文档排序索引的任何时间排序

J. Mackenzie, M. Petri, Alistair Moffat
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引用次数: 13

摘要

倒排索引仍然是文本搜索引擎的主流,它允许对大型文档集合进行高效查询。虽然有许多可能的组织,但文档顺序索引是最常见的,因为它们适用于各种查询类型,支持索引更新,并允许有效的动态修剪操作。文档有序索引的一个缺点是,高分文档可能分布在整个文档标识符空间中,这意味着过早终止的索引遍历算法可能会危及搜索效率。另一种选择是影响排序索引,它主要支持顶断,但也允许随时查询处理,其中搜索可以随时终止,随着处理延迟的增加,搜索质量也会提高。随时查询处理可用于有效地减少高百分位数的尾部延迟,这对于服务水平协议(SLA)施加响应时间需求的操作场景至关重要。在本文中,我们将展示如何组织按文档顺序排列的索引,以便可以随时查询它们,从而实现严格的延迟控制和有效的早期终止。我们的实验表明,处理由简单分数估计器选择的文档顺序主题片段优于现有的任何时间算法,并允许查询运行时间精确地限制以符合SLA要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anytime Ranking on Document-Ordered Indexes
Inverted indexes continue to be a mainstay of text search engines, allowing efficient querying of large document collections. While there are a number of possible organizations, document-ordered indexes are the most common, since they are amenable to various query types, support index updates, and allow for efficient dynamic pruning operations. One disadvantage with document-ordered indexes is that high-scoring documents can be distributed across the document identifier space, meaning that index traversal algorithms that terminate early might put search effectiveness at risk. The alternative is impact-ordered indexes, which primarily support top- disjunctions but also allow for anytime query processing, where the search can be terminated at any time, with search quality improving as processing latency increases. Anytime query processing can be used to effectively reduce high-percentile tail latency that is essential for operational scenarios in which a service level agreement (SLA) imposes response time requirements. In this work, we show how document-ordered indexes can be organized such that they can be queried in an anytime fashion, enabling strict latency control with effective early termination. Our experiments show that processing document-ordered topical segments selected by a simple score estimator outperforms existing anytime algorithms, and allows query runtimes to be accurately limited to comply with SLA requirements.
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