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Foundation Time-Series AI Model for Realized Volatility Forecasting

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Listed:
  • Anubha Goel
  • Puneet Pasricha
  • Martin Magris
  • Juho Kanniainen

Abstract

Time series foundation models (FMs) have emerged as a popular paradigm for zero-shot multi-domain forecasting. These models are trained on numerous diverse datasets and claim to be effective forecasters across multiple different time series domains, including financial data. In this study, we evaluate the effectiveness of FMs, specifically the TimesFM model, for volatility forecasting, a core task in financial risk management. We first evaluate TimesFM in its pretrained (zero-shot) form, followed by our custom fine-tuning procedure based on incremental learning, and compare the resulting models against standard econometric benchmarks. While the pretrained model provides a reasonable baseline, our findings show that incremental fine-tuning, which allows the model to adapt to new financial return data over time, is essential for learning volatility patterns effectively. Fine-tuned variants not only improve forecast accuracy but also statistically outperform traditional models, as demonstrated through Diebold-Mariano and Giacomini-White tests. These results highlight the potential of foundation models as scalable and adaptive tools for financial forecasting-capable of delivering strong performance in dynamic market environments when paired with targeted fine-tuning strategies.

Suggested Citation

  • Anubha Goel & Puneet Pasricha & Martin Magris & Juho Kanniainen, 2025. "Foundation Time-Series AI Model for Realized Volatility Forecasting," Papers 2505.11163, arXiv.org.
    • Handle: RePEc:arx:papers:2505.11163
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    References listed on IDEAS

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    6. Ole E. Barndorff-Nielsen & Neil Shephard, 2002. "Estimating quadratic variation using realized variance," Journal of Applied Econometrics, John Wiley & Sons, Ltd., vol. 17(5), pages 457-477.
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