Research

Paper

Back to Papers Download PDF
AI LLM March 09, 2026

Fibration Policy Optimization

Authors

Chang Li, Tshihao Tsu, Yaren Zhang, Chao Xue, Xiaodong He

Abstract

Large language models are increasingly trained as heterogeneous systems spanning multiple domains, expert partitions, and agentic pipelines, yet prevalent proximal objectives operate at a single scale and lack a principled mechanism for coupling token-level, trajectory-level, and higher-level hierarchical stability control. To bridge this gap, we derive the Aggregational Policy Censoring Objective (APC-Obj), the first exact unconstrained reformulation of sample-based TV-TRPO, establishing that clipping-based surrogate design and trust-region optimization are dual formulations of the same problem. Building on this foundation, we develop Fiber Bundle Gating (FBG), an algebraic framework that organizes sampled RL data as a fiber bundle and decomposes ratio gating into a base-level gate on trajectory aggregates and a fiber-level gate on per-token residuals, with provable first-order agreement with the true RL objective near on-policy. From APC-Obj and FBG we derive Fibration Policy Optimization (or simply, FiberPO), a concrete objective whose Jacobian is block-diagonal over trajectories, reduces to identity at on-policy, and provides better update direction thus improving token efficiency. The compositional nature of the framework extends beyond the trajectory-token case: fibrations compose algebraically into a Fibration Gating Hierarchy (FGH) that scales the same gating mechanism to arbitrary hierarchical depth without new primitives, as demonstrated by FiberPO-Domain, a four-level instantiation with independent trust-region budgets at the domain, prompt group, trajectory, and token levels. Together, these results connect the trust-region theory, a compositional algebraic structure, and practical multi-scale stability control into a unified framework for LLM policy optimization.

Metadata

arXiv ID: 2603.08239
Provider: ARXIV
Primary Category: cs.LG
Published: 2026-03-09
Fetched: 2026-03-10 05:43

Related papers

Gen-Searcher: Reinforcing Agentic Search for Image Generation

Kaituo Feng, Manyuan Zhang, Shuang Chen, Yunlong Lin, Kaixuan Fan, Yilei Jian... • 2026-03-30

On-the-fly Repulsion in the Contextual Space for Rich Diversity in Diffusion Transformers

Omer Dahary, Benaya Koren, Daniel Garibi, Daniel Cohen-Or • 2026-03-30

Graphilosophy: Graph-Based Digital Humanities Computing with The Four Books

Minh-Thu Do, Quynh-Chau Le-Tran, Duc-Duy Nguyen-Mai, Thien-Trang Nguyen, Khan... • 2026-03-30

ParaSpeechCLAP: A Dual-Encoder Speech-Text Model for Rich Stylistic Language-Audio Pretraining

Anuj Diwan, Eunsol Choi, David Harwath • 2026-03-30

RAD-AI: Rethinking Architecture Documentation for AI-Augmented Ecosystems

Oliver Aleksander Larsen, Mahyar T. Moghaddam • 2026-03-30
Raw Data (Debug) 
{
  "raw_xml": "<entry>\n    <id>http://arxiv.org/abs/2603.08239v1</id>\n    <title>Fibration Policy Optimization</title>\n    <updated>2026-03-09T11:09:25Z</updated>\n    <link href='https://arxiv.org/abs/2603.08239v1' rel='alternate' type='text/html'/>\n    <link href='https://arxiv.org/pdf/2603.08239v1' rel='related' title='pdf' type='application/pdf'/>\n    <summary>Large language models are increasingly trained as heterogeneous systems spanning multiple domains, expert partitions, and agentic pipelines, yet prevalent proximal objectives operate at a single scale and lack a principled mechanism for coupling token-level, trajectory-level, and higher-level hierarchical stability control. To bridge this gap, we derive the Aggregational Policy Censoring Objective (APC-Obj), the first exact unconstrained reformulation of sample-based TV-TRPO, establishing that clipping-based surrogate design and trust-region optimization are dual formulations of the same problem. Building on this foundation, we develop Fiber Bundle Gating (FBG), an algebraic framework that organizes sampled RL data as a fiber bundle and decomposes ratio gating into a base-level gate on trajectory aggregates and a fiber-level gate on per-token residuals, with provable first-order agreement with the true RL objective near on-policy. From APC-Obj and FBG we derive Fibration Policy Optimization (or simply, FiberPO), a concrete objective whose Jacobian is block-diagonal over trajectories, reduces to identity at on-policy, and provides better update direction thus improving token efficiency. The compositional nature of the framework extends beyond the trajectory-token case: fibrations compose algebraically into a Fibration Gating Hierarchy (FGH) that scales the same gating mechanism to arbitrary hierarchical depth without new primitives, as demonstrated by FiberPO-Domain, a four-level instantiation with independent trust-region budgets at the domain, prompt group, trajectory, and token levels. Together, these results connect the trust-region theory, a compositional algebraic structure, and practical multi-scale stability control into a unified framework for LLM policy optimization.</summary>\n    <category scheme='http://arxiv.org/schemas/atom' term='cs.LG'/>\n    <category scheme='http://arxiv.org/schemas/atom' term='cs.AI'/>\n    <category scheme='http://arxiv.org/schemas/atom' term='cs.CL'/>\n    <published>2026-03-09T11:09:25Z</published>\n    <arxiv:primary_category term='cs.LG'/>\n    <author>\n      <name>Chang Li</name>\n    </author>\n    <author>\n      <name>Tshihao Tsu</name>\n    </author>\n    <author>\n      <name>Yaren Zhang</name>\n    </author>\n    <author>\n      <name>Chao Xue</name>\n    </author>\n    <author>\n      <name>Xiaodong He</name>\n    </author>\n  </entry>"
}