Elimination (a,b)-trees with fast, durable updates

Abstract

Many concurrent dictionary implementations are designed and optimized for read-mostly workloads with uniformly distributed keys, and often perform poorly on update-heavy workloads. In this work, we first present a concurrent (a,b)-tree, the OCC-ABtree, which outperforms its fastest competitor by up to 2x on uniform update-heavy workloads, and is competitive on other workloads. We then turn our attention to skewed update-heavy workloads (which feature many inserts/deletes on the same key) and introduce the Elim-ABtree, which uses a new optimization called publishing elimination. In publishing elimination, concurrent inserts and deletes to a key are reordered to eliminate them. This reduces the number of writes in the data structure. The Elim-ABtree achieves up to 2.5x the performance of its fastest competitor (including the OCC-ABtree). The OCC-ABtree and Elim-ABtree are linearizable. We also introduce durable linearizable versions (for systems with Intel Optane DCPMM non-volatile main memory) that are nearly as fast.

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