Enabling transparent hardware acceleration on Zynq SoC for scientific computing

Q2 Computer Science ACM SIGBED Review Pub Date : 2020-07-27 DOI:10.1145/3412821.3412826
Luca Stornaiuolo, F. Carloni, Riccardo Pressiani, Giuseppe Natale, M. Santambrogio, D. Sciuto
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引用次数: 1

Abstract

In a quest for making FPGA technology more accessible to the software community, Xilinx recently released PYNQ, a framework for Zynq that relies on Python and overlays to ease the integration of functionalities of the programmable logic into applications. In this work we build upon this framework to enable transparent hardware acceleration for scientific computations for Zynq. We do so by providing a custom NumPy library designed for PYNQ, as it is the de-facto scientific library for Python. We then demonstrate the effectiveness of the proposed approach on a biomedical use case involving the extraction of features from the Electroencephalography (EEG).
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在Zynq SoC上实现科学计算的透明硬件加速
为了让FPGA技术更容易被软件社区访问,Xilinx最近发布了PYNQ,这是Zynq的一个框架,它依赖Python和覆盖层来简化可编程逻辑功能到应用程序中的集成。在这项工作中,我们建立在这个框架的基础上,为Zynq的科学计算实现透明的硬件加速。我们通过提供为PYNQ设计的自定义NumPy库来实现这一点,因为它实际上是Python的科学库。然后,我们在涉及从脑电图(EEG)中提取特征的生物医学用例中证明了所提出的方法的有效性。
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ACM SIGBED Review
ACM SIGBED Review Computer Science-Computer Science (miscellaneous)
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Enabling transparent hardware acceleration on Zynq SoC for scientific computing An analysis and simulation tool of real-time communications in on-chip networks Earl Symphony DynaMO
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