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Scalable distributed architectures for information retrieval
Abstract
As information explodes across the Internet and intranets, information retrieval (IR) systems must cope with the challenge of scale. How to provide scalable performance for rapidly increasing data and workloads is critical in the design of next generation information retrieval systems. This dissertation studies scalable distributed IR architectures that not only provide quick response but also maintain acceptable retrieval accuracy. Our distributed architectures exploit parallelism in information retrieval on a cluster of parallel IR servers using symmetric multiprocessors, and use partial collection replication and selection as well as collection selection to restrict the search to a small percentage of data while maintaining retrieval accuracy. We first investigate using partial collection replication for IR systems. We examine query locality in real systems, how to select a partial replica based on relevance, how to load-balance between replicas and the original collection, as well as updating overheads and strategies. Our results show that there exists sufficient query locality to justify partial replication for information retrieval. Our proposed replica selection algorithm effectively selects relevant partial replicas, and is inexpensive to implement. Our evidence also indicates that partial replication achieves better performance than caching queries, because the replica selection algorithm finds similarity between nonidentical queries, and thus increases observed locality. We use a validated simulator to perform a detailed performance evaluation of distributed IR architectures. We explore how best to build parallel IR servers using symmetric multiprocessors, evaluate the performance of partial collection replication and collection selection, and compare the performance of partial collection replication with collection partitioning as well as collection selection. At last we present experiments for searching a terabyte of text. We also examine performance changes when we use fewer large servers, faster servers, and longer queries. Our results show that because IR systems have heavy computational and I/O loads, the number of CPUs, disks, and threads must be carefully balanced to achieve scalable performance. Our results show that partial collection replication is much more effective at decreasing the query response time than collection partitioning for a loaded system, even with fewer resources, and it requires only modest query locality. Our results also show that partial collection replication performs better than collection selection when there exists enough query locality, and it performs worse when the collection access is fairly uniform after collection selection. Finally our results show that replica and collection selection can be combined to provide quick response time for a terabyte of text. Changes of system configurations do not significantly change the relative improvements due to partial collection replication and collection selection, although they affect the absolute response time.
Subject Area
Computer science
Recommended Citation
Lu, Zhihong, "Scalable distributed architectures for information retrieval" (1999). Doctoral Dissertations Available from Proquest. AAI9932326.
https://scholarworks.umass.edu/dissertations/AAI9932326