Minimization of incompletely specified mixed polarity Reed Muller functions using genetic algorithm.

Research Output

A New and efficient Genetic Algorithm (GA) based approach is presented to minimise the number of terms of Mixed Polarity Reed Muller (MPRM) single and multi output incompletely specified Boolean functions. The algorithm determines the allocation of don’t care terms for the given function resulting in optimal MPRM expansions. For an n-variable function with ? unspecified minterms there are (3n × 2?) distinct MPRM expansions. A minimum MPRM is one with the fewest products. The algorithm is implemented in C++ and fully tested using standard benchmark examples. For the benchmark examples tested, the number of terms is reduced, on average, by 49% if “don’t care” terms are included.

Date:

30 November 2009
Publication Status:

Published
DOI:

10.1109/12.67320
Library of Congress:

QA75 Electronic computers. Computer science

http://researchrepository.napier.ac.uk/output/217058 <p>Al-Jassani, B. A., Urquhart, N. B., & Almaini, A. E. A. (2009). Minimization of incompletely specified mixed polarity Reed Muller functions using genetic algorithm. https://doi.org/10.1109/12.67320</p>

Citation

Al-Jassani, B. A., Urquhart, N. B., & Almaini, A. E. A. (2009). Minimization of incompletely specified mixed polarity Reed Muller functions using genetic algorithm. https://doi.org/10.1109/12.67320

Authors

minimization of incompletely specified mixed polarity reed muller functions using genetic 1

Dr Neil Urquhart

Lecturer
School of Computing Engineering and the Built Environment

0131 455 2655

N.Urquhart@napier.ac.uk

Abid Almaini

Keywords

Mixed Polarity Reed Muller; incompletely specified Boolean functions; aenetic algorithm;

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