Brief Announcement: 2D-Stack -- A Scalable Lock-Free Stack Design that Continuously Relaxes Semantics for Better Performance

A. Rukundo, A. Atalar, P. Tsigas
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引用次数: 2

Abstract

We briefly describe an efficient lock-free concurrent stack design with tunable and tenable relaxed semantics to allow for better performance. The design is tunable and allow for a continuous monotonic trade of weaker semantics for better throughput performance. Concurrent stacks have an inherent scalability bottleneck due to their single access point for both their operations. Elimination and semantics relaxation have been proposed in the literature to address this problem. Semantics relaxation has the potential to reach monotonically very high throughput by continuously trading relaxation for throughput. Previous solutions could not fully leverage this potential. We suggest a new two dimensional design that can achieve this by exploiting disjoint access parallelism in one dimension and locality in the other within tight accuracy bounds. The behaviour of the algorithm is tightly bound. We compare experimentally to previous work, with respect to throughput and relaxed behaviour observed, on different relaxation and concurrency settings. The experimental evaluation shows that our algorithm significantly outperform all other algorithms in terms of performance, also maintain better accuracy in contrast to other designs with relaxed semantics.
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简短公告:2D-Stack——一个可扩展的无锁堆栈设计,不断放松语义以获得更好的性能
我们简要地描述了一种高效的无锁并发堆栈设计,它具有可调和可维持的宽松语义,以实现更好的性能。该设计是可调的,并且允许对较弱的语义进行连续的单调交换,以获得更好的吞吐量性能。并发堆栈具有固有的可伸缩性瓶颈,因为它们的两个操作都只有一个访问点。文献中提出了消去和语义松弛来解决这个问题。语义松弛通过不断地用松弛交换吞吐量,有可能单调地达到非常高的吞吐量。以前的解决方案不能充分利用这一潜力。我们提出了一种新的二维设计,通过在一个维度上利用不相交的访问并行性,在另一个维度上在严格的精度范围内利用局部性来实现这一目标。该算法的行为是紧密约束的。我们在实验上与以前的工作进行比较,在不同的放松和并发设置上观察到吞吐量和放松行为。实验评估表明,我们的算法在性能上明显优于其他所有算法,并且与其他具有宽松语义的设计相比,也保持了更好的准确性。
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