Currently achievable intellectual property (IP) protection solutions for field-programmable gate arrays (FPGAs) are limited to single large monolithic configurations. However, the ever growing capabilities of FPGAs and the consequential increasing complexity of their designs ask for a modular development model, where individual IP cores from multiple parties are integrated into a larger system. To enable such a model, the availability of IP protection at the modular level is imperative. In this work, we propose an IP protection mechanism for FPGA designs at the level of individual IP cores, by making use of the self-reconfiguring capabilities of modern FPGAs and deploying a trusted third party to run a metering service, similar to the work ...
Field Programmable Gate Arrays (FPGAs) are reconfigurable devices which have emerged as an interesti...
We introduce the first approach that can actively control multiple hardware intellectual property (I...
As the technology node scales down to 45nm and beyond, the significant increase in design complexity...
The modus operandi of the upfront intellectual property (IP) licensing model is impractical for the ...
© 2014, Springer-Verlag Berlin Heidelberg. In earlier published work, Maes et al. present a pay-per-...
With the popularity of modern FPGAs, the business of FPGA specific intellectual properties (IP) is e...
The configuration data sequence of a field programmable gate array (FPGA) is an intellectual propert...
Core-based design, which is widely used nowadays due to the high complexity of electronic systems, c...
International audienceIP protection is a recent field of research. If passive protection schemes, ma...
International audienceThis paper proposes two novel protection schemes for multi-FPGA systems provid...
International audienceIntellectual Property (IP) illegal copying is a major threat in today's integr...
Nowadays, the incorporation and constant evolution of communication networks in the electricity sect...
With the advancement of semiconductor processing technology, the capacity and versatility of an inte...
<p>Intellectual Property (IP) illegal copying is a major threat in today’s integrated circuits indus...
We introduce the first approach that can actively control multiple hardware intellectual property (I...
Field Programmable Gate Arrays (FPGAs) are reconfigurable devices which have emerged as an interesti...
We introduce the first approach that can actively control multiple hardware intellectual property (I...
As the technology node scales down to 45nm and beyond, the significant increase in design complexity...
The modus operandi of the upfront intellectual property (IP) licensing model is impractical for the ...
© 2014, Springer-Verlag Berlin Heidelberg. In earlier published work, Maes et al. present a pay-per-...
With the popularity of modern FPGAs, the business of FPGA specific intellectual properties (IP) is e...
The configuration data sequence of a field programmable gate array (FPGA) is an intellectual propert...
Core-based design, which is widely used nowadays due to the high complexity of electronic systems, c...
International audienceIP protection is a recent field of research. If passive protection schemes, ma...
International audienceThis paper proposes two novel protection schemes for multi-FPGA systems provid...
International audienceIntellectual Property (IP) illegal copying is a major threat in today's integr...
Nowadays, the incorporation and constant evolution of communication networks in the electricity sect...
With the advancement of semiconductor processing technology, the capacity and versatility of an inte...
<p>Intellectual Property (IP) illegal copying is a major threat in today’s integrated circuits indus...
We introduce the first approach that can actively control multiple hardware intellectual property (I...
Field Programmable Gate Arrays (FPGAs) are reconfigurable devices which have emerged as an interesti...
We introduce the first approach that can actively control multiple hardware intellectual property (I...
As the technology node scales down to 45nm and beyond, the significant increase in design complexity...