Search results for "Gate"

showing 10 items of 1811 documents

Novel high-performance QCA Fredkin gate and designing scalable QCA binary to gray and vice versa

2022

AbstractIn the design of digital logic circuits, QCA technology is an excellent alternative to CMOS technology. Its advantages over CMOS include low power consumption, fast circuit switching, and nanoscale design. Circuits that convert data between different formats are code converters. Code converters have an essential role in high-performance computing and signal processing. In this paper, first, we proposed a novel QCA structure for the quantum reversible Fredkin gate. Second, we proposed 4-bit and 8-bit QCA binary-to-gray converter and vice versa. For the second proposal, both reversible and irreversible structures are suggested. The proposed structures are scalable up to N bits. To cha…

QCA technologysignaalinkäsittelykvanttitietokoneetscalable designconservative gateFredkin gatekvanttilaskentaTheoretical Computer Scienceparity-preserving reversible gatedigital logic circuitsHardware and ArchitectureBinary to gray (B2G)Gray to binary (G2B)soluautomaatitquantum-dot cellular automataQCADesigner toolSoftwareInformation SystemsThe Journal of Supercomputing
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QR-Factorization Algorithm for Computed Tomography (CT): Comparison With FDK and Conjugate Gradient (CG) Algorithms

2018

[EN] Even though QR-factorization of the system matrix for tomographic devices has been already used for medical imaging, to date, no satisfactory solution has been found for solving large linear systems, such as those used in computed tomography (CT) (in the order of 106 equations). In CT, the Feldkamp, Davis, and Kress back projection algorithm (FDK) and iterative methods like conjugate gradient (CG) are the standard methods used for image reconstruction. As the image reconstruction problem can be modeled by a large linear system of equations, QR-factorization of the system matrix could be used to solve this system. Current advances in computer science enable the use of direct methods for…

QR-factorization algorithmComputer scienceIterative methodImage qualityLinear systemDavis and Kress (FDK)Iterative reconstruction3-D images reconstructionSystem of linear equationsAtomic and Molecular Physics and OpticsConjugate gradient (CG)FeldkampQR decompositionMatrix (mathematics)Conjugate gradient methodRadiology Nuclear Medicine and imagingMedical imagingMATEMATICA APLICADAInstrumentationAlgorithmComputed tomography (CT)Reconstruction algorithmsReconstruction toolkit (RTK)
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Quantum Computing with Trapped Charged Particles

2009

The concept of quantum computing has no clear cut origin. It emerged from combinations of information theory and quantum mechanical concepts. A decisive step was taken by Feynman [414, 415] who considered the possibility of universal simulation, a quantum system which could simulate the physical behavior of any other. Feynman gave arguments which suggested that quantum evolution could be used to compute certain problems more efficiently than any classical computer. His device may be considered as not sufficiently specified to be called a computer. The next important step was taken in 1985 by Deutsch [310]. His proposal is generally considered to represent the first blueprint for a quantum c…

Quantum gateTheoretical computer scienceControlled NOT gateComputer scienceCavity quantum electrodynamicsQuantum systemCoherent statesQuantumTrapped ion quantum computerQuantum computer
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Dynamic clock generator and memory mass device using a quantum ring driven by three-color laser fields

2021

We study the behaviour and applications of a quantum ring (QR) under a three-color laser field. In particular we study the emission of harmonics and their temporal evolution through wavelets. These results suggest the use of QR for three important applications: (1) generation of single short pulses, (2) creation of a variable clock generator, (3) a memory mass device through the angular momentum acquired by the electron.

Quantum information High Harmonic Generation Logic GatesPhysicsAngular momentumField (physics)business.industryGeneral Chemical Engineering02 engineering and technologyGeneral ChemistryElectron021001 nanoscience & nanotechnologyLaser01 natural scienceslaw.inventionWaveletOpticslawHarmonics0103 physical sciencesClock generator010306 general physics0210 nano-technologybusinessQuantumRSC Advances
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Colloquium: Trapped ions as quantum bits -- essential numerical tools

2009

Trapped, laser-cooled atoms and ions are quantum systems which can be experimentally controlled with an as yet unmatched degree of precision. Due to the control of the motion and the internal degrees of freedom, these quantum systems can be adequately described by a well known Hamiltonian. In this colloquium, we present powerful numerical tools for the optimization of the external control of the motional and internal states of trapped neutral atoms, explicitly applied to the case of trapped laser-cooled ions in a segmented ion-trap. We then delve into solving inverse problems, when optimizing trapping potentials for ions. Our presentation is complemented by a quantum mechanical treatment of…

Quantum opticsPhysicsCondensed Matter::Quantum GasesQuantum PhysicsFOS: Physical sciencesGeneral Physics and AstronomyQuantum simulator01 natural sciences010305 fluids & plasmasOpen quantum systemQuantum gateClassical mechanics0103 physical sciencesPersonal computerPhysics::Atomic PhysicsQuantum informationQuantum Physics (quant-ph)010306 general physicsWave functionTrapped ion quantum computer
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Quasideterministic realization of a universal quantum gate in a single scattering process

2012

We show that a flying particle, such as an electron or a photon, scattering along a one-dimensional waveguide from a pair of static spin-1/2 centers, such as quantum dots, can implement a CZ gate (universal for quantum computation) between them. This occurs quasi-deterministically in a single scattering event, hence with no need for any post-selection or iteration, {and} without demanding the flying particle to bear any internal spin. We show that an easily matched hard-wall boundary condition along with the elastic nature of the process are key to such performances.

