Efficient And Robust Approximate Nearest Neighbor Search Using Hierarchical Navigable Small World Graphs
IEEE transactions on pattern analysis and machine intelligence(2020)
摘要
We present a new approach for the approximate K-nearest neighbor search based on navigable small world graphs with controllable hierarchy (Hierarchical NSW, HNSW). The proposed solution is fully graph-based, without any need for additional search structures (typically used at the coarse search stage of the most proximity graph techniques). Hierarchical NSW incrementally builds a multi-layer structure consisting of a hierarchical set of proximity graphs (layers) for nested subsets of the stored elements. The maximum layer in which an element is present is selected randomly with an exponentially decaying probability distribution. This allows producing graphs similar to the previously studied Navigable Small World (NSW) structures while additionally having the links separated by their characteristic distance scales. Starting the search from the upper layer together with utilizing the scale separation boosts the performance compared to NSW and allows a logarithmic complexity scaling. Additional employment of a heuristic for selecting proximity graph neighbors significantly increases performance at high recall and in case of highly clustered data. Performance evaluation has demonstrated that the proposed general metric space search index is able to strongly outperform previous opensource state-of-the-art vector-only approaches. Similarity of the algorithm to the skip list structure allows straightforward balanced distributed implementation.
更多查看译文
关键词
Graph and tree search strategies,artificial intelligence,information search and retrieval,information storage and retrieval,information technology and systems,search process,graphs and networks,data structures,nearest neighbor search,big data,approximate search,similarity search
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络