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1. Expanding Pretrained Models to Thousands More Languages via Lexicon-based Adaptation

   https://doi.org/10.18653/v1/2022.acl-long.61  

   Wang, Xinyi; Ruder, Sebastian; Neubig, Graham (January 2022, Proceedings of the 60th Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers))

   The performance of multilingual pretrained models is highly dependent on the availability of monolingual or parallel text present in a target language. Thus, the majority of the world’s languages cannot benefit from recent progress in NLP as they have no or limited textual data. To expand possibilities of using NLP technology in these under-represented languages, we systematically study strategies that relax the reliance on conventional language resources through the use of bilingual lexicons, an alternative resource with much better language coverage. We analyze different strategies to synthesize textual or labeled data using lexicons, and how this data can be combined with monolingual or parallel text when available. For 19 under-represented languages across 3 tasks, our methods lead to consistent improvements of up to 5 and 15 points with and without extra monolingual text respectively. Overall, our study highlights how NLP methods can be adapted to thousands more languages that are under-served by current technology. 

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2. Multi-Source Cross-Lingual Model Transfer: Learning What to Share

   Chen, Xilun; Hassan Awadallah, Ahmed; Hassan, Hany; Wang, Wei; Cardie, Claire (January 2019, Proceedings of the 57th Conference of the Association for Computational Linguistics (ACL))

   Modern NLP applications have enjoyed a great boost utilizing neural networks models. Such deep neural models, however, are not applicable to most human languages due to the lack of annotated training data for various NLP tasks. Cross-lingual transfer learning (CLTL) is a viable method for building NLP models for a low-resource target language by leveraging labeled data from other (source) languages. In this work, we focus on the multilingual transfer setting where training data in multiple source languages is leveraged to further boost target language performance. Unlike most existing methods that rely only on language-invariant features for CLTL, our approach coherently utilizes both language invariant and language-specific features at instance level. Our model leverages adversarial networks to learn language-invariant features, and mixture-of-experts models to dynamically exploit the similarity between the target language and each individual source language1. This enables our model to learn effectively what to share between various languages in the multilingual setup. Moreover, when coupled with unsupervised multilingual embeddings, our model can operate in a zero-resource setting where neither target language training data nor cross-lingual resources are available. Our model achieves significant performance gains over prior art, as shown in an extensive set of experiments over multiple text classification and sequence tagging. 

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3. MultiPL-E: A Scalable and Polyglot Approach to Benchmarking Neural Code Generation

   https://doi.org/10.1109/TSE.2023.3267446  

   Cassano, Federico; Gouwar, John; Nguyen, Daniel; Nguyen, Sydney; Phipps-Costin, Luna; Pinckney, Donald; Yee, Ming-Ho; Zi, Yangtian; Anderson, Carolyn Jane; Feldman, Molly Q; et al (April 2023, IEEE Transactions on Software Engineering)

   Michael Pradel (Ed.)

   Large language models have demonstrated the ability to generate both natural language and programming language text. Although contemporary code generation models are trained on corpora with several programming languages, they are tested using benchmarks that are typically monolingual. The most widely used code generation benchmarks only target Python, so there is little quantitative evidence of how code generation models perform on other programming languages. We propose MultiPL-E, a system for translating unit test-driven code generation benchmarks to new languages. We create the first massively multilingual code generation benchmark by using MultiPL-E to translate two popular Python code generation benchmarks to 18 additional programming languages. We use MultiPL-E to extend the HumanEval benchmark and MBPP benchmark to 18 languages that encompass a range of programming paradigms and popularity. Using these new parallel benchmarks, we evaluate the multi-language performance of three state-of-the-art code generation models: Codex, CodeGen and InCoder. We find that Codex matches or even exceeds its performance on Python for several other languages. The range of programming languages represented in MultiPL-E allow us to explore the impact of language frequency and language features on model performance. Finally, the MultiPL-E approach of compiling code generation benchmarks to new programming languages is both scalable and extensible, making it straightforward to evaluate new models, benchmarks, and languages. 

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4. Gender Bias in Multilingual Embeddings and Cross-Lingual Transfer

   https://doi.org/10.18653/v1/2020.acl-main.260  

   Zhao, Jieyu; Mukherjee, Subhabrata; Hosseini, saghar; Chang, Kai-Wei; Hassan Awadallah, Ahmed (January 2020, Proceedings of the 58th Annual Meeting of the Association for Computational Linguistics)

   Multilingual representations embed words from many languages into a single semantic space such that words with similar meanings are close to each other regardless of the language. These embeddings have been widely used in various settings, such as cross-lingual transfer, where a natural language processing (NLP) model trained on one language is deployed to another language. While the cross-lingual transfer techniques are powerful, they carry gender bias from the source to target languages. In this paper, we study gender bias in multilingual embeddings and how it affects transfer learning for NLP applications. We create a multilingual dataset for bias analysis and propose several ways for quantifying bias in multilingual representations from both the intrinsic and extrinsic perspectives. Experimental results show that the magnitude of bias in the multilingual representations changes differently when we align the embeddings to different target spaces and that the alignment direction can also have an influence on the bias in transfer learning. We further provide recommendations for using the multilingual word representations for downstream tasks. 

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5. Do All Languages Cost the Same? Tokenization in the Era of Commercial Language Models

   https://doi.org/10.18653/v1/2023.emnlp-main.614  

   Ahia, Orevaoghene; Kumar, Sachin; Gonen, Hila; Kasai, Jungo; Mortensen, David; Smith, Noah; Tsvetkov, Yulia (January 2023, Association for Computational Linguistics)

   Language models have graduated from being research prototypes to commercialized products offered as web APIs, and recent works have highlighted the multilingual capabilities of these products. The API vendors charge their users based on usage, more specifically on the number of {``}tokens{''} processed or generated by the underlying language models. What constitutes a token, however, is training data and model dependent with a large variance in the number of tokens required to convey the same information in different languages. In this work, we analyze the effect of this non-uniformity on the fairness of an API{'}s pricing policy across languages. We conduct a systematic analysis of the cost and utility of OpenAI{'}s language model API on multilingual benchmarks in 22 typologically diverse languages. We show evidence that speakers of a large number of the supported languages are overcharged while obtaining poorer results. These speakers tend to also come from regions where the APIs are less affordable, to begin with. Through these analyses, we aim to increase transparency around language model APIs{'} pricing policies and encourage the vendors to make them more equitable. 

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