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Exploring Memory Characteristics in Large Language Models: Insights into the Interplay between Biological and Artificial Language Processing


Concepts de base
Large language models exhibit key characteristics of human memory, such as primacy and recency effects, the influence of elaborations, and forgetting through interference rather than decay. These similarities suggest that the properties of human biological memory are reflected in the statistical structure of textual narratives, which is then captured by the language models.
Résumé

The paper investigates the memory characteristics of large language models (LLMs) and compares them to key features of human memory. The authors find that LLMs, despite lacking dedicated memory subsystems, exhibit several human-like memory properties:

  1. Primacy and recency effects: LLMs show better recall for facts at the beginning and end of a list, similar to the U-shaped recall curve observed in human memory experiments.

  2. Influence of elaborations: Adding elaborations to some facts in the list improves the recall of those facts, even when the query does not directly involve the additional information.

  3. Forgetting through interference: Forgetting in LLMs is primarily driven by interference from new information, rather than memory decay over time.

  4. Benefit of repetitions: Repeating the list of facts, especially after a delay, improves the LLM's recall performance.

The authors argue that these similarities are more likely due to the statistical properties of the textual data used to train the LLMs, rather than being inherent to the neural network architecture. This suggests that the characteristics of human biological memory are reflected in the way we structure our textual narratives, which is then captured by the language models. The paper provides insights into the interplay between human language use and the underlying cognitive processes.

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Stats
Recall accuracy for a serial memory experiment with human subjects shows a U-shaped curve exhibiting primacy and recency effects. The Large Language Model GPT-J exhibits a similar U-shaped recall curve for a memorization experiment of a list of 20 facts. Recall accuracy for LLMs of the Pythia family decreases with model size, with the smallest model (Pythia-70m) lacking the recency effect. Introducing elaborations to some facts in the list improves the recall accuracy for those facts. Forgetting in LLMs is primarily driven by interference from new information, rather than memory decay over time. Repeating the list of facts, especially after a delay, improves the LLM's recall performance.
Citations
"The key result of this paper is that Large Language Models exhibit properties of memory qualitatively similar to the ones characteristic of humans (e.g. see Fig. 1 for an example of primacy and recency effects)." "The similarity of the characteristics of human biological memory to LLM's memory can be a-priori interpreted in two ways: 1) It might be due to the fact that the architectural features of LLMs somehow resemble the workings of human memory. 2) It might be due to the fact that we structure our narratives in a way compatible with the characteristics of our biological memory."

Idées clés tirées de

by Romuald A. J... à arxiv.org 04-09-2024

https://arxiv.org/pdf/2311.03839.pdf
Aspects of human memory and Large Language Models

Questions plus approfondies

What other cognitive or behavioral characteristics of humans might be reflected in the statistical structure of textual data and captured by language models?

In addition to memory properties, language models like GPT-J could potentially capture other cognitive or behavioral characteristics of humans. For example, the ability to make inferences, draw conclusions, and understand context could be reflected in the statistical structure of textual data. Human cognition involves not just the processing of individual words but also the comprehension of the overall meaning, which includes understanding nuances, implications, and subtleties in language. Language models that can generate coherent and contextually relevant text demonstrate an understanding of these cognitive processes. Furthermore, aspects of attention, focus, and relevance could also be embedded in the statistical patterns of language models. Humans naturally pay attention to certain details, filter out irrelevant information, and prioritize key elements in communication. Language models that can generate text with a logical flow and relevance to the context might be capturing these cognitive traits as well. Additionally, the emotional nuances, tone, and sentiment in human communication could also be reflected in the language models' ability to generate text that conveys emotions or attitudes.

How might the findings in this paper inform the design of more biologically-inspired artificial intelligence systems?

The findings in this paper shed light on how the statistical properties of textual data can mirror human memory characteristics in language models. To design more biologically-inspired artificial intelligence systems, researchers can leverage these insights to incorporate additional cognitive features beyond memory. By studying how language models like GPT-J exhibit primacy and recency effects, respond to elaborations, and demonstrate forgetting through interference, AI designers can enhance the cognitive capabilities of future systems. One approach could involve integrating mechanisms for attention, focus, and context awareness into AI models to mimic human-like cognitive processes. By developing AI systems that can prioritize information, make inferences, and understand the broader context of a conversation or text, we can move closer to creating more biologically-inspired artificial intelligence. Additionally, exploring how emotional intelligence and social cues can be embedded in AI systems could lead to more human-like interactions and responses.

Could the insights from this study be leveraged to better understand the evolution of human language and its relationship with our cognitive capabilities?

The insights from this study offer a unique perspective on the interplay between human cognitive abilities and the statistical structure of language captured by AI models. By examining how language models exhibit memory properties similar to humans, researchers can gain a deeper understanding of the cognitive underpinnings of language evolution. These insights could be leveraged to explore how cognitive processes such as memory, inference, and attention have influenced the development of human language over time. By studying how language models process and generate text based on statistical patterns in training data, we can draw parallels to how human language may have evolved to reflect cognitive capabilities like memory retention, information processing, and communication efficiency. This study opens up avenues for investigating the evolutionary roots of language and its intricate relationship with our cognitive capacities.
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