2021
DOI: 10.3390/electronics10151842
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Serial RRAM Cell for Secure Bit Concealing

Abstract: Non-volatile memory cells are exposed to adversary attacks since any active countermeasure is useless when the device is powered off. In this context, this work proposes the association of two serial RRAM devices as a basic cell to store sensitive data, which could solve this bothersome problem. This cell has three states: ‘1’, ‘0’, and masked. When the system is powered off or the data is not used, the cell is set to the masked state, where the cell still stores a ‘1’ or a ‘0’ but a malicious adversary is not… Show more

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Cited by 4 publications
(1 citation statement)
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“…The methods deter attackers from gaining sensitive information on the PUFs and can alert the client of unauthorized access. Typical approaches often include burying sensitive circuitry beneath layers of metal interconnects and layout obfuscation (Liu et al, 2016), masking bits so that responses are physically hidden (bit concealing) (Yang et al, 2021), or tamper-proof envelopes (Garb et al, 2021) which typically need to be continuously powered. For example, in (Liu et al, 2016), the sense amplifiers (S/A), which read out the responses, are buried beneath the ReRAM array.…”
Section: Tamper-sensitive Resistive Randomaccess Memory-based Physica...mentioning
confidence: 99%
“…The methods deter attackers from gaining sensitive information on the PUFs and can alert the client of unauthorized access. Typical approaches often include burying sensitive circuitry beneath layers of metal interconnects and layout obfuscation (Liu et al, 2016), masking bits so that responses are physically hidden (bit concealing) (Yang et al, 2021), or tamper-proof envelopes (Garb et al, 2021) which typically need to be continuously powered. For example, in (Liu et al, 2016), the sense amplifiers (S/A), which read out the responses, are buried beneath the ReRAM array.…”
Section: Tamper-sensitive Resistive Randomaccess Memory-based Physica...mentioning
confidence: 99%