TurnOPD: Making On-Policy Distillation Turn-Aware for Efficient Long-Horizon Agent Training
Abstract
Turn-level budgeting strategy for efficient on-policy distillation in long-horizon agent training addresses inefficiencies in full-horizon rollouts and shallow token concentration.
On-policy distillation (OPD) trains a student policy by matching a stronger teacher on the student's own trajectories, offering a promising framework for language agent training. However, its application to long-horizon agentic tasks remains insufficiently explored. We identify two key inefficiencies in vanilla agent OPD: (1) full-horizon rollouts often waste wall-clock resources on tail turns that provide weak and noisy KL supervision, and (2) trajectory-level KL objectives concentrate most of the loss on shallow tokens, leaving deeper decision turns under-trained once initial behaviors are aligned. To address these challenges, we propose TurnOPD, a turn-level budgeting strategy for efficient on-policy distillation of long-horizon agents. TurnOPD consists of two budget controllers: adaptive rollout-depth budgeting, which uses probe-based turn statistics to determine rollout length, and progressive turn-normalized loss budgeting, which gradually shifts KL weighting from token-level to turn-balanced supervision. Experiments on ALFWorld, WebShop, and Multi-Hop Search with task-specialized teacher models show that TurnOPD achieves superior validation accuracy under equal wall-clock training budgets and advances the accuracy--time frontier beyond vanilla OPD.
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TurnOPD studies on-policy distillation for long-horizon language agents and shows that vanilla OPD wastes compute on low-value tail turns while over-allocating KL loss to shallow early turns.
The paper introduces two turn-aware budget controllers: adaptive rollout-depth budgeting, which dynamically selects how many turns to collect, and progressive turn-normalized loss budgeting, which gradually balances KL supervision across turns. Experiments on ALFWorld, WebShop, and Multi-Hop Search show better accuracy-time trade-offs than vanilla OPD under the same wall-clock training budget.
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