Françoise Beaufays

Also published as: Francoise Beaufays


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Understanding Unintended Memorization in Language Models Under Federated Learning
Om Dipakbhai Thakkar | Swaroop Ramaswamy | Rajiv Mathews | Francoise Beaufays
Proceedings of the Third Workshop on Privacy in Natural Language Processing

Recent works have shown that language models (LMs), e.g., for next word prediction (NWP), have a tendency to memorize rare or unique sequences in the training data. Since useful LMs are often trained on sensitive data, it is critical to identify and mitigate such unintended memorization. Federated Learning (FL) has emerged as a novel framework for large-scale distributed learning tasks. It differs in many aspects from the well-studied central learning setting where all the data is stored at the central server, and minibatch stochastic gradient descent is used to conduct training. This work is motivated by our observation that NWP models trained under FL exhibited remarkably less propensity to such memorization compared to the central learning setting. Thus, we initiate a formal study to understand the effect of different components of FL on unintended memorization in trained NWP models. Our results show that several differing components of FL play an important role in reducing unintended memorization. First, we discover that the clustering of data according to users—which happens by design in FL—has the most significant effect in reducing such memorization. Using the Federated Averaging optimizer with larger effective minibatch sizes for training causes a further reduction. We also demonstrate that training in FL with a user-level differential privacy guarantee results in models that can provide high utility while being resilient to memorizing out-of-distribution phrases with thousands of insertions across over a hundred users in the training set.


Federated Learning of N-Gram Language Models
Mingqing Chen | Ananda Theertha Suresh | Rajiv Mathews | Adeline Wong | Cyril Allauzen | Françoise Beaufays | Michael Riley
Proceedings of the 23rd Conference on Computational Natural Language Learning (CoNLL)

We propose algorithms to train production-quality n-gram language models using federated learning. Federated learning is a distributed computation platform that can be used to train global models for portable devices such as smart phones. Federated learning is especially relevant for applications handling privacy-sensitive data, such as virtual keyboards, because training is performed without the users’ data ever leaving their devices. While the principles of federated learning are fairly generic, its methodology assumes that the underlying models are neural networks. However, virtual keyboards are typically powered by n-gram language models for latency reasons. We propose to train a recurrent neural network language model using the decentralized FederatedAveraging algorithm and to approximate this federated model server-side with an n-gram model that can be deployed to devices for fast inference. Our technical contributions include ways of handling large vocabularies, algorithms to correct capitalization errors in user data, and efficient finite state transducer algorithms to convert word language models to word-piece language models and vice versa. The n-gram language models trained with federated learning are compared to n-grams trained with traditional server-based algorithms using A/B tests on tens of millions of users of a virtual keyboard. Results are presented for two languages, American English and Brazilian Portuguese. This work demonstrates that high-quality n-gram language models can be trained directly on client mobile devices without sensitive training data ever leaving the devices.


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Transliterated Mobile Keyboard Input via Weighted Finite-State Transducers
Lars Hellsten | Brian Roark | Prasoon Goyal | Cyril Allauzen | Françoise Beaufays | Tom Ouyang | Michael Riley | David Rybach
Proceedings of the 13th International Conference on Finite State Methods and Natural Language Processing (FSMNLP 2017)