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Fourier Position Embedding: Enhancing Attention's Periodic Extension for Length Generalization

New Fourier Position Embedding (FoPE) improves the frequency-domain properties of attention mechanisms, enhancing length generalization in language models compared to existing methods like Rotary Position Embedding (RoPE).

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Year
2024
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arXiv 2024
Authors
10
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arxiv.org/abs/2412.17739v3ARXIV-DEFAULT
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Abstract

Extending the context length of Language Models (LMs) by improving Rotary Position Embedding (RoPE) has become a trend. While existing works mainly address RoPE's limitations within attention mechanism, this paper provides an analysis across nearly all parts of LMs, uncovering their adverse effects on length generalization for RoPE-based attention. Using Discrete Signal Processing theory, we show that RoPE enables periodic attention by implicitly achieving Non-Uniform Discrete Fourier Transform. However, this periodicity is undermined by the spectral damage caused by: 1) linear layers and activation functions outside of attention; 2) insufficiently trained frequency components brought by time-domain truncation. Building on our observations, we propose Fourier Position Embedding (FoPE), which enhances attention's frequency-domain properties to improve both its periodic extension and length generalization. FoPE constructs Fourier Series and zero-outs the destructive frequency components, increasing model robustness against the spectrum damage. Experiments across various model scales and benchmarks show that, within varying context windows, FoPE maintains a more stable performance compared to RoPE and ALiBi. Several analyses and ablations bring further support to our method and theoretical modeling.

Authors

10