A Low-Power Accelerator for Deep Neural Networks with Enlarged Near-Zero Sparsity

05/22/2017
by   Yuxiang Huan, et al.
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It remains a challenge to run Deep Learning in devices with stringent power budget in the Internet-of-Things. This paper presents a low-power accelerator for processing Deep Neural Networks in the embedded devices. The power reduction is realized by avoiding multiplications of near-zero valued data. The near-zero approximation and a dedicated Near-Zero Approximation Unit (NZAU) are proposed to predict and skip the near-zero multiplications under certain thresholds. Compared with skipping zero-valued computations, our design achieves 1.92X and 1.51X further reduction of the total multiplications in LeNet-5 and Alexnet respectively, with negligible lose of accuracy. In the proposed accelerator, 256 multipliers are grouped into 16 independent Processing Lanes (PL) to support up to 16 neuron activations simultaneously. With the help of data pre-processing and buffering in each PL, multipliers can be clock-gated in most of the time even the data is excessively streaming in. Designed and simulated in UMC 65 nm process, the accelerator operating at 500 MHz is > 4X faster than the mobile GPU Tegra K1 in processing the fully-connected layer FC8 of Alexnet, while consuming 717X less energy.

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