5,209 research outputs found

    hepaccelerate: Fast Analysis of Columnar Collider Data

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    At HEP experiments, processing terabytes of structured numerical event data to a few statistical summaries is a common task. This step involves selecting events and objects within the event, reconstructing high-level variables, evaluating multivariate classifiers with up to hundreds of variations and creating thousands of low-dimensional histograms. Currently, this is done using multi-step workflows and batch jobs. Based on the CMS search for H(Ī¼Ī¼), we demonstrate that it is possible to carry out significant parts of a real collider analysis at a rate of up to a million events per second on a single multicore server with optional GPU acceleration. This is achieved by representing HEP event data as memory-mappable sparse arrays, and by expressing common analysis operations as kernels that can be parallelized across the data using multithreading. We find that only a small number of relatively simple kernels are needed to implement significant parts of this Higgs analysis. Therefore, analysis of real collider datasets of billions events could be done within minutes to a few hours using simple multithreaded codes, reducing the need for managing distributed workflows in the exploratory phase. This approach could speed up the cycle for delivering physics results at HEP experiments. We release the hepaccelerate prototype library as a demonstrator of such accelerated computational kernels. We look forward to discussion, further development and use of efficient and easy-to-use software for terabyte-scale high-level data analysis in the physical sciences

    Elimination of Thermally Generated Charge in Charged Coupled Devices Using Bayesian Estimator

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    This paper deals with advanced methods for elimination of thermally generated charge in astronomical images, which were acquired by a Charged Coupled Device (CCD) sensor. There exist a number of light images acquired by telescope, which were not corrected by dark frame. The reason is simple: the dark frame doesnā€™t exist, because it was not acquired. This situation may for instance come when sufficient memory space is not available. Correction methods based on the modeling of the light and dark image in the wavelet domain will be discussed. As the model for the dark frame image and for the light image the generalized Laplacian was chosen. The model parameters were estimated using moment method, whereas an extensive measurement on an astronomical camera was proposed and done. This measurement simplifies estimation of the dark frame model parameters. Finally a set of astronomical testing images was corrected and then the objective criteria for an image quality evaluation based on the aperture photometry were applied

    Global attractors for strongly damped wave equations with displacement dependent damping and nonlinear source term of critical exponent

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    In this paper the long time behaviour of the solutions of 3-D strongly damped wave equation is studied. It is shown that the semigroup generated by this equation possesses a global attractor in H_{0}^{1}(\Omega)\times L_{2}(\Omega) and then it is proved that this global attractor is a bounded subset of H^{2}(\Omega)\times H^{2}(\Omega) and also a global attractor in H^{2}(\Omega)\cap H_{0}^{1}(\Omega)\times H_{0}^{1}(\Omega)

    Multiparticle correlation studies in pPb collisions at āˆšs_(NN) = 8.16 TeV

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    The second- and third-order azimuthal anisotropy Fourier harmonics of charged particles produced in pPb collisions, at āˆšs_(NN) = 8.16, are studied over a wide range of event multiplicities. Multiparticle correlations are used to isolate global properties stemming from the collision overlap geometry. The second-order ā€œellipticā€ harmonic moment is obtained with high precision through four-, six-, and eight-particle correlations and, for the first time, the third-order ā€œtriangularā€ harmonic moment is studied using four-particle correlations. A sample of peripheral PbPb collisions at āˆšs_(NN)= 5.02 TeV that covers a similar range of event multiplicities as the pPb results is also analyzed. Model calculations of initial-state fluctuations in pPb and PbPb collisions can be directly compared to the high-precision experimental results. This work provides new insight into the fluctuation-driven origin of the v3 coefficients in pPb and PbPb collisions, and into the dominating overall collision geometry in PbPb collisions at the earliest stages of heavy ion interactions

    Measurement of electroweak production of a W boson in association with two jets in protonā€“proton collisions at āˆšs = 13 TeV

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    A measurement is presented of electroweak (EW) production of a W boson in association with two jets in protonā€“proton collisions at āˆšs =13 TeV. The data sample was recorded by the CMS Collaboration at the LHC and corresponds to an integrated luminosity of 35.9fbā»Ā¹. The measurement is performed for the ā„“Ī½jj final state (with ā„“Ī½ indicating a leptonā€“neutrino pair, and j representing the quarks produced in the hard interaction) in a kinematic region defined by invariant mass m_(jj) > 120GeV and transverse momenta p_(Tj) > 25 GeV. The cross section of the process is measured in the electron and muon channels yielding Ļƒ_(EW)(W_(jj)) = 6.23Ā±0.12(stat)Ā±0.61(syst)pb per channel, in agreement with leading-order standard model predictions. The additional hadronic activity of events in a signal-enriched region is studied, and the measurements are compared with predictions. The final state is also used to perform a search for anomalous trilinear gauge couplings. Limits on anomalous trilinear gauge couplings associated with dimension-six operators are given in the framework of an effective field theory. The corresponding 95% confidence level intervals are āˆ’2.3 < c_(WWW)/Ī›Ā² < 2.5 TeVā»Ā², āˆ’8.8 < c_W/Ī›Ā² < 16 TeVā»Ā², and āˆ’45 < c_B/Ī›Ā² < 46 TeVā»Ā². These results are combined with the CMS EW Zjj analysis, yielding the constraint on the c_(WWW) coupling: āˆ’1.8 < c_(WWW)/Ī›Ā² < 2.0 TeVā»Ā²
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