Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs

Simranjeet Singh; Furqan Zahoor; Gokul Rajendran; Sachin Patkar; Anupam Chattopadhyay; Farhad Merchant

doi:10.1145/3566097.3568348

Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs

Simranjeet Singh
, Furqan Zahoor
, Gokul Rajendran
, Sachin Patkar
, Anupam Chattopadhyay
, Farhad Merchant

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

14 Scopus citations

Abstract

With rapid advancements in electronic gadgets, the security and privacy aspects of these devices are significant. For the design of secure systems, physical unclonable function (PUF) and true random number generator (TRNG) are critical hardware security primitives for security applications. This paper proposes novel implementations of PUF and TRNGs on the RRAM crossbar structure. Firstly, two techniques to implement the TRNG in the RRAM crossbar are presented based on write-back and 50% switching probability pulse. The randomness of the proposed TRNGs is evaluated using the NIST test suite. Next, an architecture to implement the PUF in the RRAM crossbar is presented. The initial entropy source for the PUF is used from TRNGs, and challenge-response pairs (CRPs) are collected. The proposed PUF exploits the device variations and sneak-path current to produce unique CRPs. We demonstrate, through extensive experiments, reliability of 100%, uniqueness of 47.78%, uniformity of 49.79%, and bit-aliasing of 48.57% without any post-processing techniques. Finally, the design is compared with the literature to evaluate its implementation efficiency, which is clearly found to be superior to the state-of-the-art.

Original language	English
Title of host publication	ASP-DAC 2023 - 28th Asia and South Pacific Design Automation Conference, Proceedings
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	449-454
Number of pages	6
ISBN (Electronic)	9781450397834
DOIs	https://doi.org/10.1145/3566097.3568348
State	Published - 16 Jan 2023
Externally published	Yes
Event	28th Asia and South Pacific Design Automation Conference, ASP-DAC 2023 - Tokyo, Japan Duration: 16 Jan 2023 → 19 Jan 2023

Publication series

Name	Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC

Conference

Conference	28th Asia and South Pacific Design Automation Conference, ASP-DAC 2023
Country/Territory	Japan
City	Tokyo
Period	16/01/23 → 19/01/23

Bibliographical note

Publisher Copyright:
© 2023 Copyright held by the owner/author(s).

Keywords

Hardware Security
Memristors
PUF
RRAM
TRNG

ASJC Scopus subject areas

Electrical and Electronic Engineering
Computer Science Applications
Computer Graphics and Computer-Aided Design

Access to Document

10.1145/3566097.3568348

Cite this

Singh, S., Zahoor, F., Rajendran, G., Patkar, S., Chattopadhyay, A., & Merchant, F. (2023). Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs. In ASP-DAC 2023 - 28th Asia and South Pacific Design Automation Conference, Proceedings (pp. 449-454). (Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1145/3566097.3568348

Singh, Simranjeet ; Zahoor, Furqan ; Rajendran, Gokul et al. / Hardware Security Primitives Using Passive RRAM Crossbar Array : Novel TRNG and PUF Designs. ASP-DAC 2023 - 28th Asia and South Pacific Design Automation Conference, Proceedings. Institute of Electrical and Electronics Engineers Inc., 2023. pp. 449-454 (Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC).

@inproceedings{137370eaf095458f9e7fc8993dbb46a2,

title = "Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs",

abstract = "With rapid advancements in electronic gadgets, the security and privacy aspects of these devices are significant. For the design of secure systems, physical unclonable function (PUF) and true random number generator (TRNG) are critical hardware security primitives for security applications. This paper proposes novel implementations of PUF and TRNGs on the RRAM crossbar structure. Firstly, two techniques to implement the TRNG in the RRAM crossbar are presented based on write-back and 50\% switching probability pulse. The randomness of the proposed TRNGs is evaluated using the NIST test suite. Next, an architecture to implement the PUF in the RRAM crossbar is presented. The initial entropy source for the PUF is used from TRNGs, and challenge-response pairs (CRPs) are collected. The proposed PUF exploits the device variations and sneak-path current to produce unique CRPs. We demonstrate, through extensive experiments, reliability of 100\%, uniqueness of 47.78\%, uniformity of 49.79\%, and bit-aliasing of 48.57\% without any post-processing techniques. Finally, the design is compared with the literature to evaluate its implementation efficiency, which is clearly found to be superior to the state-of-the-art.",

