Profiling of CNNs using the MATLAB FPGA-based Deep Learning Processor

2022 17th Conference on Ph.D Research in Microelectronics and Electronics (PRIME) Pub Date : 2022-06-12 DOI:10.1109/prime55000.2022.9816841

S. Spanò, L. Canese, G. Cardarilli

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Abstract

In this paper we assess the performance of the new MATLAB Deep Learning Processor. It is a hardware architecture meant for FPGA devices which is able to infer Convolutional Neural Networks. The system is deployed on a Xilinx ZCU102 SoC and we customize it with the aim to maximize its processing performance. We evaluate the hardware resources utilization, the maximum achievable clock frequency, and the power dissipation of the system. Our goal is to find the best performing networks on FPGA and, eventually, to compare the results with a GPU-based counterpart. We conduct an experimental campaign where the FPGA execution time of several CNNs is profiled and compared to the execution time on the NVIDIA Titan RTX GPU platform. This allows a comparative performance analysis when the same network is inferred on different systems. We consider all the available CNNs of the MATLAB suite which have been pretrained with the ImageNet dataset. Finally, to pinpoint the most cost-effective network, the FPGA prediction time is put in relation with the accuracy on the aforementioned dataset.

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使用基于MATLAB fpga的深度学习处理器分析cnn

在本文中，我们评估了新的MATLAB深度学习处理器的性能。它是一种用于FPGA设备的硬件架构，能够推断卷积神经网络。该系统部署在赛灵思ZCU102 SoC上，我们对其进行了定制，旨在最大限度地提高其处理性能。我们评估了系统的硬件资源利用率、最大可实现时钟频率和功耗。我们的目标是在FPGA上找到性能最好的网络，并最终将结果与基于gpu的网络进行比较。我们进行了一个实验活动，其中几个cnn的FPGA执行时间进行了分析，并与NVIDIA Titan RTX GPU平台上的执行时间进行了比较。这允许在不同系统上推断相同的网络时进行比较性能分析。我们考虑用ImageNet数据集预训练的MATLAB套件中所有可用的cnn。最后，为了确定最具成本效益的网络，将FPGA预测时间与上述数据集的准确性联系起来。

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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2022 17th Conference on Ph.D Research in Microelectronics and Electronics (PRIME)

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