Search results for "Graphics"

showing 10 items of 1223 documents

On axis holography by random particles encoding

2012

A method for eliminating the unwanted terms in an on axis hologram is presented. In this method, free randomly distributed nanoparticles are in proximity to the object and their Brownian motion encodes the spatial features of the object in the recorded hologram. The nanoparticles are localized and a decoding pattern is calculated for each frame. This decoding pattern is then used to remove the reference beam and the conjugate beam in the reconstruction of the hologram.

PhysicsConjugate beam methodbusiness.industryHolographyPhysics::OpticsIterative reconstructionObject (computer science)law.inventionComputer Science::GraphicsOpticslawEncoding (memory)Reference beambusinessBrownian motionDecoding methods2012 11th Euro-American Workshop on Information Optics
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Probing slow fluctuations in nonergodic systems: Interleaved sampling technique

2007

We present a new dynamic light scattering scheme to obtain ensemble-averaged correlation functions of slow fluctuations in non-ergodic systems in an efficient way. On a rotating sample, a large set of separate correlation functions is measured in parallel, for each independent orientational component of the sample’ density fluctuations. The ensemble-averaged correlation function spans a lag time range from 1 to 104 s. We describe our first implementation of this technique, discuss its statistical accuracy and show first results. Compared to plain ensemble averaging over a series of N measurements, the total measurement time is usualy reduced by a factor N without significant degradation of …

PhysicsCorrelationCorrelation function (statistical mechanics)Series (mathematics)Dynamic light scatteringComponent (thermodynamics)Ensemble averagingRange (statistics)Statistical physicsSample (graphics)
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Spline Histogram Method for Reconstruction of Probability Density Functions of Clusters of Galaxies

2003

We describe the spline histogram algorithm which is useful for visualization of the probability density function setting up a statistical hypothesis for a test. The spline histogram is constructed from discrete data measurements using tensioned cubic spline interpolation of the cumulative distribution function which is then differentiated and smoothed using the Savitzky-Golay filter. The optimal width of the filter is determined by minimization of the Integrated Square Error function. The current distribution of the TCSplin algorithm written in f77 with IDL and Gnuplot visualization scripts is available from this http URL

PhysicsCumulative distribution functionMathematicsofComputing_NUMERICALANALYSISProbability density functionAstrophysicsVisualizationSpline (mathematics)Computer Science::GraphicsHistogramMinificationSpline interpolationAlgorithmComputingMethodologies_COMPUTERGRAPHICSStatistical hypothesis testing
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Optimal filtering algorithm implementation in FPGAs for the ATLAS TileCal Read-Out drivers

2011

TileCal is the hadronic calorimeter of the ATLAS experiment in the LHC (CERN). Its Read-Out Drivers (RODs) process, in real time, the digitized information coming from the front-end electronics and send it to the Read-Out System. Data processing in the ROD boards is performed in Processing Unit Mezzanine Cards that use commercial DSPs to run the Optimal Filtering (OF) algorithms.

PhysicsData processingLarge Hadron ColliderCalorimeter (particle physics)Physics::Instrumentation and DetectorsATLAS experimentmedicine.anatomical_structureAtlas (anatomy)Nuclear electronicsmedicineElectronicsField-programmable gate arrayAlgorithmComputingMethodologies_COMPUTERGRAPHICS2011 IEEE Nuclear Science Symposium Conference Record
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The ATLAS TileCal read-out drivers signal reconstruction

2009

TileCal is the hadronic calorimeter of the ATLAS experiment at the LHC collider at CERN. The Read-Out Drivers (ROD) are the core of the off-detector electronics. The main components of the RODs are the Digital Signal Processor (DSP) placed on the Processing Unit (PU) dautherboards. This paper describes the DSP code and its performance with calibration and real data. The code is divided into two different parts: the first part contains the core functionalities and the second one the reconstruction algorithms. The core acts as an operating system and it controls the configuration, the data reception, transmission, online monitoring and the synchronization between front-end data and the Trigge…

