this post was submitted on 05 Oct 2023
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Machine Learning

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Machine learning (ML) is a field devoted to understanding and building methods that let machines "learn" โ€“ that is, methods that leverage data to improve computer performance on some set of tasks. Machine learning algorithms build a model based on sample data, known as training data, in order to make predictions or decisions without being explicitly programmed to do so. Machine learning algorithms are used in a wide variety of applications, such as in medicine, email filtering, speech recognition, agriculture, and computer vision, where it is difficult or unfeasible to develop conventional algorithms to perform the needed tasks.

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Language models generate responses by producing a series of tokens in immediate succession: the $(K+1)^{th}$ token is an outcome of manipulating $K$ hidden vectors per layer, one vector per preceding token. What if instead we were to let the model manipulate say, $K+10$ hidden vectors, before it outputs the $(K+1)^{th}$ token? We operationalize this idea by performing training and inference on language models with a (learnable) $\textit{pause}$ token, a sequence of which is appended to the input prefix. We then delay extracting the model's outputs until the last pause token is seen, thereby allowing the model to process extra computation before committing to an answer. We empirically evaluate $\textit{pause-training}$ on decoder-only models of 1B and 130M parameters with causal pretraining on C4, and on downstream tasks covering reasoning, question-answering, general understanding and fact recall. Our main finding is that inference-time delays show gains when the model is both pre-trained and finetuned with delays. For the 1B model, we witness gains on 8 of 9 tasks, most prominently, a gain of $18%$ EM score on the QA task of SQuAD, $8%$ on CommonSenseQA and $1%$ accuracy on the reasoning task of GSM8k. Our work raises a range of conceptual and practical future research questions on making delayed next-token prediction a widely applicable new paradigm.

interesting new paper exploring the addition of "pause" tokens for lms. it seems to imply that the computational capacity of lms is bounded by the number of tokens in its context, so simply adding "meaningless" tokens gives the model increased computational capacity leading to increased performance on downstream tasks

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[โ€“] KingsmanVince@kbin.social 1 points 1 year ago

IIRC DeTr generate a sequence to predict boxes of objects. I think this paradigm can be applied to such models. "Think before you locate" could be a new path to explore.