Efficient Verification of a RADAR SoC Using Formal and Simulation-Based Methods
Abstract
As the demand for Internet of Things (IoT) and Human-to-Machine Interaction (HMI) increases, modern System-on-Chips (SoCs) offering such solutions are becoming increasingly complex. This intricate design poses significant challenges for verification, particularly when time-to-market is a crucial factor for consumer electronics products. This paper presents a case study based on our work to verify a complex Radio Detection And Ranging (RADAR) based SoC that performs on-chip sensing of human motion with millimetre accuracy. We leverage both formal and simulation-based methods to complement each other and achieve verification sign-off with high confidence. While employing a requirements-driven flow approach, we demonstrate the use of different verification methods to cater to multiple requirements and highlight our know-how from the project. Additionally, we used Machine Learning (ML) based methods, specifically the Xcelium ML tool from Cadence, to improve verification throughput.
Cite
@article{arxiv.2404.15371,
title = {Efficient Verification of a RADAR SoC Using Formal and Simulation-Based Methods},
author = {Aman Kumar and Mark Litterick and Samuele Candido},
journal= {arXiv preprint arXiv:2404.15371},
year = {2024}
}
Comments
Published in DVCon Europe 2023