Semantically-oriented mutation operator in cartesian genetic programming for evolutionary circuit design

[1]  Leonardo Vanneschi,et al.  Genetic programming needs better benchmarks , 2012, GECCO '12.

[2]  Julian Francis Miller,et al.  Principles in the Evolutionary Design of Digital Circuits—Part II , 2000, Genetic Programming and Evolvable Machines.

[3]  Julian Francis Miller,et al.  Cartesian genetic programming , 2000, GECCO '10.

[4]  William F. Punch,et al.  Analysis of Cartesian Genetic Programming’s Evolutionary Mechanisms , 2015, IEEE Transactions on Evolutionary Computation.

[5]  Julian Francis Miller,et al.  A new crossover technique for Cartesian genetic programming , 2007, GECCO '07.

[6]  L. Sekanina Evolvable Components , 2004, Natural Computing Series.

[7]  Heder S. Bernardino,et al.  Cartesian Genetic Programming with Guided and Single Active Mutations for Designing Combinational Logic Circuits , 2019, LOD.

[8]  Leonardo Vanneschi,et al.  A C++ framework for geometric semantic genetic programming , 2014, Genetic Programming and Evolvable Machines.

[9]  Zdenek Vasicek,et al.  Bridging the Gap Between Evolvable Hardware and Industry Using Cartesian Genetic Programming , 2018 .

[10]  Julian Francis Miller,et al.  Cartesian Genetic Programming on the GPU , 2013, Massively Parallel Evolutionary Computation on GPGPUs.

[11]  William F. Punch,et al.  Reducing Wasted Evaluations in Cartesian Genetic Programming , 2013, EuroGP.

[12]  Peter A. N. Bosman,et al.  Scalable genetic programming by gene-pool optimal mixing and input-space entropy-based building-block learning , 2017, GECCO.

[13]  Julian Francis Miller,et al.  Cartesian genetic programming: its status and future , 2019, Genetic Programming and Evolvable Machines.

[14]  Zdenek Vasícek Cartesian GP in Optimization of Combinational Circuits with Hundreds of Inputs and Thousands of Gates , 2015, EuroGP.

[15]  Lukás Sekanina,et al.  Fitness Landscape Analysis and Image Filter Evolution Using Functional-Level CGP , 2007, EuroGP.

[16]  Zdenek Vasícek,et al.  Efficient Phenotype Evaluation in Cartesian Genetic Programming , 2012, EuroGP.

[17]  Alan D. Christiansen,et al.  Automated Design of Combinational Logic Circuits by Genetic Algorithms , 1997, ICANNGA.

[18]  Julian Francis Miller,et al.  The Advantages of Landscape Neutrality in Digital Circuit Evolution , 2000, ICES.

[19]  William F. Punch,et al.  Length bias and search limitations in cartesian genetic programming , 2013, GECCO '13.

[20]  Lukas Sekanina,et al.  Approximate Computing: An Old Job for Cartesian Genetic Programming? , 2018 .

[21]  Gisele L. Pappa,et al.  Solving the exponential growth of symbolic regression trees in geometric semantic genetic programming , 2018, GECCO.

[22]  Krzysztof Krawiec,et al.  Geometric Semantic Genetic Programming , 2012, PPSN.

[23]  Krzysztof Krawiec,et al.  Geometric semantic genetic programming for recursive boolean programs , 2017, GECCO.

[24]  Vojtech Mrazek,et al.  Semantically-oriented mutation operator in cartesian genetic programming for evolutionary circuit design , 2020, Genetic Programming and Evolvable Machines.

[25]  Lukás Sekanina,et al.  Towards highly optimized cartesian genetic programming: from sequential via SIMD and thread to massive parallel implementation , 2014, GECCO.

[26]  Marc Schoenauer,et al.  Memetic Semantic Genetic Programming , 2015, GECCO.