Weight-of-Thought Reasoning: Exploring Neural Network Weights for Enhanced LLM Reasoning

Large language models (LLMs) have demonstrated remarkable reasoning capabilities when prompted with strategies such as Chain-of-Thought (CoT). However, these approaches focus on token-level output without considering internal weight dynamics. We introduce Weight-of-Thought (WoT) reasoning, a novel approach that examines neural network weights before inference to identify reasoning pathways. Unlike existing methods, WoT explores the weight space through graph-based message passing, multi-step reasoning processes, and attention mechanisms. Our implementation creates an interconnected graph of reasoning nodes. Experiments on diverse reasoning tasks (syllogistic, mathematical, algebraic, combinatorial, and geometric) demonstrate that WoT achieves superior performance compared to traditional methods, particularly for complex problems. This approach leads to both improved performance and greater interpretability of the reasoning process, offering a promising direction for enhancing LLM reasoning capabilities.

@article{punjwani2025_2504.10646,
  title={ Weight-of-Thought Reasoning: Exploring Neural Network Weights for Enhanced LLM Reasoning },
  author={ Saif Punjwani and Larry Heck },
  journal={arXiv preprint arXiv:2504.10646},
  year={ 2025 }
}