在多线程和多加速器执行下表征CNN吞吐量和能量

IF 1.7 4区计算机科学 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Embedded Systems Letters Pub Date : 2024-12-05 DOI:10.1109/LES.2024.3446896

M A Muneeb;Rajesh Kedia

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引用次数: 0

摘要

新兴应用和批处理卷积神经网络（CNN）工作负载需要同时执行多个卷积神经网络。现在有各种各样的CNN加速器可用，我们描述了这些加速器对CNN并发性的支持。我们在多线程和多加速器模式下使用商用现成的CNN加速器，并确定即使只有一个加速器，也可以获得高达3.98倍的吞吐量改进和3.20倍的每次推理能量改进。我们对三种不同尺寸的加速器的104个CNN模型进行了详细的表征，揭示了将CNN特性与吞吐量和能量的改进联系起来的许多见解。我们还提出了一个设计空间和一个低误差吞吐量估计模型来探索这样的设计空间。

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Characterizing CNN Throughput and Energy Under Multithreaded and Multiaccelerator Execution

Emerging applications and batch processing convolutional neural network (CNN) workloads require executing multiple CNNs concurrently. A wide variety of CNN accelerators are available today and we characterize the support for concurrency for CNNs in such accelerators. We use a commercial-off-the-shelf CNN accelerator in multithreading and multiaccelerator modes and identify that upto

$3.98\times $

improvement in throughput and

$3.20\times $

improvement in energy per inference can be obtained even with just a single accelerator. Our detailed characterization of 104 CNN models, for three different sizes of accelerator, reveals many insights that connect CNN characteristics to improvement in throughput and energy. We also present a design space and a low error throughput estimation model to explore such a design space.

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来源期刊

IEEE Embedded Systems Letters Engineering-Control and Systems Engineering

CiteScore

3.30

自引率

0.00%

发文量

期刊介绍： The IEEE Embedded Systems Letters (ESL), provides a forum for rapid dissemination of latest technical advances in embedded systems and related areas in embedded software. The emphasis is on models, methods, and tools that ensure secure, correct, efficient and robust design of embedded systems and their applications.

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