Rei：基于阵列的 CNN 加速器的可重构互连单元

IF 5.1 2区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS

IEEE Transactions on Emerging Topics in Computing Pub Date : 2023-06-30 DOI:10.1109/TETC.2023.3290138

Paria Darbani;Hakem Beitollahi;Pejman Lotfi-Kamran

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引用次数: 0

摘要

卷积神经网络（CNN）因其高精确度而被广泛应用于现实世界的许多应用中。基于学习算法的现代应用的快速增长增加了高效实现 CNN 的重要性。众所周知，阵列型架构是高效实现 CNN 模型的平台，它利用了并行计算和数据重用的优势。然而，加速器的硬件资源有限，而 CNN 涉及相当大的通信和计算负荷。此外，由于加速器逐层执行 CNN，不同形状和大小的层会导致资源利用率低于最佳水平。这个问题阻碍了加速器达到最高性能。深度学习应用的规模和复杂性不断增加，加剧了这一问题。因此，CNN 模型的性能取决于硬件适应不同层的不同形状以提高资源利用率的能力。这项工作提出了一种可重新配置的加速器，它可以高效地执行各种 CNN。所提出的灵活、低成本的可重新配置互连单元使阵列执行 CNN 的速度比固定大小的实现更快（与基线相比，ResNet-18 的速度提高了 45.9%）。所提出的架构还将片上内存访问率降低了 36.5%，同时不影响准确性。

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Rei: A Reconfigurable Interconnection Unit for Array-Based CNN Accelerators

Convolutional Neural Network (CNN) is used in many real-world applications due to its high accuracy. The rapid growth of modern applications based on learning algorithms has increased the importance of efficient implementation of CNNs. The array-type architecture is a well-known platform for the efficient implementation of CNN models, which takes advantage of parallel computation and data reuse. However, accelerators suffer from restricted hardware resources, whereas CNNs involve considerable communication and computation load. Furthermore, since accelerators execute CNN layer by layer, different shapes and sizes of layers lead to suboptimal resource utilization. This problem prevents the accelerator from reaching maximum performance. The increasing scale and complexity of deep learning applications exacerbate this problem. Therefore, the performance of CNN models depends on the hardware's ability to adapt to different shapes of different layers to increase resource utilization. This work proposes a reconfigurable accelerator that can efficiently execute a wide range of CNNs. The proposed flexible and low-cost reconfigurable interconnect units allow the array to perform CNN faster than fixed-size implementations (by 45.9% for ResNet-18 compared to the baseline). The proposed architecture also reduces the on-chip memory access rate by 36.5% without compromising accuracy.

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来源期刊

IEEE Transactions on Emerging Topics in Computing Computer Science-Computer Science (miscellaneous)

CiteScore

12.10

自引率

5.10%

发文量

113

期刊介绍： IEEE Transactions on Emerging Topics in Computing publishes papers on emerging aspects of computer science, computing technology, and computing applications not currently covered by other IEEE Computer Society Transactions. Some examples of emerging topics in computing include: IT for Green, Synthetic and organic computing structures and systems, Advanced analytics, Social/occupational computing, Location-based/client computer systems, Morphic computer design, Electronic game systems, & Health-care IT.