers, the 5 bit adders are the most complex circuits ever evolved using a stand alone genetic algorithm. Only Stomeo in [2] was able to evolve larger circuits such as the 6 bit multiplier using the GDD for FPGA structures. A comparison with traditional synthesis approaches, which are very effective and produce impressive results, is not given since the aims of the paper are to present a new genetic algorithm applied for the evolution of combinational logic circuits, to show that is possible to have cost free design (this is because the designer should only provide the truth table of the desired circuit) and to compare the obtained designs with other automatic and self-reconfigurable methods.…”
Section: Info Circuitmentioning
confidence: 99%
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