Memory security management for reconfigurable embedded systems

Abstract

The constrained operating environments of many FPGA-based embedded systems require flexible security that can be configured to minimize the impact on FPGA area and power consumption. In this paper, a security approach for external memory in FPGA-based embedded systems that exploits FPGA configurability is presented. Our FPGA-based security core provides both confidentiality and integrity for data stored externally to an FPGA which is accessed by a processor on the FPGA chip. The benefits of our security core are demonstrated using four embedded applications implemented on a Stratix II device. Each application requires a collection of tasks with varying memory security requirements. Our security core is used in conjunction with a NIOS II soft processor running the MicroC/OS II operating system. An average memory and energy savings of about 64%and 16%, respectively, is achieved for the four applications versus a non-configurable, uniform security approach.