Deep Biaffine Attention for Neural Dependency Parsing

Add code
Mar 10, 2017
Timothy Dozat, Christopher D. Manning
Figure 1 for Deep Biaffine Attention for Neural Dependency Parsing
Figure 2 for Deep Biaffine Attention for Neural Dependency Parsing
Figure 3 for Deep Biaffine Attention for Neural Dependency Parsing
Figure 4 for Deep Biaffine Attention for Neural Dependency Parsing

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

This paper builds off recent work from Kiperwasser & Goldberg (2016) using neural attention in a simple graph-based dependency parser. We use a larger but more thoroughly regularized parser than other recent BiLSTM-based approaches, with biaffine classifiers to predict arcs and labels. Our parser gets state of the art or near state of the art performance on standard treebanks for six different languages, achieving 95.7% UAS and 94.1% LAS on the most popular English PTB dataset. This makes it the highest-performing graph-based parser on this benchmark---outperforming Kiperwasser Goldberg (2016) by 1.8% and 2.2%---and comparable to the highest performing transition-based parser (Kuncoro et al., 2016), which achieves 95.8% UAS and 94.6% LAS. We also show which hyperparameter choices had a significant effect on parsing accuracy, allowing us to achieve large gains over other graph-based approaches.

* Accepted to ICLR 2017; updated with new results and comparison to more recent models, including current state-of-the-art  
View paper onarxiv iconopen_review iconOpenReview

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon