基于slam应用的FPGA设计高级综合

2016 IEEE/ACS 13th International Conference of Computer Systems and Applications (AICCSA) Pub Date : 2016-11-01 DOI:10.1109/AICCSA.2016.7945638

Mohamed Abouzahir, A. Elouardi, S. Bouaziz, O. Hammami, Ismail Ali

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引用次数: 2

摘要

自主导航时代SLAM算法的发展以及对自主机器人代替人类的需求日益增长，对如何降低计算复杂度并利用这些算法实时运行提出了疑问。我们的工作旨在利用fpga上的高级综合(HLS)来设计一个实时SLAM应用程序。准确地说，我们评估了新型现代低功耗fpga在加速SLAM算法方面的前景。在此过程中，我们将尝试在使用OpenCL(一种标准高级语言)的新型现代FPGA上实现一个著名的算法(FastSLAM2.0)。我们的实现结果表明，与现代功能强大的嵌入式GPGPU相比，在FPGA设备上的算法处理时间显着提高。

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High-level synthesis for FPGA design based-SLAM application

The development of SLAM algorithms in the era of autonomous navigation and the growing demand for autonomous robot in place of human being, has put into question how to reduce the computational complexity and make use of these algorithms to operate in real time. Our work aims to take advantage of the high level synthesis (HLS) on FPGAs to design a real time SLAM application. Precisely, we evaluate the promess-held by the new modern low power FPGAs in accelerating SLAM algorithms. Throughtout this, we will attempt to implement a well-known algorithms (FastSLAM2.0), on a new modern FPGA using OpenCL, a standard high level language. Our implementation results show a significant improvement of the algorithm processing time on an FPGA device over a modern powerful embedded GPGPU.

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2016 IEEE/ACS 13th International Conference of Computer Systems and Applications (AICCSA)

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