SparseCoder: Advancing Source Code Analysis with Sparse Attention and Learned Token Pruning
October 11, 2023 Β· Declared Dead Β· π Empirical Software Engineering
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Authors
Xueqi Yang, Mariusz Jakubowski, Li Kang, Haojie Yu, Tim Menzies
arXiv ID
2310.07109
Category
cs.SE: Software Engineering
Citations
7
Venue
Empirical Software Engineering
Last Checked
4 months ago
Abstract
As software projects rapidly evolve, software artifacts become more complex and defects behind get harder to identify. The emerging Transformer-based approaches, though achieving remarkable performance, struggle with long code sequences due to their self-attention mechanism, which scales quadratically with the sequence length. This paper introduces SparseCoder, an innovative approach incorporating sparse attention and learned token pruning (LTP) method (adapted from natural language processing) to address this limitation. Compared to previous state-of-the-art models CodeBERT, RoBERTa, and CodeT5, our experiments demonstrate that SparseCoder can handle significantly longer input sequences--at least twice as long, within the limits of our hardware resources and data statistics. Additionally, SparseCoder is four times faster than other methods measured in runtime, achieving a 50% reduction in floating point operations per second (FLOPs) with a negligible performance drop of less than 1% compared to Transformers using sparse attention (Sparse Atten). Plotting FLOPs of model inference against token lengths reveals that SparseCoder scales linearly, whereas other methods, including the current state-of-the-art model CodeT5, scale quadratically. Moreover, SparseCoder enhances interpretability by visualizing non-trivial tokens layer-wise.
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