Results 311 to 320 of about 353,409 (337)
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Optics Letters, 1996
We present numerical simulations of a logic gate based on repulsive interaction in a dual-core fiber and call it a soliton-repulsion logic gate (SRLG). The operation of the SRLG is compared with that of the conventional soliton-dragging logic gate based on cross-phase modulation.
Richard L. Fork +2 more
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We present numerical simulations of a logic gate based on repulsive interaction in a dual-core fiber and call it a soliton-repulsion logic gate (SRLG). The operation of the SRLG is compared with that of the conventional soliton-dragging logic gate based on cross-phase modulation.
Richard L. Fork +2 more
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Boolean Logics and Logic Gates
2017This chapter presents basic logic gates, Boolean algebra theorem for simplifying Boolean function, and integrated circuit classification such as SSI, MSI, LSI, and VLSI.
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Fluorescence for biological logic gates
Journal of Biophotonics, 2020AbstractBiological logic gates are smart probes able to respond to biological conditions in behaviors similar to computer logic gates, and they pose a promising challenge for modern medicine. Researchers are creating many kinds of smart nanostructures that can respond to various biological parameters such as pH, ion presence, and enzyme activity.
Eran A. Barnoy +2 more
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Reconfigurable Skyrmion Logic Gates
Nano Letters, 2018Magnetic skyrmion, a nanosized spin texture with topological property, has become an area of significant interest due to the scientific insight that it can provide and also its potential impact on applications such as ultra-low-energy and ultra-high-density logic gates.
Long You +8 more
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Microfluidic logic gates and timers
Lab on a Chip, 2007We use surface tension-based passive pumping and fluidic resistance to create a number of microfluidic analogs to electronic circuit components. Three classes of components are demonstrated: (1) OR/AND, NOR/NAND, and XNOR digital microfluidic logic gates; (2) programmable, autonomous timers; and (3) slow, perfusive flow rheostats. The components can be
Vinay V. Abhyankar +2 more
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Logic gates for entropic transport
Physical Review E, 2012We consider a Brownian particle that is confined in a two-dimensional enclosure and driven by a combination of input signals. It has been shown that the logic gates can be formed by considering the state of the particle experiencing an entropic barrier as the output signal.
Debasish Mondal +2 more
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2017
In this chapter, we will study the fundamental physical properties of logic gates. We will do so by studying a single type of logic gate: the CMOS inverter. We will consider the performance, energy consumption, and reliability of inverters. We will also study the scaling of inverter characteristics with device size.
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In this chapter, we will study the fundamental physical properties of logic gates. We will do so by studying a single type of logic gate: the CMOS inverter. We will consider the performance, energy consumption, and reliability of inverters. We will also study the scaling of inverter characteristics with device size.
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IEEE Transactions on Nanotechnology, 2018
Graphene is a biocompatible material that can be incorporated safely into living tissue. This property makes graphene an ideal material for bioelectronics applications. The main obstacle for using graphene as a material for bioelectronic circuits is the lack of a bandgap, which results in noneffective current switching.
Savvas Moysidis +2 more
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Graphene is a biocompatible material that can be incorporated safely into living tissue. This property makes graphene an ideal material for bioelectronics applications. The main obstacle for using graphene as a material for bioelectronic circuits is the lack of a bandgap, which results in noneffective current switching.
Savvas Moysidis +2 more
openaire +2 more sources
2018
There are numerous approaches to implementing logic with memristors. The most popularized approach is the IMPLY operation, most commonly known from HP Labs' groundbreaking study. However, since this study, numerous other approaches have been proposed, which offer differing properties and trade-offs.
Earl E. Swartzlander, Lauren Guckert
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There are numerous approaches to implementing logic with memristors. The most popularized approach is the IMPLY operation, most commonly known from HP Labs' groundbreaking study. However, since this study, numerous other approaches have been proposed, which offer differing properties and trade-offs.
Earl E. Swartzlander, Lauren Guckert
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Latin America Optics and Photonics Conference, 2018
In this work we analyze in detail the influence of the parameters of a universal logic gate based on photonic crystals. We have verified a high tolerance against manufacturing and error of the order of 10% for the cylinder radius and lattice constant.
Vitaly F. Rodriguez-Esquerre +1 more
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In this work we analyze in detail the influence of the parameters of a universal logic gate based on photonic crystals. We have verified a high tolerance against manufacturing and error of the order of 10% for the cylinder radius and lattice constant.
Vitaly F. Rodriguez-Esquerre +1 more
openaire +2 more sources