Fundamental Reasoning Paradigms Induce Out-of-Domain Generalization in Language Models
Abstract
Research investigates how fundamental reasoning paradigms influence large language model generalization through targeted training approaches and evaluation on real-world tasks.
Deduction, induction, and abduction are fundamental reasoning paradigms, core for human logical thinking. Although improving Large Language Model (LLM) reasoning has attracted significant research efforts, the extent to which the fundamental paradigms induce generalization has yet to be systematically explored. In this study, we shed light on how the interplay between these core paradigms influences LLMs' reasoning behavior. To this end, we first collect a new dataset of reasoning trajectories from symbolic tasks, each targeting one of the three fundamental paradigms, to abstract from concrete world knowledge. Then, we investigate effective ways for inducing these skills into LLMs. We experiment with a battery of methods including simple fine-tuning, and more complex approaches to increase model depth, or transform a dense model to a mixture-of-experts. We comprehensively evaluate induced models on realistic out-of-domain tasks, that are entirely formulated in natural language and contain real-world knowledge. Our results reveal that our approach yields strong generalizability with substantial performance gains (up to 14.60) across realistic tasks.
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- Goal: We investigated how the three core reasoning types—deduction, induction, and abduction—help Large Language Models (LLMs) generalize their thinking skills.
- Data: We collected a new dataset of reasoning trajectories from symbolic tasks to focus purely on logic, stripping away the distraction of real-world knowledge.
- Method: We tested various ways to induce these skills intoLLMs, ranging from simple fine-tuning to more advanced structural changes like Mixture-of-Experts (MoE).
- Result: Focusing on these fundamental paradigms led to significant performance boosts (up to 14.60 points) when the models were tested on real-world, natural language tasks they hadn't seen before.
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