Sciweavers

TII
2010

A Flexible Design Flow for Software IP Binding in FPGA

13 years 7 months ago
A Flexible Design Flow for Software IP Binding in FPGA
Software intellectual property (SWIP) is a critical component of increasingly complex field programmable gate arrays (FPGA)-based system-on-chip (SOC) designs. As a result, developers want to ensure that their Software Intellectual Property (SWIP) is protected from being exposed to or tampered with by unauthorized parties. By restricting the execution of SWIP to a single trusted FPGA platform, SWIP binding addresses developers' concerns about maintaining control of their intellectual property and the market position it affords. This work proposes a novel design flow for SWIP binding on a commodity FPGA platform lacking specialized hardcore security facilities. We accomplish this by leveraging the qualities of a Physical Unclonable Function (PUF) and a tight integration of hardware and software security features. A prototype implementation demonstrates our design flow's ability to successfully protect software by encryption using a 128 bit FPGA-unique key extracted from a PUF....
Michael A. Gora, Abhranil Maiti, Patrick Schaumont
Added 22 May 2011
Updated 22 May 2011
Type Journal
Year 2010
Where TII
Authors Michael A. Gora, Abhranil Maiti, Patrick Schaumont
Comments (0)