Large Transformer models routinely achieve state-of-the-art results on a number of tasks but training these models can be prohibitively costly, especially on long sequences. We introduce two techniques to improve the efficiency of Transformers. For one, we replace dot-product attention by one that uses locality-sensitive hashing, changing its complexity from O(L^2) to O(L\log L), where L is the length of the sequence. Furthermore, we use reversible residual layers instead of the standard residuals, which allows storing activations only once in the training process instead of N times, where N is the number of layers. The resulting model, the Reformer, performs on par with Transformer models while being much more memory-efficient and much faster on long sequences.
Reformer: The Efficient Transformer
Reformer improves Transformer efficiency by using locality-sensitive hashing for attention and reversible residual layers, enhancing memory usage and speed.
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- 2020
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- ICLR 2020 1
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- 3
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- arxiv.org/abs/2001.04451v2ARXIV-DEFAULT
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