用于机器学习硬件的稀疏感知25 Gb/s内存链路,具有0.0375-pJ/bit的信号效率

Shovon Dey;Can Ni;Alberto Leon Cevallos;Raju Machupalli;Mrinal Mandal;Masum Hossain
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引用次数: 0

摘要

这项工作描述了一个与存储器接口集成的乘法和累加(MAC)加速器。该链路被设计为利用神经网络中自然存在的稀疏性。以16Gb/s操作的链路对于随机数据实现了0.1875-pJ/比特的信令效率,但是对于稀疏数据,信令效率可以提高到0.0375pJ/位。类似地,MAC单元利用相域累积过程加速计算,并为稀疏数据提供40%的能效提高,同时为MNIST数据集实现94%的推断精度。
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Sparsity-Aware 25-Gb/s Memory Link With 0.0375-pJ/bit Signaling Efficiency for Machine Learning Hardware
This work describes a multiplication and accumulation (MAC) accelerator integrated with a memory interface. The link is designed to take advantage of naturally existing sparsity in a neural network. The link operating at 16 Gb/s achieves 0.1875-pJ/bit signaling efficiency for random data but, for sparse data, signaling efficiency can improve to 0.0375 pJ/bit. Similarly, the MAC unit accelerates the computation utilizing the phase domain accumulation process and provides a 40% improvement in energy efficiency for sparse data and at the same achieves inference accuracy of 94% for the MNIST data set.
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