LAUSR

Security and cost efficiency are of utmost importance for embedded processors when it comes to limiting hardware resources in IoT applications. This brief presents a security reduced instruction set computer-five (RISC-V) specific instruction set extension (ISE) designed based on hardware-assisted orthogonal obfuscation for hardware security. The orthogonal obfuscation defines an architecture geared toward high-security processors that supports a Pay-Per-ISE function using a key management unit (KMU), thus capable of supporting the customization of the key for a user’s partially authorized ISE and controlling the unlocking of the specific ISE. The proposed security RISC-V test chip is fabricated in a 65-nm CMOS technology with a core area occupying about 0.739 mm2. The measured results demonstrate that our processor realizes the instruction set authorization function. The results show an average power of 52.8 mW at 1.2 V, a hardware overhead of <3% at 50 MHz, and a 30% improvement in security.