Lindemann, Christoph2004-12-032004-12-0320022002-10-17http://hdl.handle.net/2003/225310.17877/DE290R-14753As a consequence of the tremendous size, explosive growth, and rapidly changing nature of the Web, a major challenge for search engine design and implementation lies in providing means for scalability at large. In this paper, we introduce WebSearchBench: a parallel software architecture for Internet search engines running on commodity-of-the-shelf components (a Linux cluster comprising of Intel Pentium IV Xeon dual-processor PCs connected by a Gigabit Ethernet). The presented performance study shows that WebSearchBench running on 8 nodes of a cluster can crawl and index 40 million Web pages per day. Another 4 nodes of the cluster can manage an index of 200 million pages and answer more than 25 million search queries per day. The repository for storing 200 million pages requires 7 additional nodes. Furthermore, our study indicates that WebSearchBench running on 32 nodes should be able to manage an index of 2 billion pages and answer about 120 million search queries per day.deUniversität Dortmund020conference contribution