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Efficient Graph-Based Approximate Nearest Neighbor Search Achieving: Low Latency Without Throughput Loss (2504.20461v2)

Published 29 Apr 2025 in cs.DC

Abstract: The increase in the dimensionality of neural embedding models has enhanced the accuracy of semantic search capabilities but also amplified the computational demands for Approximate Nearest Neighbor Searches (ANNS). This complexity poses significant challenges in online and interactive services, where query latency is a critical performance metric. Traditional graph-based ANNS methods, while effective for managing large datasets, often experience substantial throughput reductions when scaled for intra-query parallelism to minimize latency. This reduction is largely due to inherent inefficiencies in the conventional fork-join parallelism model. To address this problem, we introduce AverSearch, a novel parallel graph-based ANNS framework that overcomes these limitations through a fully asynchronous architecture. Unlike existing frameworks that struggle with balancing latency and throughput, AverSearch utilizes a dynamic workload balancing mechanism that supports continuous, dependency-free processing. This approach not only minimizes latency by eliminating unnecessary synchronization and redundant vertex processing but also maintains high throughput levels. Our evaluations across various datasets, including both traditional benchmarks and modern large-scale model generated datasets, show that AverSearch consistently outperforms current state-of-the-art systems. It achieves up to 2.1-8.9 times higher throughput at comparable latency levels across different datasets and reduces minimum latency by 1.5 to 1.9 times.

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