Quantum opticsPhysicsQuantum PhysicsPhotonCondensed Matter - Mesoscale and Nanoscale Physicsquantum gate qubit scattering photon waveguidesScatteringFOS: Physical sciencesQuantum entanglementAtomic and Molecular Physics and OpticsQuantum gateQubitQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)Quantum Physics (quant-ph)Quantum information scienceQuantum computerPhysical Review A
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Measurement and Modeling of the Origins of Starvation in Congestion Controlled Mesh Networks

2008

Significant progress has been made in understanding the behavior of TCP and congestion-controlled traffic over multi- hop wireless networks. Despite these advances, however, no prior work identified severe throughput imbalances in the basic scenario of mesh networks, in which one-hop flows contend with two-hop flows for gateway access. In this paper, we demonstrate via real network measurements, test-bed experiments, and an analytical model that starvation exists in such a scenario, i.e., the one-hop flow receives most of the bandwidth while the two- hop flow starves. Our analytical model yields a solution consisting of a simple contention window policy that can be implemented via mechanism…

Queueing theoryComputer sciencebusiness.industryWireless networkDistributed computingComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKSMesh networkingThroughputNetwork topologyHop (networking)Default gatewayWireless lanWirelessbusinessComputer networkIEEE INFOCOM 2008 - The 27th Conference on Computer Communications
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From Buildings' End of Life to Aggregate Recycling under a Circular Economic Perspective: A Comparative Life Cycle Assessment Case Study

2021

The demolition of buildings, apart from being energy intensive and disruptive, inevitably produces construction and demolition waste (C&Dw). Unfortunately, even today, the majority of this waste ends up underexploited and not considered as valuable resources to be re-circulated into a closed/open loop process under the umbrella of circular economy (CE). Considering the amount of virgin aggregates needed in civil engineering applications, C&Dw can act as sustainable catalyst towards the preservation of natural resources and the shift towards a CE. This study completes current research by presenting a life cycle inventory compilation and life cycle assessment case study of two buildin…

RECYCLINGProcess (engineering)CIRCULAR ECONOMYGeography Planning and Development0211 other engineering and technologiesTJ807-830MATERIAU DE CONSTRUCTION02 engineering and technologyCONSTRUCTION AND DEMOLITION WASTE-010501 environmental sciencesManagement Monitoring Policy and LawTD194-19501 natural sciences7. Clean energyRenewable energy sources12. Responsible consumptionRECYCLAGE (MATER)RECYCLAGE DES MATERIAUXDUREE DE VIE021105 building & construction11. SustainabilityGE1-350Life-cycle assessmentRECYCLED AGGREGATES0105 earth and related environmental sciencesTransportation planningCONSTRUCTION (EXECUTION)LIFE CYCLE ASSESSMENTEnvironmental effects of industries and plantsEND OF LIFERenewable Energy Sustainability and the EnvironmentCircular economyEnvironmental economicsNatural resourceREUTILISATIONEnvironmental sciences[SPI.GCIV]Engineering Sciences [physics]/Civil Engineeringrecycled aggregateRESIDU INDUSTRIELDemolition waste13. Climate actionSustainability[SDE]Environmental SciencesDemolitionGRANULAT RECYCLEGATE-TO-GRAVEBusiness
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Implementation of Universal Digital Architecture using 3D-NoC for Mobile Terminal

2014

International Conference on Control, Decision and Information Technologies (CoDIT), Ecole Natl Ingenieurs Metz, Metz, FRANCE, NOV 03-05, 2014; International audience; The need to integrate multiple wireless communication protocols into a single low-cost flexible hardware platform is prompted by the increasing number of emerging communication protocols and applications in modern embedded systems. So the current challenge is to design of new digital architectures, in addition to its ability to take over of many functions. In this paper we have identified similarities between the despreader units in Rake receiver and the processor element in FFT-SDF (Fast Fourier Transform-Single path Delay Fe…

RTL modelingComputer scienceOrthogonal frequency-division multiplexing[SPI] Engineering Sciences [physics]Common Operators02 engineering and technologyGeneric hardware architecturesFFT- SDF[SPI]Engineering Sciences [physics]Gate arrayVHDL[ SPI ] Engineering Sciences [physics]0202 electrical engineering electronic engineering information engineeringGeneric hardware architectures Rake receiver FFT- SDF Common Operators 3D-Network on chip RTL modelingField-programmable gate arraycomputer.programming_languageVirtexbusiness.industry020208 electrical & electronic engineering020206 networking & telecommunicationsDigital architectureRake receiverComputer architectureEmbedded systemRake receiver3D-Network on chipbusinessCommunications protocolcomputer
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Powder diffraction analysis of gemstone inclusions

2011

Gemstones are pieces of materials that once cut and polished are used as jewels or adornments. Gemstones may be single crystal (such as diamonds), polycrystalline (such as lapis lazuli), or amorphous (such as amber). In any case, gems may have inclusions that may yield a variety of optic effects. It is also important to unravel the crystal structure of the inclusion(s) in order to determine the origin of the gem and to help to understand their formation mechanism. Here, we expand the use of powder diffraction to identify crystalline inclusions in bulk gemstones highlighting Mo Kα radiation to penetrate within compact gems. Initially, rock crystal quartz with rutile needles was investigated …

RadiationMaterials scienceMetallurgyHematiteMoss agateCondensed Matter PhysicsCrystallographyvisual_artvisual_art.visual_art_mediumGemstoneGeneral Materials ScienceInclusion (mineral)InstrumentationQuartzSingle crystalPowder diffractionAventurinePowder Diffraction
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