This paper proposes a genetic algorithm for designing combinational logic circuits and studies four different case examples: the 2-to-1 multiplexer, the one-bit full adder, the four-bit parity checker and the two-bit multiplier. The objective of this work is to generate a functional circuit with the minimum number of logic gates. It is also studied the scalability problem that emerges from the exponential growth of the truth table when the circuits complexity increases. Furthermore, it is as well investigated the population size and the processing time for achieving a solution in order to establish a compromise between the two parameters.N/
Logic circuits are at the core of modern computing. The process of designing circuits which are effi...
This paper is devoted to the synthesis of combinational logic circuits through computacional intelli...
This paper examines the idea of a genetic or evolutionary algorithm being an inspirational or discov...
Abstract:- This paper proposes a genetic algorithm for designing combinational logic circuits and st...
This paper proposes a genetic algorithm for designing combinational logic circuits and studies three...
This paper proposes a genetic algorithm for designing combinational logic circuits and studies four ...
This paper proposes a genetic algorithm for designing combinational logic circuits and studies four ...
Abstract -This paper proposes a genetic algorithm for designing combinational logic circuits and stu...
The problem of synthesizing a minimum cost logic circuit is formulated via a genetic algorithm (GA)....
This paper presents two evolutionary schemes and a swarm intelligence algorithm for the design of co...
AbstractA new approach for the evolutionary design of combinational logic circuits using Genetic Alg...
This paper presents several experiments with a genetic algorithm (GA) for designing combinational lo...
In this paper we propose a methodology based on a genetic algorithm (GA) to automate the design of c...
This paper presents a new approach to the design of combinational digital circuits with multiplexers...
Experimental results show that parallel programs can be evolved more easily than sequential programs...
Logic circuits are at the core of modern computing. The process of designing circuits which are effi...
This paper is devoted to the synthesis of combinational logic circuits through computacional intelli...
This paper examines the idea of a genetic or evolutionary algorithm being an inspirational or discov...
Abstract:- This paper proposes a genetic algorithm for designing combinational logic circuits and st...
This paper proposes a genetic algorithm for designing combinational logic circuits and studies three...
This paper proposes a genetic algorithm for designing combinational logic circuits and studies four ...
This paper proposes a genetic algorithm for designing combinational logic circuits and studies four ...
Abstract -This paper proposes a genetic algorithm for designing combinational logic circuits and stu...
The problem of synthesizing a minimum cost logic circuit is formulated via a genetic algorithm (GA)....
This paper presents two evolutionary schemes and a swarm intelligence algorithm for the design of co...
AbstractA new approach for the evolutionary design of combinational logic circuits using Genetic Alg...
This paper presents several experiments with a genetic algorithm (GA) for designing combinational lo...
In this paper we propose a methodology based on a genetic algorithm (GA) to automate the design of c...
This paper presents a new approach to the design of combinational digital circuits with multiplexers...
Experimental results show that parallel programs can be evolved more easily than sequential programs...
Logic circuits are at the core of modern computing. The process of designing circuits which are effi...
This paper is devoted to the synthesis of combinational logic circuits through computacional intelli...
This paper examines the idea of a genetic or evolutionary algorithm being an inspirational or discov...