CPMA: An Efficient Batch-Parallel Compressed Set Without Pointers

May 08, 2023 Β· Declared Dead Β· πŸ› ACM SIGPLAN Symposium on Principles & Practice of Parallel Programming

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Authors Brian Wheatman, Randal Burns, AydΔ±n BuluΓ§, Helen Xu arXiv ID 2305.05055 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DC, cs.PF Citations 5 Venue ACM SIGPLAN Symposium on Principles & Practice of Parallel Programming Last Checked 4 months ago
Abstract
This paper introduces the batch-parallel Compressed Packed Memory Array (CPMA), a compressed, dynamic, ordered set data structure based on the Packed Memory Array (PMA). Traditionally, batch-parallel sets are built on pointer-based data structures such as trees because pointer-based structures enable fast parallel unions via pointer manipulation. When compared with cache-optimized trees, PMAs were slower to update but faster to scan. The batch-parallel CPMA overcomes this tradeoff between updates and scans by optimizing for cache-friendliness. On average, the CPMA achieves 3x faster batch-insert throughput and 4x faster range-query throughput compared with compressed PaC-trees, a state-of-the-art batch-parallel set library based on cache-optimized trees. We further evaluate the CPMA compared with compressed PaC-trees and Aspen, a state-of-the-art system, on a real-world application of dynamic-graph processing. The CPMA is on average 1.2x faster on a suite of graph algorithms and 2x faster on batch inserts when compared with compressed PaC-trees. Furthermore, the CPMA is on average 1.3x faster on graph algorithms and 2x faster on batch inserts compared with Aspen.
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