English

Probabilistic Verification for Modular Network-on-Chip Systems (extended version)

Logic in Computer Science 2025-11-19 v1

Abstract

Quantitative verification can provide deep insights into reliable Network-On-Chip (NoC) designs. It is critical to understanding and mitigating operational issues caused by power supply noise (PSN) early in the design process: fluctuations in network traffic in modern NoC designs cause dramatic variations in power delivery across the network, leading to unreliability and errors in data transfers. Further complicating these challenges, NoC designs vary widely in size, usage, and implementation. This case study paper presents a principled, systematic, and modular NoC modeling approach using the Modest language that closely reflects the standard hierarchical design approach in digital systems. Using the Modest Toolset, functional and quantitative correctness was established for several NoC models, all of which were instantiated from a generic modular router model. Specifically, this work verifies the functional correctness of a generic router, inter-router communication, and the entire NoC. Statistical model checking was used to verify PSN-related properties for NoCs of size up to 8x8.

Keywords

Cite

@article{arxiv.2511.13890,
  title  = {Probabilistic Verification for Modular Network-on-Chip Systems (extended version)},
  author = {Nick Waddoups and Jonah Boe and Arnd Hartmanns and Prabal Basu and Sanghamitra Roy and Koushik Chakraborty and Zhen Zhang},
  journal= {arXiv preprint arXiv:2511.13890},
  year   = {2025}
}

Comments

This is the full version of the paper published at VMCAI 2026

R2 v1 2026-07-01T07:42:11.883Z