60,857 research outputs found
Eyeriss v2: A Flexible Accelerator for Emerging Deep Neural Networks on Mobile Devices
A recent trend in DNN development is to extend the reach of deep learning
applications to platforms that are more resource and energy constrained, e.g.,
mobile devices. These endeavors aim to reduce the DNN model size and improve
the hardware processing efficiency, and have resulted in DNNs that are much
more compact in their structures and/or have high data sparsity. These compact
or sparse models are different from the traditional large ones in that there is
much more variation in their layer shapes and sizes, and often require
specialized hardware to exploit sparsity for performance improvement. Thus,
many DNN accelerators designed for large DNNs do not perform well on these
models. In this work, we present Eyeriss v2, a DNN accelerator architecture
designed for running compact and sparse DNNs. To deal with the widely varying
layer shapes and sizes, it introduces a highly flexible on-chip network, called
hierarchical mesh, that can adapt to the different amounts of data reuse and
bandwidth requirements of different data types, which improves the utilization
of the computation resources. Furthermore, Eyeriss v2 can process sparse data
directly in the compressed domain for both weights and activations, and
therefore is able to improve both processing speed and energy efficiency with
sparse models. Overall, with sparse MobileNet, Eyeriss v2 in a 65nm CMOS
process achieves a throughput of 1470.6 inferences/sec and 2560.3 inferences/J
at a batch size of 1, which is 12.6x faster and 2.5x more energy efficient than
the original Eyeriss running MobileNet. We also present an analysis methodology
called Eyexam that provides a systematic way of understanding the performance
limits for DNN processors as a function of specific characteristics of the DNN
model and accelerator design; it applies these characteristics as sequential
steps to increasingly tighten the bound on the performance limits.Comment: accepted for publication in IEEE Journal on Emerging and Selected
Topics in Circuits and Systems. This extended version on arXiv also includes
Eyexam in the appendi
- …