Jiaoda Li scite author profile

Jiaoda Li

5Publications

22Citation Statements Received

132Citation Statements Given

How they've been cited

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118

123

Affiliations

ETH Zurich, City University of Hong Kong

Publications

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Differentiable Subset Pruning of Transformer Heads

Cotterell

Sachan

2021

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Multi-head attention, a collection of several attention mechanisms that independently attend to different parts of the input, is the key ingredient in the Transformer. Recent work has shown, however, that a large proportion of the heads in a Transformer’s multi-head attention mechanism can be safely pruned away without significantly harming the performance of the model; such pruning leads to models that are noticeably smaller and faster in practice. Our work introduces a new head pruning technique that we term differentiable subset pruning. ntuitively, our method learns per- head importance variables and then enforces a user-specified hard constraint on the number of unpruned heads. he importance variables are learned via stochastic gradient descent. e conduct experiments on natural language inference and machine translation; we show that differentiable subset pruning performs comparably or better than previous works while offering precise control of the sparsity level.1

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Probing via Prompting

Li¹,

Cotterell²,

Sachan³

2022

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Probing is a popular method to discern what linguistic information is contained in the representations of pre-trained language models. However, the mechanism of selecting the probe model has recently been subject to intense debate, as it is not clear if the probes are merely extracting information or modeling the linguistic property themselves. To address this challenge, this paper introduces a novel model-free approach to probing, by formulating probing as a prompting task. We conduct experiments on five probing tasks and show that our approach is comparable or better at extracting information than diagnostic probes while learning much less on its own. We further combine the probing via prompting approach with attention head pruning to analyze where the model stores the linguistic information in its architecture. We then examine the usefulness of a specific linguistic property for pre-training by removing the heads that are essential to that property and evaluating the resulting model's performance on language modeling. https://github.com/rycolab/ probing-via-prompting

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Differentiable Subset Pruning of Transformer Heads

Cotterell

Sachan

2021

Preprint

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Multi-head attention, a collection of several attention mechanisms that independently attend to different parts of the input, is the key ingredient in the Transformer. Recent work has shown, however, that a large proportion of the heads in a Transformer's multi-head attention mechanism can be safely pruned away without significantly harming the performance of the model; such pruning leads to models that are noticeably smaller and faster in practice. Our work introduces a new head pruning technique that we term differentiable subset pruning. Intuitively, our method learns per-head importance variables and then enforces a user-specified hard constraint on the number of unpruned heads. The importance variables are learned via stochastic gradient descent. We conduct experiments on natural language inference and machine translation; we show that differentiable subset pruning performs comparably or better than previous works while offering precise control of the sparsity level.

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Vision Matters When It Should: Sanity Checking Multimodal Machine Translation Models

Ataman²,

Sennrich³

2021

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Multimodal machine translation (MMT) systems have been shown to outperform their textonly neural machine translation (NMT) counterparts when visual context is available. However, recent studies have also shown that the performance of MMT models is only marginally impacted when the associated image is replaced with an unrelated image or noise, which suggests that the visual context might not be exploited by the model at all. We hypothesize that this might be caused by the nature of the commonly used evaluation benchmark, also known as Multi30K, where the translations of image captions were prepared without actually showing the images to human translators. In this paper, we present a qualitative study that examines the role of datasets in stimulating the leverage of visual modality and we propose methods to highlight the importance of visual signals in the datasets which demonstrate improvements in reliance of models on the source images. Our findings suggest the research on effective MMT architectures is currently impaired by the lack of suitable datasets and careful consideration must be taken in creation of future MMT datasets, for which we also provide useful insights. 1

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Performance Study of Cooperative Non-orthogonal Multiple Access with Energy Harvesting

Sung

Chen

2019

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Non-Orthogonal Multiple Access (NOMA) is a candidate channel access technique for the future generation wireless communication systems. It exploits the power domain to enable simultaneous access for multiple users. In this paper, a NOMA system with a base station (BS) and two users is studied. A novel scheme where the near user (UE 1) harvests energy from the signals sent from BS and relays the previously decoded message of the far user (UE 2) is proposed. It includes two common energy harvesting schemes, namely, power splitting and time switching, as special cases. The performance is evaluated by the achievable data rate of UE 2 under different requirements on the data rate of UE 1. Numerical simulations and analysis reveal that when the channel conditions between BS and UE 1, and between UE 1 and UE 2 are good, while that between BS and UE 2 is bad, the proposed scheme works the best and has a significant gain over the conventional NOMA scheme without cooperation. In addition, for the sake of simplicity, the power splitting scheme can be used to replace the generalized scheme for energy extraction without jeopardizing the performance gain much.

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Jiaoda Li

Differentiable Subset Pruning of Transformer Heads

Probing via Prompting

Differentiable Subset Pruning of Transformer Heads

Vision Matters When It Should: Sanity Checking Multimodal Machine Translation Models

Performance Study of Cooperative Non-orthogonal Multiple Access with Energy Harvesting

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