Proceedings ArticleDOI
Memristor-based arithmetic
K'andrea C. Bickerstaff,Earl E. Swartzlander +1 more
- pp 1173-1177
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TLDR
An overview of both analog and digital approaches offered in the literature for addition and multiplication will be described, and Memristor-based designs of an adder and a multiplier are presented.Abstract:
This paper describes strategies for performing arithmetic operations in memristor-based structures An overview of both analog and digital approaches offered in the literature for addition and multiplication will be described Memristor-based designs of an adder and a multiplier are presentedread more
Citations
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Memristors: Devices, Models, and Applications
Pinaki Mazumder,Rainer Waser +1 more
TL;DR: The memristor (memory + resistor) as discussed by the authors was proposed as the fourth basic circuit element by Leon Chua and Sung Mo Kang in 1971, and it has been shown to have a nonlinear resistance that can be memorized indefinitely by controlling flow of the electrical charge or the magnetic flux.
Journal ArticleDOI
MAD Gates—Memristor Logic Design Using Driver Circuitry
TL;DR: A new low-power gate design, i.e., memristors-as-drivers gates, is proposed, which overcomes each of these issues by combining sense circuitry with the IMPLY operation.
Journal ArticleDOI
Implication logic gates using spin-transfer-torque-operated magnetic tunnel junctions for intrinsic logic-in-memory
TL;DR: In this paper, a stateful logic circuit based on the common STT-MRAM architecture capable of performing material implication is presented. But the implementation of the logic functions is not discussed.
Journal ArticleDOI
Memristor-based voltage-controlled relaxation oscillators
TL;DR: A memristor-based voltage-controlled reactance-less oscillator VCO is introduced as an application for the proposed circuits which is nano-size and more efficient compared to the conventional VCOs.
References
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Journal ArticleDOI
The missing memristor found
TL;DR: It is shown, using a simple analytical example, that memristance arises naturally in nanoscale systems in which solid-state electronic and ionic transport are coupled under an external bias voltage.
Journal ArticleDOI
Memristor-The missing circuit element
TL;DR: In this article, the memristor is introduced as the fourth basic circuit element and an electromagnetic field interpretation of this relationship in terms of a quasi-static expansion of Maxwell's equations is presented.
Journal ArticleDOI
Nanoscale Memristor Device as Synapse in Neuromorphic Systems
TL;DR: A nanoscale silicon-based memristor device is experimentally demonstrated and it is shown that a hybrid system composed of complementary metal-oxide semiconductor neurons and Memristor synapses can support important synaptic functions such as spike timing dependent plasticity.
Journal ArticleDOI
‘Memristive’ switches enable ‘stateful’ logic operations via material implication
Julien Borghetti,Gregory S. Snider,Philip J. Kuekes,Jianhua Yang,Duncan Stewart,Duncan Stewart,R. Stanley Williams +6 more
TL;DR: Bipolar voltage-actuated switches, a family of nonlinear dynamical memory devices, can execute material implication (IMP), which is a fundamental Boolean logic operation on two variables p and q such that pIMPq is equivalent to (NOTp)ORq.
Journal ArticleDOI
Memristor―CMOS Hybrid Integrated Circuits for Reconfigurable Logic
Qiangfei Xia,Warren Robinett,Cumbie Michael W,Neel Banerjee,Thomas J. Cardinali,Jianhua Yang,Wei Wu,Xuema Li,William M. Tong,Dmitri B. Strukov,Gregory S. Snider,Gilberto Medeiros-Ribeiro,R. Stanley Williams +12 more
TL;DR: Hybrid reconfigurable logic circuits were fabricated by integrating memristor-based crossbars onto a foundry-built CMOS (complementary metal-oxide-semiconductor) platform using nanoimprint lithography, as well as materials and processes that were compatible with the CMOS.