Cyprien de Masson d’Autume


A Systematic Investigation of Commonsense Knowledge in Large Language Models
Xiang Lorraine Li | Adhiguna Kuncoro | Jordan Hoffmann | Cyprien de Masson d’Autume | Phil Blunsom | Aida Nematzadeh
Proceedings of the 2022 Conference on Empirical Methods in Natural Language Processing

Language models (LMs) trained on large amounts of data have shown impressive performance on many NLP tasks under the zero-shot and few-shot setup. Here we aim to better understand the extent to which such models learn commonsense knowledge — a critical component of many NLP applications. We conduct a systematic and rigorous zero-shot and few-shot commonsense evaluation of large pre-trained LMs, where we: (i) carefully control for the LMs’ ability to exploit potential surface cues and annotation artefacts, and (ii) account for variations in performance that arise from factors that are not related to commonsense knowledge. Our findings highlight the limitations of pre-trained LMs in acquiring commonsense knowledge without task-specific supervision; furthermore, using larger models or few-shot evaluation is insufficient to achieve human-level commonsense performance.


Adaptive Semiparametric Language Models
Dani Yogatama | Cyprien de Masson d’Autume | Lingpeng Kong
Transactions of the Association for Computational Linguistics, Volume 9

Abstract We present a language model that combines a large parametric neural network (i.e., a transformer) with a non-parametric episodic memory component in an integrated architecture. Our model uses extended short-term context by caching local hidden states—similar to transformer-XL—and global long-term memory by retrieving a set of nearest neighbor tokens at each timestep. We design a gating function to adaptively combine multiple information sources to make a prediction. This mechanism allows the model to use either local context, short-term memory, or long-term memory (or any combination of them) on an ad hoc basis depending on the context. Experiments on word-based and character-based language modeling datasets demonstrate the efficacy of our proposed method compared to strong baselines.