This paper discusses attack vulnerabilities in Resistive Random Access Memory (ReRAM) devices that can be potentially triggered by Trojan circuits. Systematic experiments were performed on Ru/MgO/Ti/W based ReRAM devices in 1R and 1T1R configurations. Our observations indicate that vulnerabilities in ReRAM include destabilization of filament due to current overshoot, local heating, introduction of parasitic capacitances, and glitches in the source voltages. These studies are critical to design more robust ReRAM devices that are immune to hardware attacks.
Understanding vulnerabilities in ReRAM devices for trust in semiconductor designs
2017-06-01
307013 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Mit ReRAM und MRAM in eine schnellere Zukunft
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