Latent Agents: A Post-Training Procedure for Internalized Multi-Agent Debate

Researchers have developed a post-training procedure called Latent Agents that distills multi-agent debate into a single large language model, achieving comparable or superior reasoning performance while using up to 93% fewer tokens. The method creates interpretable agent-specific subspaces in the model's activation space, enabling precise control over internalized reasoning behaviors such as suppressing harmful perspectives with minimal performance loss. This framework offers a practical path to making multi-agent reasoning more efficient and controllable in deployed LLMs.

Computer Science Artificial Intelligence Submitted on 27 Apr 2026 Title:Latent Agents: A Post-Training Procedure for Internalized Multi-Agent Debate View PDF /pdf/2604.24881 HTML experimental https://arxiv.org/html/2604.24881v1 Abstract:Multi-agent debate has been shown to improve reasoning in large language models LLMs . However, it is compute-intensive, requiring generation of long transcripts before answering questions. To address this inefficiency, we develop a framework that distills multi-agent debate into a single LLM through a two-stage fine-tuning pipeline combining debate structure learning with internalization via dynamic reward scheduling and length clipping. Across multiple models and benchmarks, our internalized models match or exceed explicit multi-agent debate performance using up to 93% fewer tokens. We then investigate the mechanistic basis of this capability through activation steering, finding that internalization creates agent-specific subspaces: interpretable directions in activation space corresponding to different agent perspectives. We further demonstrate a practical application: by instilling malicious agents into the LLM through internalized debate, then applying negative steering to suppress them, we show that distillation makes harmful behaviors easier to localize and control with smaller reductions in general performance compared to steering base models. Our findings offer a new perspective for understanding multi-agent capabilities in distilled models and provide practical guidelines for controlling internalized reasoning behaviors. Code available at this https URL Submission history From: John Seon Keun Yi view email /show-email/addf55b8/2604.24881 v1 Mon, 27 Apr 2026 18:06:03 UTC 8,283 KB References & Citations Loading... Bibliographic and Citation Tools Bibliographic Explorer What is the Explorer? https://info.arxiv.org/labs/showcase.html arxiv-bibliographic-explorer Connected Papers What is Connected Papers? https://www.connectedpapers.com/about Litmaps What is Litmaps? https://www.litmaps.co/ scite Smart Citations What are Smart Citations? https://www.scite.ai/ Code, Data and Media Associated with this Article alphaXiv What is alphaXiv? https://alphaxiv.org/ CatalyzeX Code Finder for Papers What is CatalyzeX? https://www.catalyzex.com DagsHub What is DagsHub? https://dagshub.com/ Gotit.pub What is GotitPub? http://gotit.pub/faq Hugging Face What is Huggingface? https://huggingface.co/huggingface ScienceCast What is ScienceCast? https://sciencecast.org/welcome Demos Recommenders and Search Tools Influence Flower What are Influence Flowers? https://influencemap.cmlab.dev/ CORE Recommender What is CORE? https://core.ac.uk/services/recommender arXivLabs: experimental projects with community collaborators arXivLabs is a framework that allows collaborators to develop and share new arXiv features directly on our website. Both individuals and organizations that work with arXivLabs have embraced and accepted our values of openness, community, excellence, and user data privacy. arXiv is committed to these values and only works with partners that adhere to them. Have an idea for a project that will add value for arXiv's community? Learn more about arXivLabs https://info.arxiv.org/labs/index.html .