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Paper detail

Sharded Elimination and Combining for Highly-Efficient Concurrent Stacks

We present a new blocking linearizable stack implementation which utilizes sharding and fetch&increment to achieve significantly better performance than all existing concurrent stacks. The proposed implementation is based on a novel elimination mechanism and a new combining approach that are efficiently blended to gain high performance. Our implementation results in enhanced parallelism and low contention when accessing the shared stack. Experiments show that the proposed stack implementation outperforms all existing concurrent stacks by up to 2X in most workloads. It is particularly efficient in systems supporting a large number of threads and in high contention scenarios.

preprint2026arXivOpen access
Ajay SinghNikos MetaxakisPanagiota Fatourou
Programming LanguagesDistributed, Parallel, and Cluster Computing
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Ajay SinghNikos MetaxakisPanagiota Fatourou

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