Authors
Fan Xu, Wenjie Jiang
Published in
Scientific reports. Jul 14, 2026. Epub Jul 14, 2026.
Abstract
To address the challenges of heterogeneous multi-source data, inadequate collaborative modeling of temporal and topological features, and low efficiency in dual-task optimization in performance prediction and bottleneck localization for cloud-native microservice systems, this paper proposes a Multi-Modal and Multi-Scale Temporal Propagation model (M[Formula: see text]TP). The model achieves unified representation of logs, time-series metrics, and call-chain data through a Multi-modal Heterogeneous Embedding Module, simultaneously captures dynamic evolutionary patterns and service topological dependencies via a Temporal-Graph Joint Learning Module, and implements joint optimization of performance prediction and bottleneck localization using a Dual-Task Collaborative Decoding mechanism. Experiments on two public datasets, GAIA and PetShop, demonstrate that the M[Formula: see text]TP model achieves [Formula: see text] scores of 0.95 and 0.96 for performance prediction, F1 scores of 0.93 and 0.94 for bottleneck localization, and inference latencies as low as 7.1ms and 6.5ms, respectively, outperforming 8 baseline models including LSTM, Informer, and GAT. Ablation studies validate the effectiveness of each core component, and case studies confirm the model's capability in capturing performance fluctuations and identifying root-cause services accurately. The proposed model can effectively support cloud-native AIOps and provide a solid technical foundation for proactive monitoring and fault diagnosis of microservice systems.
PMID:
42449138
Bibliographic data and abstract were imported from PubMed on 15 Jul 2026.
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