Jun‐Young Chung scite author profile

The existing machine translation systems, whether phrase-based or neural, have relied almost exclusively on word-level modelling with explicit segmentation. In this paper, we ask a fundamental question: can neural machine translation generate a character sequence without any explicit segmentation? To answer this question, we evaluate an attention-based encoderdecoder with a subword-level encoder and a character-level decoder on four language pairs-En-Cs, En-De, En-Ru and En-Fiusing the parallel corpora from WMT'15. Our experiments show that the models with a character-level decoder outperform the ones with a subword-level decoder on all of the four language pairs. Furthermore, the ensembles of neural models with a character-level decoder outperform the state-of-the-art non-neural machine translation systems on En-Cs, En-De and En-Fi and perform comparably on En-Ru.

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Competition-level code generation with AlphaCode

Choi

Chung

et al. 2022

Science

280

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Programming is a powerful and ubiquitous problem-solving tool. Systems that can assist programmers or even generate programs themselves could make programming more productive and accessible. Recent transformer-based neural network models show impressive code generation abilities yet still perform poorly on more complex tasks requiring problem-solving skills, such as competitive programming problems. Here, we introduce AlphaCode, a system for code generation that achieved an average ranking in the top 54.3% in simulated evaluations on recent programming competitions on the Codeforces platform. AlphaCode solves problems by generating millions of diverse programs using specially trained transformer-based networks and then filtering and clustering those programs to a maximum of just 10 submissions. This result marks the first time an artificial intelligence system has performed competitively in programming competitions.

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A Character-Level Decoder without Explicit Segmentation for Neural Machine Translation

Chung¹,

Cho²,

Bengio³

2016

Preprint

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An improved PSF mapping method for EPI distortion correction in human brain at ultra high field (7T)

Chung

et al. 2011

Magn Reson Mater Phy

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Jun‐Young Chung

Grandmaster level in StarCraft II using multi-agent reinforcement learning

A Character-level Decoder without Explicit Segmentation for Neural Machine Translation

Competition-level code generation with AlphaCode

A Character-Level Decoder without Explicit Segmentation for Neural Machine Translation

An improved PSF mapping method for EPI distortion correction in human brain at ultra high field (7T)

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