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Main Authors: Do, Nguyen, Ngo, Bach, Kashuv, Youval, Pham, Canh V., Tong, Hanghang, Thai, My T.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.17036
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author Do, Nguyen
Ngo, Bach
Kashuv, Youval
Pham, Canh V.
Tong, Hanghang
Thai, My T.
author_facet Do, Nguyen
Ngo, Bach
Kashuv, Youval
Pham, Canh V.
Tong, Hanghang
Thai, My T.
contents We study the Quality of Service Degradation (QoSD) problem, in which an adversary perturbs edge weights to degrade network performance. This setting arises in both network infrastructures and distributed ML systems, where communication quality, not just connectivity, determines functionality. While classical methods rely on combinatorial optimization, and recent ML approaches address only restricted linear variants with small-size networks, no prior model directly tackles the QoSD problem under nonlinear edge-weight functions. This work proposes \PIMMA, a self-reinforcing generative framework that synthesizes feasible solutions in latent space, to fill this gap. Our method includes three phases: (1) Forge: a Predictive Path-Stressing (PPS) algorithm that uses graph learning and approximation to produce feasible solutions with performance guarantee, (2) Morph: a new theoretically grounded training paradigm for Mixture of Conditional VAEs guided by an energy-based model to capture solution feature distributions, and (3) Refine: a reinforcement learning agent that explores this space to generate progressively near-optimal solutions using our designed differentiable reward function. Experiments on both synthetic and real-world networks show that our approach consistently outperforms classical and ML baselines, particularly in scenarios with nonlinear cost functions where traditional methods fail to generalize.
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spellingShingle Hephaestus: Mixture Generative Modeling with Energy Guidance for Large-scale QoS Degradation
Do, Nguyen
Ngo, Bach
Kashuv, Youval
Pham, Canh V.
Tong, Hanghang
Thai, My T.
Machine Learning
We study the Quality of Service Degradation (QoSD) problem, in which an adversary perturbs edge weights to degrade network performance. This setting arises in both network infrastructures and distributed ML systems, where communication quality, not just connectivity, determines functionality. While classical methods rely on combinatorial optimization, and recent ML approaches address only restricted linear variants with small-size networks, no prior model directly tackles the QoSD problem under nonlinear edge-weight functions. This work proposes \PIMMA, a self-reinforcing generative framework that synthesizes feasible solutions in latent space, to fill this gap. Our method includes three phases: (1) Forge: a Predictive Path-Stressing (PPS) algorithm that uses graph learning and approximation to produce feasible solutions with performance guarantee, (2) Morph: a new theoretically grounded training paradigm for Mixture of Conditional VAEs guided by an energy-based model to capture solution feature distributions, and (3) Refine: a reinforcement learning agent that explores this space to generate progressively near-optimal solutions using our designed differentiable reward function. Experiments on both synthetic and real-world networks show that our approach consistently outperforms classical and ML baselines, particularly in scenarios with nonlinear cost functions where traditional methods fail to generalize.
title Hephaestus: Mixture Generative Modeling with Energy Guidance for Large-scale QoS Degradation
topic Machine Learning
url https://arxiv.org/abs/2510.17036