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arxiv: 2502.00217 · v1 · pith:DNC3O576new · submitted 2025-01-31 · 💻 cs.LG · cs.AI· cs.CV

Fantastic Multi-Task Gradient Updates and How to Find Them In a Cone

classification 💻 cs.LG cs.AIcs.CV
keywords gradientconicgradlearningtasksacrossbalancingcompetingcone
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Balancing competing objectives remains a fundamental challenge in multi-task learning (MTL), primarily due to conflicting gradients across individual tasks. A common solution relies on computing a dynamic gradient update vector that balances competing tasks as optimization progresses. Building on this idea, we propose ConicGrad, a principled, scalable, and robust MTL approach formulated as a constrained optimization problem. Our method introduces an angular constraint to dynamically regulate gradient update directions, confining them within a cone centered on the reference gradient of the overall objective. By balancing task-specific gradients without over-constraining their direction or magnitude, ConicGrad effectively resolves inter-task gradient conflicts. Moreover, our framework ensures computational efficiency and scalability to high-dimensional parameter spaces. We conduct extensive experiments on standard supervised learning and reinforcement learning MTL benchmarks, and demonstrate that ConicGrad achieves state-of-the-art performance across diverse tasks.

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