keywords = "Hardware Security, Memristors, PUF, RRAM, TRNG",

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Singh, S, Zahoor, F, Rajendran, G, Patkar, S, Chattopadhyay, A & Merchant, F 2023, Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs. in ASP-DAC 2023 - 28th Asia and South Pacific Design Automation Conference, Proceedings. Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC, Institute of Electrical and Electronics Engineers Inc., pp. 449-454, 28th Asia and South Pacific Design Automation Conference, ASP-DAC 2023, Tokyo, Japan, 16/01/23. https://doi.org/10.1145/3566097.3568348

Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs. / Singh, Simranjeet; Zahoor, Furqan; Rajendran, Gokul et al.
ASP-DAC 2023 - 28th Asia and South Pacific Design Automation Conference, Proceedings. Institute of Electrical and Electronics Engineers Inc., 2023. p. 449-454 (Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Patkar, Sachin

AU - Chattopadhyay, Anupam

AU - Merchant, Farhad

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N2 - With rapid advancements in electronic gadgets, the security and privacy aspects of these devices are significant. For the design of secure systems, physical unclonable function (PUF) and true random number generator (TRNG) are critical hardware security primitives for security applications. This paper proposes novel implementations of PUF and TRNGs on the RRAM crossbar structure. Firstly, two techniques to implement the TRNG in the RRAM crossbar are presented based on write-back and 50% switching probability pulse. The randomness of the proposed TRNGs is evaluated using the NIST test suite. Next, an architecture to implement the PUF in the RRAM crossbar is presented. The initial entropy source for the PUF is used from TRNGs, and challenge-response pairs (CRPs) are collected. The proposed PUF exploits the device variations and sneak-path current to produce unique CRPs. We demonstrate, through extensive experiments, reliability of 100%, uniqueness of 47.78%, uniformity of 49.79%, and bit-aliasing of 48.57% without any post-processing techniques. Finally, the design is compared with the literature to evaluate its implementation efficiency, which is clearly found to be superior to the state-of-the-art.

AB - With rapid advancements in electronic gadgets, the security and privacy aspects of these devices are significant. For the design of secure systems, physical unclonable function (PUF) and true random number generator (TRNG) are critical hardware security primitives for security applications. This paper proposes novel implementations of PUF and TRNGs on the RRAM crossbar structure. Firstly, two techniques to implement the TRNG in the RRAM crossbar are presented based on write-back and 50% switching probability pulse. The randomness of the proposed TRNGs is evaluated using the NIST test suite. Next, an architecture to implement the PUF in the RRAM crossbar is presented. The initial entropy source for the PUF is used from TRNGs, and challenge-response pairs (CRPs) are collected. The proposed PUF exploits the device variations and sneak-path current to produce unique CRPs. We demonstrate, through extensive experiments, reliability of 100%, uniqueness of 47.78%, uniformity of 49.79%, and bit-aliasing of 48.57% without any post-processing techniques. Finally, the design is compared with the literature to evaluate its implementation efficiency, which is clearly found to be superior to the state-of-the-art.

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M3 - Conference contribution

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T3 - Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC

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ER -

Singh S, Zahoor F, Rajendran G, Patkar S, Chattopadhyay A, Merchant F. Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs. In ASP-DAC 2023 - 28th Asia and South Pacific Design Automation Conference, Proceedings. Institute of Electrical and Electronics Engineers Inc. 2023. p. 449-454. (Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC). doi: 10.1145/3566097.3568348

Hardware Security Primitives Using Passive RRAM Crossbar Array: Novel TRNG and PUF Designs

Abstract

Publication series

Conference

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this