Abstract:
This research explores the concurrent implementation of range search operations on quadtrees using Versioning of the data structure. The proposed approach utilizes time-stamped versioned lists to maintain the state of each object, introducing a novel mechanism for timestamp attachment during updates. The algorithm employs a clone object as a global clock and Versioned quadtree. The linearizable implementation ensures constant-time operations and effective handling of concurrent snapshots. Experimental analyses compare the performance of the proposed method with state-of-the-art alternatives, showcasing its scalability, efficiency, and low overhead across diverse workloads. The results demonstrate the competitiveness of the Versioning-based approach in enabling efficient and concurrent range search operations on quad trees.