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PZnet: Efficient 3D ConvNet Inference on Manycore CPUs
Convolutional nets have been shown to achieve state-of-the-art accuracy in
many biomedical image analysis tasks. Many tasks within biomedical analysis
domain involve analyzing volumetric (3D) data acquired by CT, MRI and
Microscopy acquisition methods. To deploy convolutional nets in practical
working systems, it is important to solve the efficient inference problem.
Namely, one should be able to apply an already-trained convolutional network to
many large images using limited computational resources. In this paper we
present PZnet, a CPU-only engine that can be used to perform inference for a
variety of 3D convolutional net architectures. PZNet outperforms MKL-based CPU
implementations of PyTorch and Tensorflow by more than 3.5x for the popular
U-net architecture. Moreover, for 3D convolutions with low featuremap numbers,
cloud CPU inference with PZnet outperfroms cloud GPU inference in terms of cost
efficiency
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