Title :
SMVP Distribution Using Hypergraph Model and S-GBNZ Algorithm
Author :
Mehrez, Ichrak ; Hamdi-Larbi, Olfa
Author_Institution :
CS Dept., Fac. of Sci. of Tunis, Tunis, Tunisia
Abstract :
Sparse Matrix Vector Product (SMVP) is an important kernel in many scientific applications. Since the most common issues in parallel computing are communication and load balancing, our goal is to find a compromise to satisfy these two criteria. Thus, for distributing this kernel on a homogeneous multicore node cluster, we study a solution where we combine two different approaches: hyper graph model that reduces communication cost and S-GBNZ algorithm that ensures load balancing. Our theoretical contribution is validated through experimentations achieved on a multicore cluster within Grid5000.
Keywords :
graph theory; matrix algebra; parallel processing; resource allocation; Grid5000; S-GBNZ algorithm; SMVP distribution; communication cost; homogeneous multicore node cluster; hypergraph model; load balancing; parallel computing; sorted generalized fragmentation with balanced number of nonzeros algorithm; sparse matrix vector product; Clustering algorithms; Computational modeling; Kernel; Load management; Multicore processing; Program processors; Sparse matrices; S-GBNZ; Sparse Matrix Vector Product; cluster; hypergraph; multicore;
Conference_Titel :
P2P, Parallel, Grid, Cloud and Internet Computing (3PGCIC), 2013 Eighth International Conference on
Conference_Location :
Compiegne
DOI :
10.1109/3PGCIC.2013.41
