Go to NeurIPS 2025 Conference homepageDistance Adaptive Beam Search for Provably Accurate Graph-Based Nearest Neighbor Search
Keywords: nearest neighbor search, navigable graphs, beam search, graph-based search, hsnw, diskann
TL;DR: We propose a one-line modification of the ubiquitous beam search method for graph-based near neighbor search. Our new method yields strong theoretical approximation guarantees and better practical performance.
Abstract: Nearest neighbor search is central in machine learning, information retrieval, and databases. For high-dimensional datasets, graph-based methods such as HNSW, DiskANN, and NSG have become popular thanks to their empirical accuracy and efficiency. These methods construct a directed graph over the dataset and perform beam search on the graph to find nodes close to a given query. While significant work has focused on practical refinements and theoretical understanding of graph-based methods, many questions remain. We propose a new distance-based termination condition for beam search to replace the commonly used condition based on beam width. We prove that, as long as the search graph is navigable, our resulting Adaptive Beam Search method is guaranteed to approximately solve the nearest-neighbor problem, establishing a connection between navigability and the performance of graph-based search. We also provide extensive experiments on our new termination condition for both navigable graphs and approximately navigable graphs used in practice, such as HNSW and Vamana graphs. We find that Adaptive Beam Search outperforms standard beam search over a range of recall values, data sets, graph constructions, and target number of nearest neighbors. It thus provides a simple and practical way to improve the performance of popular methods.
Primary Area: Infrastructure (e.g., libraries, improved implementation and scalability, distributed solutions)
Submission Number: 18104
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