VSS SPU-EBP:变步长顺序部分更新误差反向传播算法

Journal of Advanced Computer Science and Technology Pub Date : 2014-02-28 DOI:10.14419/JACST.V3I1.1753

M. Rahmaninia

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引用次数: 0

摘要

在具有数十万个权值的MLP网络中，必须在数百万个样本上进行训练，其时间和空间复杂度会变得非常大，有时使用EBP算法训练网络可能不切实际。在实现过程中，顺序部分更新是减少计算量和功耗的有效方法。对于每一层都有大量权值的MLP网络来说，这种方法是非常有用的，因为在EBP算法的每一轮执行中，每个权值的更新都是昂贵的。虽然这个想法减少了每轮的计算成本和CPU时间，但有时可能会增加收敛所需的epoch数量，从而导致收敛时间的增加。也就是说，为了加快SPU−EBP算法的收敛速度，我们提出了一种可变步长(VSS)方法。在VSS SPU-EBP算法中，我们在SPU-EBP算法中使用基于梯度的学习率来加快训练算法的收敛速度。在此方法中，我们导出了SPU_EBP算法步长的上界。

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VSS SPU-EBP: Variable step size sequential partial update error back propagation algorithm

In MLP networks with hundreds of thousands of weights which must be trained on millions of samples, the time and space complexity may become greatly large and sometimes the training of network by EBP algorithm may be impractical. Sequential Partial Updating is an effective method to reduce computational load and power consumption in implementation. This new approach is very useful for the MLP networks with large number of weights in each layer that updating of each weight in each round of execution of EBP algorithm will be costly. Although this idea reduces computational cost and elapsed CPU time in each round but sometimes maybe increases number of epochs required to convergence and this leads to increase time of convergence. That is, to speed up more the convergence rate of the SPU−EBP algorithm, we propose a Variable Step Size (VSS) approach. In VSS SPU−EBP algorithm, we use a gradient based learning rate in SPU-EBP algorithm to speed up the convergence of training algorithm. In this method we derive an upper bound for the step size of SPU_EBP algorithm.

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Journal of Advanced Computer Science and Technology

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