PhysicsDigital signal processorLarge Hadron ColliderPhysics::Instrumentation and Detectorsbusiness.industrySignal reconstructionATLAS experimentElectrical engineeringTransmission (telecommunications)Nuclear electronicsDetectors and Experimental TechniquesbusinessComputer hardwareDigital signal processingEnergy (signal processing)ComputingMethodologies_COMPUTERGRAPHICS2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC)
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Harmonic solution of semiconductor transport equations for microwave and millimetre-wave device modelling

2004

The transport equations for charges in a semiconductor have been solved for a periodic voltage excitation by means of a harmonic approach, for modelling of microwave and millimetre-wave active devices. The solution is based on the expansion of the unknown physical quantities in Fourier series in the time domain, and on the discretisation in the space domain. A Waveform-Balance technique in the time domain is used to solve the resulting non-linear equations system. In this way the time step is determined only by Nyquist's sampling requirements at the operating frequency, irrespective of the relaxation times of the semiconductor. This approach allows for a longer time step, and therefore a sh…

PhysicsDiscretizationMathematical analysisRelaxation (iterative method)Computer Graphics and Computer-Aided DesignComputer Science ApplicationsSampling (signal processing)Electronic engineeringHarmonicING-INF/01 ElettronicaNyquist–Shannon sampling theoremhigh-frequency simulation semiconductorTime domainElectrical and Electronic EngineeringFourier seriesMicrowave
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New Results on Multiphoton Free-Free Transitions

1988

Recently some of the present authors have reported on calculations concerning free-free transitions in the presence of very strong laser fields,1 in which a number of peculiar features were clearly displayed (among others, well pronounced maxima in the total cross sections and an oscillatory structure). In particular, those calculations concerned total cross sections of direct and inverse multiphoton bremsstrahlung, for several numbers of exchanged photons as functions of the field intensity. Figs. 1 and 2 show a sample of the typical results reported in Ref. 1.

PhysicsField intensityPhotonlawBremsstrahlungInverseAtomic physicsLaserMaximaSample (graphics)Eikonal approximationlaw.invention
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Accelerated fluctuation analysis by graphic cards and complex pattern formation in financial markets

2009

The compute unified device architecture is an almost conventional programming approach for managing computations on a graphics processing unit (GPU) as a data-parallel computing device. With a maximum number of 240 cores in combination with a high memory bandwidth, a recent GPU offers resources for computational physics. We apply this technology to methods of fluctuation analysis, which includes determination of the scaling behavior of a stochastic process and the equilibrium autocorrelation function. Additionally, the recently introduced pattern formation conformity (Preis T et al 2008 Europhys. Lett. 82 68005), which quantifies pattern-based complex short-time correlations of a time serie…

PhysicsFloating pointSeries (mathematics)Stochastic processAutocorrelationGraphics processing unitGeneral Physics and AstronomyMemory bandwidthCentral processing unitScalingComputational scienceNew Journal of Physics
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Shock capturing methods in 1D numerical relativity

2008

A numerical code is presented which uses modern shock capturing methods to evolve spherically symmetric perfect fluid space-times. Harmonic slicing is used to ensure singularity avoidance, which is crucial in strong field situations. Some tests are presented, including an application to the stellar collapse problem.

PhysicsGravitational time dilationNumerical relativityClassical mechanicsTheory of relativityShock capturing methodRelativistic mechanicsPerfect fluidMechanicsIntroduction to the mathematics of general relativityTheoretical motivation for general relativityComputingMethodologies_COMPUTERGRAPHICS
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The Performance of Belle II High Level Trigger in the First Physics Run

2020

The Belle II experiment is a new generation B-factory experiment at KEK in Japan aiming at the search for New Physics in a huge sample of B-meson decays. The commissioning of the accelerator and the detector for the first physics run has started from March this year. The Belle II High Level Trigger (HLT) is fully working in the beam run. The HLT is now operated with 1600 cores clusterized in 5 units, which is 1/4 of the full configuration. The software trigger is performed using the same offline reconstruction code, and events are classified into a set of physics categories. Only the events in the categories of interest are finally sent out to the storage. Live data quality monitoring is also…

PhysicsHigh level trigger010308 nuclear & particles physicsbusiness.industryPhysicsQC1-999DetectorReal-time computing01 natural sciencesSample (graphics)Set (abstract data type)Data acquisitionSoftwareData quality0103 physical sciencesReal-time data010306 general physicsbusinessEPJ Web of Conferences
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