Hadoop ZedBoard集群用GZIP压缩FPGA加速

2019 11th International Conference on Electronics, Computers and Artificial Intelligence (ECAI) Pub Date : 2019-06-01 DOI:10.1109/ECAI46879.2019.9042006

Ovidiu Plugariu, L. Petrica, Radu Pirea, R. Hobincu

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引用次数: 0

摘要

本文介绍了基于Zynq ZedBoard开发平台的异构Hadoop集群的实现，采用GZIP FPGA卸载实现高速节能计算。我们开发了第一个开源FPGA GZIP压缩器，专为教育和研究目的而设计，使用125 MHz时钟可以达到1 Gbps的压缩速度。该核心仅使用Zynq-7020 SoC FPGA资源的10%，比运行在667 MHz的ARM CPU快5.7倍。我们实现了一个八节点Hadoop分布式集群，并在Map阶段使用软件和硬件GZIP压缩执行Wordcount和Terasort基准测试。结果表明，使用我们的GZIP FPGA内核进行压缩时，集群的能效几乎是使用软件压缩时的2倍。Hadoop集群的性能受到512mb RAM和SD卡(作为每个节点的硬盘驱动器)的低读写速度的限制。

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Hadoop ZedBoard cluster with GZIP compression FPGA acceleration

This paper presents the implementation of a heterogeneous Hadoop cluster based on the Zynq ZedBoard development platform with GZIP FPGA offloading for high-speed and energy efficient computing. We have developed the first open source FPGA GZIP compressor, designed for educational and research purposes, that can reach 1 Gbps compression speed using a 125 MHz clock. The core uses only 10% of the Zynq-7020 SoC FPGA resources and is 5.7x faster than the ARM CPU which runs at 667 MHz. We implemented an eight-node Hadoop distributed cluster and performed the Wordcount and Terasort benchmarks using software and hardware GZIP compression during the Map stage. Results show an almost 2x more energy-efficient cluster when compression is done using our GZIP FPGA core than using the software compression. The performance of the Hadoop cluster is limited by the 512 MB of RAM and the low read-write speed of the SD cards which act as hard drives for each node.

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2019 11th International Conference on Electronics, Computers and Artificial Intelligence (ECAI)

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