Four-splitting based coarse-grained multicomputer parallel algorithm for the optimal binary search tree problem.

Autor: Lacmou Zeutouo, Jerry, Kengne Tchendji, Vianney, Myoupo, Jean Frédéric
Předmět:
Zdroj: International Journal of Parallel, Emergent & Distributed Systems; Dec2022, Vol. 37 Issue 6, p659-679, 21p
Abstrakt: This paper presents a parallel solution based on the coarse-grained multicomputer (CGM) model using the four-splitting technique to solve the optimal binary search tree problem. The well-known sequential algorithm of Knuth solves this problem in O (n 2) time and space, where n is the number of keys used to build the optimal binary search tree. To parallelise this algorithm on the CGM model, the irregular partitioning technique, consisting in subdividing the dependency graph into subgraphs (or blocks) of variable size, has been proposed to tackle the trade-off of minimising the number of communication rounds and balancing the load of processors. This technique, however, induces a high latency time of processors (which accounts for most of the global communication time) because varying the blocks' sizes does not enable them to start evaluating some blocks as soon as the data they need are available. The four-splitting technique proposed in this paper solves this shortcoming by evaluating a block as a sequence of computation and communication steps of four subblocks. This CGM-based parallel solution requires O (n 2 / p) execution time with O (k p) communication rounds, where p is the number of processors and k is the number of times the size of blocks is subdivided. An experimental study conducted to evaluate the performance of this CGM-based parallel solution showed that compared to the solution based on the irregular partitioning technique where the speedup factor is up to ×10.39 on 128 processors with 40,960 keys when k = 2, the speedup factor of this solution is up to ×13.12 and rises up to ×14.93 when k = 5. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index