面向通用神经网络计算

Schuyler Eldridge, Amos Waterland, M. Seltzer, J. Appavoo, A. Joshi
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引用次数: 22

摘要

机器学习正变得越来越普遍,几十年来对神经网络计算的研究现在被用来学习数据中的模式,并执行难以用标准编程方法表达的计算。最近的研究表明,用于神经网络处理的定制硬件加速器在性能和功耗方面都优于软件实现。然而,神经网络加速器既没有一个商定的接口,也没有一个关于神经网络硬件实现的共识。我们提出了一套通用的软件/硬件扩展,X-FILES,它允许在应用程序中前馈和反馈神经网络计算的通用集成。接口与网络类型、配置和实现无关。利用这些扩展,我们演示并评估了一个动态分配的多上下文神经网络加速器体系结构DANA。我们展示了X-FILES和我们的硬件原型DANA的结合,为多线程场景下基于神经网络的计算提供了通用支持和更高的吞吐量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards General-Purpose Neural Network Computing
Machine learning is becoming pervasive, decades of research in neural network computation is now being leveraged to learn patterns in data and perform computations that are difficult to express using standard programming approaches. Recent work has demonstrated that custom hardware accelerators for neural network processing can outperform software implementations in both performance and power consumption. However, there is neither an agreed-upon interface to neural network accelerators nor a consensus on neural network hardware implementations. We present a generic set of software/hardware extensions, X-FILES, that allow for the general-purpose integration of feedforward and feedback neural network computation in applications. The interface is independent of the network type, configuration, and implementation. Using these proposed extensions, we demonstrate and evaluate an example dynamically allocated, multi-context neural network accelerator architecture, DANA. We show that the combination of X-FILES and our hardware prototype, DANA, enables generic support and increased throughput for neural-network-based computation in multi-threaded scenarios.
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