An inside analysis of a genetic-programming based optimizer
Document typeConference report
PublisherInstitute of Electrical and Electronics Engineers
Rights accessOpen Access
The use of evolutionary algorithms has been proposed as a powerful random search strategy to solve the join order problem. Specifically, genetic programming used in query optimization has been proposed as an alternative to the limitations of dynamic programming with large join queries. However, very little is known about the impact and behavior of the genetic operations used in this type of algorithms. In this paper, we present an analysis that helps us to understand the effect of these operations during the optimization execution. Specifically, we study five different aspects: the age of the members in the population in terms of generations, the number of query execution plans (QEP) discarded without producing new offsprings, the average QEP life time in generations, the efficiency of the genetic operations and the evolution of the best cost. All in all, our analysis allows us to understand the impact of crossovers compared to mutation operations and the dynamically changing effects of these operations.
CitationMuntés Mulero, Victor [et al.]. An inside analysis of a genetic-programming based optimizer. A: Desai, Bipin C.; Gupta, S. K. (eds). Proceedings 10th International Database Engineering and Applications Symposium: IDEAS 2006. Los Alamitos, California [etc.]: IEEE Computer Society, 2006. p. 249-255.