In-Context Learning of Temporal Point Processes with Foundation Inference Models

Modeling multi-type event sequences with marked temporal point processes (MTPPs) provides a principled framework for uncovering governing dynamical rules and predicting future events. Current neural approaches to MTPP inference typically require training separate, specialized models for each target system. We pursue a fundamentally different strategy: leveraging amortized inference and in-context learning, we pretrain a deep neural network to infer, in-context, the conditional intensity functions of event histories from a context consisting of sets of event sequences. Pretraining is performed on a large synthetic dataset of MTPPs sampled from a broad distribution over point processes. Once pretrained, our Foundation Inference Model for Point Processes (FIM-PP) can estimate MTPPs from real-world data without additional training, or be rapidly finetuned to specific target systems. Across common benchmark datasets, FIM-PP matches the performance of specialized models in zero-shot mode. After only a few finetuning iterations, FIM-PP further improves its predictions and outperforms competing methods on the majority of evaluated tasks.

  • Veröffentlicht in:
    The Fourteenth International Conference on Learning Representations
  • Typ:
    Inproceedings
  • Autoren:
    Berghaus, David; Seifner, Patrick; Cvejoski, Kostadin; Sanchez, Ramses
  • Jahr:
    2026
  • Source:
    https://openreview.net/forum?id=h9HwUAODFP

Informationen zur Zitierung

Berghaus, David; Seifner, Patrick; Cvejoski, Kostadin; Sanchez, Ramses: In-Context Learning of Temporal Point Processes with Foundation Inference Models, The Fourteenth International Conference on Learning Representations, 2026, May, https://openreview.net/forum?id=h9HwUAODFP, Berghaus.etal.2006a,

Assoziierte Lamarr-ForscherInnen

Ramsés Sánchez

Dr. Ramsés Sánchez

Scientific Coordinator Hybrides ML zum Profil
Photo. Portrait of David Berghaus.

Dr. David Berghaus

Postdoctoral Researcher NLP zum Profil