Abstract
Edge Partitioning in External-Memory Graph Search
Rong Zhou, Eric A. Hansen
There is currently much interest in using external memory, such as disk storage, to scale up graph-search algorithms. Recent work shows that the local structure of a graph can be leveraged to substantially improve the efficiency of external-memory graph search. This paper introduces a technique, called edge partitioning, which exploits a form of local structure that has not been considered in previous work. The new technique improves the scalability of structured approaches to external-memory graph search, and also guarantees the applicability of these approaches to any graph-search problem. We show its effectiveness in an external-memory graph-search algorithm for domain-independent STRIPS planning.