Petascale Computing for Large-Scale Graph Problems

Author

Bader, David A.

Author_Institution

Georgia Inst. of Technol., Atlanta, GA

fYear

2008

fDate

4-7 March 2008

Firstpage

779

Lastpage

779

Abstract

Summary form only given. Graph theoretic problems are representative of fundamental kernels in traditional and emerging computational sciences such as chemistry, biology, and medicine, as well as applications in national security. Yet they pose serious challenges for parallel machines due to non-contiguous, concurrent accesses to global data structures with low degrees of locality. Few parallel graph algorithms outperform their best sequential implementation due to long memory latencies and high synchronization costs. In this talk, we consider several graph theoretic kernels for connectivity and centrality and discuss how the features of petascale architectures will affect algorithm development, ease of programming, performance, and scalability.

Keywords

concurrency control; data structures; graph theory; large-scale systems; parallel algorithms; parallel architectures; parallel machines; storage management; computational sciences; concurrent accesses; data structures; graph theoretic kernels; graph theoretic problems; large-scale graph problems; memory latency; parallel graph algorithms; parallel machines; petascale architectures; petascale computing; synchronization costs; Biology computing; Chemistry; Computational biology; Data structures; Delay; Kernel; Large-scale systems; National security; Parallel machines; Petascale computing;

fLanguage

English

Publisher

ieee

Conference_Titel

Complex, Intelligent and Software Intensive Systems, 2008. CISIS 2008. International Conference on

Conference_Location

Barcelona

Print_ISBN

978-0-7695-3109-0

Type

conf

DOI

10.1109/CISIS.2008.150

Filename

4606767