Design of VGSOT-MTJ-Based Logic Locking for High-Speed Digital Circuits

Divyanshu Divyanshu, Rajat Kumar, Danial Khan, Selma Amara, Yehia Massoud
2022 Electronics  
Emerging spintronics devices in recent research have received much interest in various fields. Their unique physical aspects are being explored to keep Moore's law alive. Therefore, the hardware security aspects of system-on-a-chip (SoC) designs using spintronics devices becomes important. Magnetic tunnel junctions (MTJ) are a potential candidate in spintronics-based devices for beyond-CMOS applications. This work uses voltage-gated spin-orbit torque-assisted magnetic tunnel junction
more » ... based on the Verilog-A behavioral model to design a possible logic-locking system for hardware security. Compared with the SOT MTJ, which uses a heavy metal strip below the MTJ stack, VGSOT-MTJ has an antiferromagnetic (AFM) strip that utilizes the voltage-controlled magnetic anisotropy (VCMA) effect to significantly reduce the JSOT,critical. To design the logic-locking block, we performed a Monte Carlo analysis to account for the effect of process variation (PV) on critical MTJ parameters. Eye diagram tests and mask designing were performed, which included the effect of thermal noise and PV for high-speed digital circuit operations. Finally, transient performance was analyzed to demonstrate the VGSOT-MTJ's ability to design logic-locking blocks from the circuit operation perspective.
doi:10.3390/electronics11213537 fatcat:rmvxitzxd5buhezlopy7n4hg3a