Hardware functional obfuscation with ferroelectric active interconnects
TL;DR: In this article , the authors proposed an efficient hardware encryption technique with minimal complexity and overheads based on ferroelectric field effect transistor (FeFET) active interconnects.
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Abstract: Existing circuit camouflaging techniques to prevent reverse engineering increase circuit-complexity with significant area, energy, and delay penalty. In this paper, we propose an efficient hardware encryption technique with minimal complexity and overheads based on ferroelectric field-effect transistor (FeFET) active interconnects. By utilizing the threshold voltage programmability of the FeFETs, run-time reconfigurable inverter-buffer logic, utilizing two FeFETs and an inverter, is enabled. Judicious placement of the proposed logic makes it act as a hardware encryption key and enable encoding and decoding of the functional output without affecting the critical path timing delay. Additionally, a peripheral programming scheme for reconfigurable logic by reusing the existing scan chain logic is proposed, obviating the need for specialized programming logic and circuitry for keybit distribution. Our analysis shows an average encryption probability of 97.43% with an increase of 2.24%/ 3.67% delay for the most critical path/ sum of 100 critical paths delay for ISCAS85 benchmarks.
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Citations
Hardware and Information Security Primitives Based on 2D Materials and Devices
Akshay Wali,Saptarshi Das +1 more
TL;DR: In this paper , a review of 2D materials-based hardware security solutions such as camouflaging, true random number generation, watermarking, anticounterfeiting, physically unclonable functions, and logic locking of integrated circuits (ICs) are summarized with accompanying discussion on their reliability and resilience to ML attacks.
25
Reconfigurable signal modulation in a ferroelectric tunnel field-effect transistor
TL;DR: In this paper , a single vertical nanowire ferroelectric tunnel field effect transistor (ferro-TFET) is demonstrated for signal modulation with diverse modes including signal transmission, phase shift, frequency doubling, and mixing with significant suppression of undesired harmonics for reconfigurable analogue applications.
Self-Destructive Microchip: Support-Free Energetic Film of BiOBr/Al/Bi2O3 Nanothermites and its Destructive Performance
Haifeng Yang,Zhiqiang Qiao,Weimiao Wang,Pengfei Tang,Shuaishuai Man,Xiaodong Li,Yuting Xie,De-Yun Tang,Xueming Li,Guangcheng Yang +9 more
TL;DR: In this paper , a self-destructive microchip based on an instantaneous thermite reaction is designed to prevent the leakage of electronic information, which is consisted of a silicon test wafer and an upper energetic film coated by a simple drop-casting technique.
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Powering Disturb-Free Reconfigurable Computing and Tunable Analog Electronics with Dual-Port Ferroelectric FET
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TL;DR: Dual-port FeFET eliminates read disturb and improves stability in high-threshold voltage state.
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Ferroelectric FET-based context-switching FPGA enabling dynamic reconfiguration for adaptive deep learning machines
17 Jan 2024
TL;DR: The proposed ferroelectric FET-based context-switching FPGA enables dynamic reconfiguration for adaptive deep learning machines, breaking the trade-off between area and latency.
References
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Asif Islam Khan,Ali Keshavarzi,Suman Datta +2 more
- 19 Oct 2020
TL;DR: In this article, the authors examine the potential of the ferroelectric field-effect transistor technologies in current embedded non-volatile memory applications and future in-memory, biomimetic and alternative computing models.
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Unveiling the ISCAS-85 benchmarks: a case study in reverse engineering
TL;DR: The authors show how they reverse-engineered the ISCAS-85 benchmarks to add a useful, new high-level tool to the designer's arsenal.
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Ferroelectric FET analog synapse for acceleration of deep neural network training
Matthew Jerry,Pai-Yu Chen,Jianchi Zhang,Pankaj Sharma,Kai Ni,Shimeng Yu,Suman Datta +6 more
- 01 Dec 2017
TL;DR: A transient Presiach model is developed that accurately predicts minor loop trajectories and remnant polarization charge for arbitrary pulse width, voltage, and history of FeFET synapses and reveals a 103 to 106 acceleration in online learning latency over multi-state RRAM based analog synapses.
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A FeFET based super-low-power ultra-fast embedded NVM technology for 22nm FDSOI and beyond
Stefan Dunkel,M. Trentzsch,Ralf Richter,P. Moll,C. Fuchs,O. Gehring,M. Majer,S. Wittek,B. Muller,Thomas Melde,Halid Mulaosmanovic,Stefan Slesazeck,Stefan Müller,J. Ocker,M. Noack,D. A. Lohr,P. Polakowski,Johannes Müller,Thomas Mikolajick,J. Hontschel,B. Rice,John Pellerin,Sven Beyer +22 more
- 01 Dec 2017
TL;DR: This work shows the implementation of a ferroelectric field effect transistor (FeFET) based eNVM solution into a leading edge 22nm FDSOI CMOS technology, a viable choice for overall low-cost and low-power IoT applications in 22nm and beyond technology nodes.
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Security analysis of integrated circuit camouflaging
Jeyavijayan Rajendran,Michael Sam,Ozgur Sinanoglu,Ramesh Karri +3 more
- 04 Nov 2013
TL;DR: The feasibility of identifying the functionality of camouflaged gates is analyzed and techniques to make the dummy contact-based IC camouflaging technique resilient to reverse engineering are proposed.
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