Results 81 to 90 of about 2,583,949 (369)
Pseudo-Boolean Logic Circuits [PDF]
IEEE Transactions on Computers, 1986 Summary: A new class of switch-level logic circuits intended for modeling digital MOS VLSI circuits is presented. These circuits, which are called pseudo-Boolean, are composed of a single (voltage) source, connectors, switches, attenuators, and wells. The latter two devices are digital versions of resistors and capacitors, respectively, and may assume ...
openaire +2 more sources
Advanced Functional Materials, EarlyView.A large number of MoS2 flakes were screened to obtain high‐quality flakes based on optical intensities in R, G, and B channel images. The flakes were classified from Level 1 to 6 based on optical intensities in the R, G, and B channel images. Low‐quality flake exhibited wrinkled, folded, or overlapped features, while high‐quality displayed a neat ...
Sanghyun Lee +11 more
wiley +1 more source
Device-Circuit Level Simulation Study of Three Inputs Complex Logic Gate Designed Using Nano-MOSFETs
Applications of Modelling and Simulation, 2019 Simulation study on silicon-based nano-MOSFETs logic circuits is needed to add more knowledge on the nanoscale circuit performance. Therefore, in this paper, simulation study is carried out on three inputs complex logic gate transistor circuits with four
Ooi Chek Yee
doaj
Omnipolar Magnetic Field Detection by Superlattice‐Based Hall Sensor
Advanced Functional Materials, EarlyView.Magnetic‐field‐induced electronic switching is demonstrated in unit‐cell‐engineered La0.7Sr0.3MnO3–BiFeO3 superlattices. Distinct substrate terminations modify magnetic and transport properties. Hall resistance measurements show omnipolar, hysteretic anomalous Hall switching above the Curie temperature, arising from Fe─Mn interfacial exchange, enabling
Mark Huijben +6 more
wiley +1 more source
Controllable and reusable seesaw circuit based on nicking endonucleases
Journal of NanobiotechnologySeesaw circuits are essential for molecular computing and biosensing. However, a notable limitation of seesaw circuits lies in the irreversible depletion of components, precluding the attainment of system recovery and rendering nucleic acid circuits non ...
Yuheng Liao +5 more
doaj +1 more source
Advanced Functional Materials, EarlyView.Interphase chemistry governs the stability of multivalent metal batteries. We summarize state‐of‐the‐art developments in calcium and magnesium metal batteries by focusing on the correlation among electrolytes, interphase layers, and the electrochemical performance of corresponding metal anodes.
Huijun Lin +4 more
wiley +1 more source
In-depth Comparative Analysis of Reversible Gates for Designing Logic Circuits
, 2018 Reversible logic is expanding grounds with its applicability to various upcoming technologies and quantum computation. Numerous reversible gates has also been proposed for designing logic circuits apart of basic quantum controlled Toffoli and Fredkin ...
H. M. Gaur +2 more
semanticscholar +1 more source
Multi‐Scale Interface Engineering of MXenes for Multifunctional Sensory Systems
Advanced Functional Materials, EarlyView.MXenes, as two‐dimensional transition metal carbides and nitrides, demonstrate remarkable capabilities for multifunctional sensing applications. This review systematically examines multi‐scale interface engineering approaches that enhance sensing performance, enable diverse detection functionalities, and improve system‐level compatibility in MXene ...
Jiaying Liao, Sin‐Yi Pang, Jianhua Hao
wiley +1 more source
Quantum Gates to Implement the Reversible Logic Circuits
Ibn Al-Haitham Journal for Pure and Applied Sciences, 2017 Quantum gates which are represented by unitary matrices have potentials to implement the reversible logic circuits. M and M+ gates are two well-known quantum gates which are used to synthesize the reversible logic circuits.
Ali H. Khidhir
doaj
Efficient design of 15:4 counter using a novel 5:3 counter for high‐speed multiplication
IET Computers & Digital Techniques, 2021 This paper proposes an efficient approach to design high‐speed, accurate multipliers. The proposed multiplier design uses the proposed efficient 15:4 counter for the partial product reduction stage.
Hemanth Krishna L. +4 more
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