As state-of-the-art neural networks scale to billions of parameters, designing parallel algorithms that can train these networks efficiently on multi-GPU clusters has become critical. This paper presents Tensor3D, a novel three-dimensional (3D) approach to parallelize tensor computations, that strives to minimize the idle time incurred due to communication in parallel training of large multi-billion parameter models. First, we introduce an intelligent distribution of neural network parameters across GPUs that eliminates communication required for satisfying data dependencies of individual layers. Then, we propose a novel overdecomposition of the parallel training process, using which we achieve significant overlap of communication with computation, thereby reducing GPU idle time. Finally, we present a communication model, which helps users identify communication optimal decompositions of available hardware resources for a given neural network. For a 28B parameter CNN on 256 A100 GPUs, Tensor3D improves the training time by nearly 60% as compared to Megatron-LM.
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