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2017
Conference Paper
Titel
Securing FPGA SoC configurations independent of their manufacturers
Abstract
System-on-Chips which include FPGAs are important platforms for critical applications since they provide significant software performance through multi-core CPUs as well as high versatility through integrated FPGAs. Those integrated FP-GAs allow to update the programmable hardware functionality, e.g. to include new communication interfaces or to update cryptographic accelerators during the life-time of devices. Updating software as well as hardware configuration is required for critical applications such as e.g. industrial control devices or vehicles with long life-times. Such updates must be authenticated and possibly encrypted. One way to achieve this is to rely on static FPGA manufacturer-provided cryptography and respective master keys. However, in this contribution, we show how to retrofit Xilinx Zynq FPGAs with an alternative cryptographic accelerator and how to establish device-individual keys using Physical Unclonable Function (PUF) technology. These two key aspects reduce the required trust in manufacturer-provided security features while increasing the security by binding configurations to a specific device.