Breaking the Attention Bottleneck
This addresses a computational efficiency problem for deep learning practitioners, but appears incremental as it modifies an existing mechanism.
The paper tackles the quadratic complexity bottleneck in attention-based transformers by developing a generative function as an attention replacement, achieving a smaller loss with a smaller model in tests with nanoGPT.
Attention-based transformers have become the standard architecture in many deep learning fields, primarily due to their ability to model long-range dependencies and handle variable-length input sequences. However, the attention mechanism with its quadratic complexity is a significant bottleneck in the transformer architecture. This algorithm is only uni-directional in the decoder and converges to a static pattern in over-parametrized decoder-only models. I address this issue by developing a generative function as attention or activation replacement. It still has the auto-regressive character by comparing each token with the previous one. In my test setting with nanoGPT this yields a smaller loss while having a smaller model. The loss further drops by incorporating an average context vector. This concept of attention replacement is distributed under the GNU AGPL v3 license at https://gitlab.com/Bachstelze/causal_generation.