Exploring eFPGA-based Redaction for IP Protection
Abstract
Recently, eFPGA-based redaction has been proposed as a promising solution for hiding parts of a digital design from untrusted entities, where legitimate end-users can restore functionality by loading the withheld bitstream after fabrication. However, when deciding which parts of a design to redact, there are a number of practical issues that designers need to consider, including area and timing overheads, as well as security factors. Adapting an open-source FPGA fabric generation flow, we perform a case study to explore the trade-offs when redacting different modules of open-source intellectual property blocks (IPs) and explore how different parts of an eFPGA contribute to the security. We provide new insights into the feasibility and challenges of using eFPGA-based redaction as a security solution.
Keywords
Cite
@article{arxiv.2110.13346,
title = {Exploring eFPGA-based Redaction for IP Protection},
author = {Jitendra Bhandari and Abdul Khader Thalakkattu Moosa and Benjamin Tan and Christian Pilato and Ganesh Gore and Xifan Tang and Scott Temple and Pierre-Emmanuel Gaillardon and Ramesh Karri},
journal= {arXiv preprint arXiv:2110.13346},
year = {2021}
}
Comments
Accepted to ICCAD 2021