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AdapterBias: Parameter-efficient Token-dependent Representation Shift for Adapters in NLP Tasks

Chin-Lun Fu, Zih-Ching Chen, Yun-Ru Lee, Hung-yi Lee

2022Findings of the Association for Computational Linguistics: NAACL 202235 citationsDOIOpen Access PDF

Abstract

Transformer-based pre-trained models with millions of parameters require large storage. Recent approaches tackle this shortcoming by training adapters, but these approaches still require a relatively large number of parameters. In this study, AdapterBias, a surprisingly simple yet effective adapter architecture, is proposed. AdapterBias adds a token-dependent shift to the hidden output of transformer layers to adapt to downstream tasks with only a vector and a linear layer. Extensive experiments are conducted to demonstrate the effectiveness of AdapterBias. The experiments show that our proposed method can dramatically reduce the trainable parameters compared to the previous works with a minimal decrease in task performances compared with fine-tuned pretrained models. We further find that Adapter-Bias automatically learns to assign more significant representation shifts to the tokens related to the task in consideration. 1

Topics & Concepts

Security tokenComputer scienceTransformerAdapter (computing)Artificial intelligenceTask (project management)Representation (politics)Speech recognitionPattern recognition (psychology)Machine learningVoltageComputer hardwareEngineeringPolitical sciencePoliticsSystems engineeringComputer securityElectrical engineeringLawTopic ModelingDomain Adaptation and Few-Shot LearningMachine Learning and Data Classification
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