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Learning to Recover from Multi-Modality Errors for Non-Autoregressive Neural Machine Translation

Qiu Ran, Yankai Lin, Peng Li, Jie Zhou

202040 citationsDOIOpen Access PDF

Abstract

Non-autoregressive neural machine translation (NAT) predicts the entire target sequence simultaneously and significantly accelerates inference process. However, NAT discards the dependency information in a sentence, and thus inevitably suffers from the multi-modality problem: the target tokens may be provided by different possible translations, often causing token repetitions or missing. To alleviate this problem, we propose a novel semi-autoregressive model RecoverSAT in this work, which generates a translation as a sequence of segments. The segments are generated simultaneously while each segment is predicted token-by-token. By dynamically determining segment length and deleting repetitive segments, RecoverSAT is capable of recovering from repetitive and missing token errors. Experimental results on three widely-used benchmark datasets show that our proposed model achieves more than 4 times speedup while maintaining comparable performance compared with the corresponding autoregressive model.

Topics & Concepts

Autoregressive modelSecurity tokenComputer scienceMachine translationInferenceBenchmark (surveying)Artificial intelligenceSequence (biology)Speech recognitionRecurrent neural networkSpeedupArtificial neural networkDependency (UML)Process (computing)Machine learningStatisticsMathematicsParallel computingGeneticsComputer securityBiologyOperating systemGeographyGeodesyNatural Language Processing TechniquesTopic ModelingMultimodal Machine Learning Applications
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