Exploring eFPGA-based Redaction for IP Protection

Jitendra Bhandari; Abdul Khader Thalakkattu Moosa; Benjamin Tan; Christian Pilato; Ganesh Gore; Xifan Tang; Scott Temple; Pierre‐Emmanuel Gaillardon; Ramesh Karri

doi:10.1109/iccad51958.2021.9643548

Exploring eFPGA-based Redaction for IP Protection

Jitendra Bhandari(New York University), Abdul Khader Thalakkattu Moosa(New York University), Benjamin Tan(New York University), Christian Pilato(Politecnico di Milano), Ganesh Gore(University of Utah), Xifan Tang(University of Utah), Scott Temple(University of Utah), Pierre‐Emmanuel Gaillardon(University of Utah), Ramesh Karri(New York University)

Virtual Community of Pathological Anatomy (University of Castilla La Mancha)

January 1, 2021

10.1109/iccad51958.2021.9643548

Cited by 37Open Access

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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.

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