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arxiv:2410.02707

LLMs Know More Than They Show: On the Intrinsic Representation of LLM Hallucinations

Published on Oct 3
· Submitted by hadasor on Oct 8
#3 Paper of the day
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Abstract

Large language models (LLMs) often produce errors, including factual inaccuracies, biases, and reasoning failures, collectively referred to as "hallucinations". Recent studies have demonstrated that LLMs' internal states encode information regarding the truthfulness of their outputs, and that this information can be utilized to detect errors. In this work, we show that the internal representations of LLMs encode much more information about truthfulness than previously recognized. We first discover that the truthfulness information is concentrated in specific tokens, and leveraging this property significantly enhances error detection performance. Yet, we show that such error detectors fail to generalize across datasets, implying that -- contrary to prior claims -- truthfulness encoding is not universal but rather multifaceted. Next, we show that internal representations can also be used for predicting the types of errors the model is likely to make, facilitating the development of tailored mitigation strategies. Lastly, we reveal a discrepancy between LLMs' internal encoding and external behavior: they may encode the correct answer, yet consistently generate an incorrect one. Taken together, these insights deepen our understanding of LLM errors from the model's internal perspective, which can guide future research on enhancing error analysis and mitigation.

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edited Oct 8

Abstract

Large language models (LLMs) often produce errors, including factual inaccuracies, biases, and reasoning failures, collectively referred to as "hallucinations". Recent studies have demonstrated that LLMs' internal states encode information regarding the truthfulness of their outputs, and that this information can be utilized to detect errors. In this work, we show that the internal representations of LLMs encode much more information about truthfulness than previously recognized.

We first discover that the truthfulness information is concentrated in specific tokens, and leveraging this property significantly enhances error detection performance. Yet, we show that such error detectors fail to generalize across datasets, implying that–contrary to prior claims–the encoding of truthfulness in LLMs is not universal but rather complex and multifaceted.

Next, we show that internal representations can also be used for predicting the types of errors the model is likely to make, facilitating the development of tailored mitigation strategies.

Lastly, we reveal a discrepancy between LLMs' internal encoding and external behavior: they may encode the correct answer, yet consistently generate an incorrect one.

Taken together, these insights deepen our understanding of LLM errors from the model's internal perspective, which can guide future research on enhancing error analysis and mitigation.

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Will it be more reasonable if Figure 3(a) presents (absolute AUC - 0.5), as max(AUC, 1-AUC) can never be smaller than 0.5?
From my perspective, the closer this value is to 0.5, the worse generalization is. Am I right?

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Paper author

Thanks for your interest in the paper.
Yeah, that makes sense and we also tried that in one of the versions of this figure. However, because we wanted to simplify the visualization - especially when it's side-by-side with 3(b) which can be below 0.5, we kept the raw value while making the heatmap colors absolute white for 0.5.

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