Think Deep, Think Fast: Investigating Efficiency of Verifier-free Inference-time-scaling Methods
There is intense interest in investigating how inference time compute (ITC) (e.g. repeated sampling, refinements, etc) can improve large language model (LLM) capabilities. At the same time, recent breakthroughs in reasoning models, such as Deepseek-R1, unlock the opportunity for reinforcement learning to improve LLM reasoning skills. An in-depth understanding of how ITC interacts with reasoning across different models could provide important guidance on how to further advance the LLM frontier. This work conducts a comprehensive analysis of inference-time scaling methods for both reasoning and non-reasoning models on challenging reasoning tasks. Specifically, we focus our research on verifier-free inference time-scaling methods due to its generalizability without needing a reward model. We construct the Pareto frontier of quality and efficiency. We find that non-reasoning models, even with an extremely high inference budget, still fall substantially behind reasoning models. For reasoning models, majority voting proves to be a robust inference strategy, generally competitive or outperforming other more sophisticated ITC methods like best-of-N and sequential revisions, while the additional inference compute offers minimal improvements. We further perform in-depth analyses of the association of key response features (length and linguistic markers) with response quality, with which we can improve the existing ITC methods. We find that correct responses from reasoning models are typically shorter and have fewer hedging and thinking markers (but more discourse markers) than the incorrect responses.
View on arXiv@article{wang2025_2504.14047,
title={ Think Deep, Think Fast: Investigating Efficiency of Verifier-free Inference-time-scaling Methods },
author={ Junlin Wang and Shang Zhu and Jon Saad-Falcon and Ben Athiwaratkun and Qingyang Wu and Jue Wang and Shuaiwen Leon Song and Ce Zhang and Bhuwan Dhingra and James Zou },
journal={arXiv preprint arXiv:2504.14047},
year={ 2025 }
}