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  • richardmitnick 5:23 pm on November 28, 2014 Permalink | Reply
    Tags: ATLAS@home, , , , ,   

    From CERN: “ATLAS@Home looks for CERN volunteers” 

    ATLAS@home

    ATLAS@home

    Mon 01 Dec 2014
    Rosaria Marraffino

    ATLAS@Home is a CERN volunteer computing project that runs simulated ATLAS events. As the project ramps up, the project team is looking for CERN volunteers to test the system before planning a bigger promotion for the public.

    as
    The ATLAS@home outreach website.

    ATLAS@Home is a large-scale research project that runs ATLAS experiment simulation software inside virtual machines hosted by volunteer computers. “People from all over the world offer up their computers’ idle time to run simulation programmes to help physicists extract information from the large amount of data collected by the detector,” explains Claire Adam Bourdarios of the ATLAS@Home project. “The ATLAS@Home project aims to extrapolate the Standard Model at a higher energy and explore what new physics may look like. Everything we’re currently running is preparation for next year’s run.”

    ATLAS@Home became an official BOINC (Berkeley Open Infrastructure for Network Computing) project in May 2014. After a beta test with SUSY events and Z decays, real production started in the summer with inelastic proton-proton interaction events. Since then, the community has grown remarkably and now includes over 10,000 volunteers spread across five continents. “We’re running the full ATLAS simulation and the resulting output files containing the simulated events are integrated with the experiment standard distributed production,” says Bourdarios.

    Compared to other LHC@Home projects, ATLAS@Home is heavier in terms of network traffic and memory requirements. “From the start, we have been successfully challenging the underlying infrastructure of LHC@Home,” says Bourdarios. “Now we’re looking for CERN volunteers to go one step further before doing a bigger public promotion.”

    e
    This simulated event display is created using ATLAS data.

    If you want to join the community and help the ATLAS experiment, you just need to download and run the necessary free software, VirtualBox and BOINC, which are available on NICE. Find out more about the project and how to join on the ATLAS@Home outreach website.

    “This project has huge outreach potential,” adds Bourdarios. “We hope to demonstrate how big discoveries are often unexpected deviations from existing models. This is why we need simulations. We’re also working on an event display, so that people can learn more about the events they have been producing and capture an image of what they have done.”

    If you have any questions about the ATLAS@Home project, e-mail atlas-comp-contact-home@cern.ch
    .

    See the full article here.

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    Stem Education Coalition

    ATLAS@Home is a research project that uses volunteer computing to run simulations of the ATLAS experiment at CERN. You can participate by downloading and running a free program on your computer.

    ATLAS is a particle physics experiment taking place at the Large Hadron Collider at CERN, that searches for new particles and processes using head-on collisions of protons of extraordinary high energy. Petabytes of data were recorded, processed and analyzed during the first three years of data taking, leading to up to 300 publications covering all the aspects of the Standard Model of particle physics, including the discovery of the Higgs boson in 2012.

    Large scale simulation campaigns are a key ingredient for physicists, who permanently compare their data with both “known” physics and “new” phenomena predicted by alternative models of the universe, particles and interactions. This simulation runs on the WLCG Computing Grid and at any one point there are around 150,000 tasks running. You can help us run even more simulation by using your computer’s idle time to run these same tasks.

    No knowledge of particle physics is required, but for those interested in more details, at the moment we simulate the creation and decay of supersymmetric bosons and fermions, new types of particles that we would love to discover next year, as they would help us to shed light on the dark matter mystery!

    This project runs on BOINC software from UC Berkeley.
    Visit BOINC, download and install the software and attach to the project.

    BOINCLarge

     
  • richardmitnick 6:30 am on July 15, 2014 Permalink | Reply
    Tags: ATLAS@home, , ,   

    From ATLAS@home: ” ATLAS Simulation v1.20 released: 

    ATLAS@home

    ATLAS@home

    Posted: 3 Jul 2014, 18:59:31 UTC

    The Boinc developers have provided a new virtualbox wrapper which should hopefully fix the issues seen with endless work units. This has been incorporated into release 1.20. Please let us know if you still see work units which hang at the end of execution. If you have work units like this from previous versions please abort them. Apologies for the waste of CPU time.

    Big thanks to the Boinc developers for their help with this problem!

    See the full article here.

    ATLAS@Home is a research project that uses volunteer computing to run simulations of the ATLAS experiment at CERN. You can participate by downloading and running a free program on your computer.

    ATLAS is a particle physics experiment taking place at the Large Hadron Collider at CERN, that searches for new particles and processes using head-on collisions of protons of extraordinary high energy. Petabytes of data were recorded, processed and analyzed during the first three years of data taking, leading to up to 300 publications covering all the aspects of the Standard Model of particle physics, including the discovery of the Higgs boson in 2012.

    Large scale simulation campaigns are a key ingredient for physicists, who permanently compare their data with both “known” physics and “new” phenomena predicted by alternative models of the universe, particles and interactions. This simulation runs on the WLCG Computing Grid and at any one point there are around 150,000 tasks running. You can help us run even more simulation by using your computer’s idle time to run these same tasks.

    No knowledge of particle physics is required, but for those interested in more details, at the moment we simulate the creation and decay of supersymmetric bosons and fermions, new types of particles that we would love to discover next year, as they would help us to shed light on the dark matter mystery!

    This project runs on BOINC software from UC Berkeley.
    Visit BOINC, download and install the software and attach to the project.

    BOINCLarge


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