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Main Authors: Belkhiter, Yannis, Tirupathi, Seshu, Zizzo, Giulio, Kelleher, John D.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.14332
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author Belkhiter, Yannis
Tirupathi, Seshu
Zizzo, Giulio
Kelleher, John D.
author_facet Belkhiter, Yannis
Tirupathi, Seshu
Zizzo, Giulio
Kelleher, John D.
contents The field of Language Reasoning Models (LRMs) has been very active over the past few years with advances in training and inference techniques enabling LRMs to reason longer, and more accurately. However, a growing body of studies show that LRMs are still inefficient, over-generating verification and reflection steps. To address this challenge, we introduce the Step-Tagging framework, a lightweight sentence-classifier enabling real-time annotation of the type of reasoning steps that an LRM is generating. To monitor reasoning behaviors, we introduced ReasonType: a novel taxonomy of reasoning steps. Building on this framework, we demonstrated that online monitoring of the count of specific steps can produce effective interpretable early stopping criteria of LRM inferences. We evaluate the Step-tagging framework on three open-source reasoning models across standard benchmark datasets: MATH500, GSM8K, AIME and non-mathematical tasks (GPQA and MMLU-Pro). We achieve 20 to 50\% token reduction while maintaining comparable accuracy to standard generation, with largest gains observed on more computation-heavy tasks. This work offers a novel way to increase control over the generation of LRMs, and a new tool to study behaviors of LRMs.
format Preprint
id arxiv_https___arxiv_org_abs_2512_14332
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Step-Tagging: Toward controlling the generation of Language Reasoning Models through step monitoring
Belkhiter, Yannis
Tirupathi, Seshu
Zizzo, Giulio
Kelleher, John D.
Computation and Language
Artificial Intelligence
The field of Language Reasoning Models (LRMs) has been very active over the past few years with advances in training and inference techniques enabling LRMs to reason longer, and more accurately. However, a growing body of studies show that LRMs are still inefficient, over-generating verification and reflection steps. To address this challenge, we introduce the Step-Tagging framework, a lightweight sentence-classifier enabling real-time annotation of the type of reasoning steps that an LRM is generating. To monitor reasoning behaviors, we introduced ReasonType: a novel taxonomy of reasoning steps. Building on this framework, we demonstrated that online monitoring of the count of specific steps can produce effective interpretable early stopping criteria of LRM inferences. We evaluate the Step-tagging framework on three open-source reasoning models across standard benchmark datasets: MATH500, GSM8K, AIME and non-mathematical tasks (GPQA and MMLU-Pro). We achieve 20 to 50\% token reduction while maintaining comparable accuracy to standard generation, with largest gains observed on more computation-heavy tasks. This work offers a novel way to increase control over the generation of LRMs, and a new tool to study behaviors of LRMs.
title Step-Tagging: Toward controlling the generation of Language Reasoning Models through step monitoring
topic Computation and Language
Artificial Intelligence
url https://arxiv.org/abs/2512.14332