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The basis for the BOINC credit system is the cobblestone, named after Jeff Cobb of SETI@home. By definition, 200 cobblestones are awarded for one day of work on a computer that can meet either of two benchmarks: 1,000 double-precision MFLOPS based on the Whetstone benchmark; 1,000 VAX MIPS based on the Dhrystone benchmark
LHC@home is a volunteer computing project researching particle physics that uses the Berkeley Open Infrastructure for Network Computing (BOINC) platform. [2] The project's computing power is utilized by physicists at CERN in support of the Large Hadron Collider and other experimental particle accelerators.
@Home or @home may refer to: HotSpot @Home, now defunct American home telecom service @Home Network, now defunct cable broadband provider;
SETI@home ("SETI at home") is a project of the Berkeley SETI Research Center to analyze radio signals with the aim of searching for signs of extraterrestrial intelligence. Until March 2020, it was run as an Internet-based public volunteer computing project that employed the BOINC software platform.
ABC@Home was an educational and non-profit network computing project finding abc-triples related to the abc conjecture in number theory using the Berkeley Open Infrastructure for Network Computing (BOINC) volunteer computing platform.
@Home Network was a high-speed cable Internet service provider from 1996 to 2002. It was founded by Milo Medin, cable companies Tele-Communications Inc. (TCI), Comcast, and Cox Communications, and William Randolph Hearst III, who was their first CEO, as a joint venture to produce high-speed cable Internet service through two-way television cable infrastructure.
Cosmology@Home is a volunteer computing project that uses the BOINC platform and was once run at the Departments of Astronomy and Physics at the University of Illinois at Urbana-Champaign. The project has moved to the Institut Lagrange de Paris and the Institut d'Astrophysique de Paris , both of which are located in the Pierre and Marie Curie ...
[102] [103] [104] Both Rosetta@home and Folding@home study protein misfolding diseases such as Alzheimer's disease, but Folding@home does so much more exclusively. [ 105 ] [ 106 ] Folding@home almost exclusively uses all-atom molecular dynamics models to understand how and why proteins fold (or potentially misfold, and subsequently aggregate to ...