In this paper, we present the design of a deterministic bit-stream neuron, which makes use of the memory rich architecture of fine-grained field-programmable gate arrays (FPGAs). It is shown that deterministic bit streams provide the same accuracy as much longer stochastic bit streams. As these bit streams are processed serially, this allows neurons to be implemented that are much faster than those that utilize stochastic logic. Furthermore, due to the memory rich architecture of fine-grained FPGAs, these neurons still require only a small amount of logic to implement. The design presented here has been implemented on a Virtex FPGA, which allows a very regular layout facilitating efficient usage of space. This allows for the construction of neural networks large enough to solve complex tasks at a speed comparable to that provided by commercially available neural-network hardware.
Disparity/depth estimation from sequences of stereo images is an important element in 3D vision. Owing to occlusions, imperfect settings and homogeneous luminance, accurate estimate of depth remains a challenging problem. Targetting view synthesis, we propose a novel learning-based framework making use of dilated convolution, densely connected convolutional modules, compact decoder and skip connections. The network is shallow but dense, so it is fast and accurate. Two additional contributions -a non-linear adjustment of the depth resolution and the introduction of a projection loss, lead to reduction of estimation error by up to 20% and 25% respectively. The results show that our network outperforms state-of-the-art methods with an average improvement in accuracy of depth estimation and view synthesis by approximately 45% and 34% respectively. Where our method generates comparable quality of estimated depth, it performs 10 times faster than those methods.
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