基于gpgpu的基于窗口的混合流处理SABER系统:演示

Proceedings of the 10th ACM International Conference on Distributed and Event-based Systems Pub Date : 2016-06-13 DOI:10.1145/2933267.2933291

A. Koliousis, M. Weidlich, R. Fernandez, A. Wolf, Paolo Costa, P. Pietzuch

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引用次数: 0

摘要

将多核cpu与多核gpgpu相结合的异构架构有可能提高数据密集型流处理应用程序的性能。然而，流处理引擎必须以足够的数据并行性执行流SQL查询，以充分利用可用的异构处理器，并决定如何以最有效的方式使用每个处理器。为了解决这些挑战，我们展示了Saber，一种用于cpu和gpgpu的混合高性能关系流处理引擎。Saber以数据并行的方式执行基于窗口的流SQL查询，并采用自适应调度策略来平衡不同类型处理器上的负载。为了隐藏数据移动成本，Saber在CPU和GPGPU内存之间传输流数据。在本文中，我们回顾了Saber在其混合流处理模型和查询执行架构方面的设计原则。我们还提供了一个监控处理吞吐量的web前端。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The SABER system for window-based hybrid stream processing with GPGPUs: demo

Heterogeneous architectures that combine multi-core CPUs with many-core GPGPUs have the potential to improve the performance of data-intensive stream processing applications. Yet, a stream processing engine must execute streaming SQL queries with sufficient data-parallelism to fully utilise the available heterogeneous processors, and decide how to use each processor in the most effective way. Addressing these challenges, we demonstrate Saber, a hybrid high-performance relational stream processing engine for CPUs and GPGPUs. Saber executes window-based streaming SQL queries in a data-parallel fashion and employs an adaptive scheduling strategy to balance the load on the different types of processors. To hide data movement costs, Saber pipelines the transfer of stream data between CPU and GPGPU memory. In this paper, we review the design principles of Saber in terms of its hybrid stream processing model and its architecture for query execution. We also present a web front-end that monitors processing throughput.

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Proceedings of the 10th ACM International Conference on Distributed and Event-based Systems

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