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Batch Renormalization: Towards Reducing Minibatch Dependence in Batch-Normalized Models

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arxiv 1702.03275 v2 pith:G5SJVGFY submitted 2017-02-10 cs.LG

Batch Renormalization: Towards Reducing Minibatch Dependence in Batch-Normalized Models

classification cs.LG
keywords trainingbatchmodelsrenormalizationminibatchbatchnormdependenceeffective
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Batch Normalization is quite effective at accelerating and improving the training of deep models. However, its effectiveness diminishes when the training minibatches are small, or do not consist of independent samples. We hypothesize that this is due to the dependence of model layer inputs on all the examples in the minibatch, and different activations being produced between training and inference. We propose Batch Renormalization, a simple and effective extension to ensure that the training and inference models generate the same outputs that depend on individual examples rather than the entire minibatch. Models trained with Batch Renormalization perform substantially better than batchnorm when training with small or non-i.i.d. minibatches. At the same time, Batch Renormalization retains the benefits of batchnorm such as insensitivity to initialization and training efficiency.

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  1. Single-bit-per-weight deep convolutional neural networks without batch-normalization layers for embedded systems

    cs.LG 2019-07 unverdicted novelty 4.0

    Experiments show that shifted-ReLU layers can replace batch-normalization in single-bit-weight wide residual networks on CIFAR-10/100 and ImageNet without consistent accuracy penalty.