邻接匹配：用无记忆随机优化控制微调流动和扩散生成模型

arXiv - STAT - Machine Learning Pub Date : 2024-09-13 DOI:arxiv-2409.08861

Carles Domingo-Enrich, Michal Drozdzal, Brian Karrer, Ricky T. Q. Chen

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引用次数: 0

摘要

通过迭代过程产生样本的动态生成模型，如流匹配模型和去噪扩散模型，已经得到了广泛应用，但还没有很多理论上合理的方法来通过奖励微调改进这些模型。在这项工作中，我们将奖励微调视为随机最优控制（SOC）。重要的是，我们证明了在微调过程中必须执行非常具体的无记忆噪声计划，以考虑噪声变量与生成样本之间的依赖关系。我们还提出了一种名为 "交点匹配"（Adjithmoint Matching）的新算法，通过将 SOC 问题视为回归问题，该算法优于现有的 SOC 算法。我们发现，与现有的奖励微调方法相比，我们的方法有了明显改善，实现了更好的一致性、真实性和对未知人类偏好奖励模型的泛化，同时保留了采样多样性。

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Adjoint Matching: Fine-tuning Flow and Diffusion Generative Models with Memoryless Stochastic Optimal Control

Dynamical generative models that produce samples through an iterative process, such as Flow Matching and denoising diffusion models, have seen widespread use, but there has not been many theoretically-sound methods for improving these models with reward fine-tuning. In this work, we cast reward fine-tuning as stochastic optimal control (SOC). Critically, we prove that a very specific memoryless noise schedule must be enforced during fine-tuning, in order to account for the dependency between the noise variable and the generated samples. We also propose a new algorithm named Adjoint Matching which outperforms existing SOC algorithms, by casting SOC problems as a regression problem. We find that our approach significantly improves over existing methods for reward fine-tuning, achieving better consistency, realism, and generalization to unseen human preference reward models, while retaining sample diversity.

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arXiv - STAT - Machine Learning

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