FedSkel: Efficient Federated Learning on Heterogeneous Systems with Skeleton Gradients Update
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Federated learning aims to protect users' privacy while performing data analysis from different participants. However, it is challenging to guarantee the training efficiency on heterogeneous systems due to the various computational capabilities and communication bottlenecks. In this work, we propose FedSkel to enable computation-efficient and communication-efficient federated learning on edge devices by only updating the model's essential parts, named skeleton networks. FedSkel is evaluated on real edge devices with imbalanced datasets. Experimental results show that it could achieve up to 5.52× speedups for CONV layers' back-propagation, 1.82× speedups for the whole training process, and reduce 64.8 negligible accuracy loss.
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