| Project / URL for Boinc-login | | |
3x+1@home
http://allprojectstats.com/collatz/ | The 3x+1@home project trying to find high 3x+1 conjecture stopping times. The project will be arranged in Germany | |
ABC@home
http://abcathome.com/
| ABC@home is a project, which looks after a mathematical problem. | |
APS@home
http://www.apsathome.org/ | With APS it concerns to a research project for the climate analysis. | |
Artificial Intelligence System
http://intelligencerealm.com/aisystem
| This distributed computing project is part of a larger project that is reverse engineering the brain in order to build a large scale artificial intelligence system. The first of its kind. Because we are a very small company that is tackling an enormous challenge, we are asking the public at large to get involved by donating computer time. In order to be able to support and accelerate its development we will also pursue an alternative path, through commercialization. | |
BOINC Alpha Test
http://boinc.berkeley.edu/alpha/
| Testing new versions of the BOINC-Client | |
BRaTS@Home
http://maxwell.dhcp.umsl.edu/brats/
| BRaTS@Home is a research project that uses Internet-connected computers to do various calculations in Gravitational Ray Tracing. BRaTS stands for BRaTS Ray Trace Simulator. BRaTS@Home is based in a lab in the US. | |
BURP
http://burp.boinc.dk/
| BURP aims to develop a publicly distributed system for rendering 3D animations.
Currently this is an alpha project which means that certain restrictions apply. Not all uploaded sessions will actually be rendered right away - and sometimes you will not be able to contact the schedulers for short periods of time.
Please note that this project is still in its testing phase and does not yet provide the security and stability of a full-blown BOINC project.
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Cels@home
http://cels-at-home-dev.dyndns.org/cels/
| Cels@Home is a research project to do research in cell adhesion. Cels@Home is based at the University of Texas in Austin, USA. | |
Climate Prediction
http://www.climateprediction.net/
| Climate Prediction is the largest climate experiment in the 21st century. | |
Climate Prediction Beta
| Beta Test for CPDN
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Cosmology@Home
http://www.cosmologyathome.org/
| The goal of Cosmology@Home is to search for the model that best describes our Universe and to find the range of models that agree with the available astronomical and particle physics data. | |
Docking@Home
http://docking.cis.udel.edu/
| ocking@Home is a project which uses Internet-connected computers to perform scientific calculations that aid in the creation of new and improved medicines. The project aims to help cure diseases such as Human Immunodeficiency Virus (HIV). Docking@Home is a collaboration between the University of Delaware, The Scripps Research Institute, and the University of California - Berkeley. It is part of the Dynamically Adaptive Protein-Ligand Docking System project and is supported by the National Science Foundation. | |
Einstein@Home
http://einstein.phys.uwm.edu/
| Einstein@Home is a program that uses your computer's idle time to search for spinning neutron stars (also called pulsars) using data from the LIGO gravitational wave detector. It also searches for radio pulsars in binary systems, using data from the Arecibo Observatory in Puerto Rico. Einstein@Home is a World Year of Physics 2005 and an International Year of Astronomy 2009 project supported by the American Physical Society (APS) and by a number of international organizations. | |
Enigma@Home
http://www.enigmaathome.net/ | Enigma@Home is a wrapper between BOINC and Stefan Krah's M4 Project. 'The M4 Project is an effort to break 3 original Enigma messages with the help of distributed computing. The signals were intercepted in the North Atlantic in 1942 and are believed to be unbroken. | |
FreeHal
http://boinc.freehal.org/projects/freehal_at_home/
| FreeHAL@home is a research project that uses Internet-connected computers to parse and convert big open source semantic nets for use in FreeHAL. You can participate by downloading and running a free program on your computer. FreeHAL@home is based at FreeHAL, an artificial intelligence that uses semantic networks, stemmers, part of speech databases, and part of speech taggers,
in order to imitate a very close human behavior within conversations. | |
Genetic Life
http://genlife.is-a-geek.org/genlife/
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Gerasim@Home
http://gerasim.boinc.ru/gerasim/
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GPUGrid
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Hydrogen@Home
http://hydrogenathome.org/
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IBERCIVIS
http://registro.ibercivis.es/
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Lattice Project
http://boinc.umiacs.umd.edu/
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Leiden Classical
http://boinc.gorlaeus.net/
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LHC@Home
http://lhcathome.cern.ch/lhcathome/
| Optimation of the Large Hadron Collider at Cern
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Magnetism@Home
http://kinetic.dnsalias.org/magnetism/
| Magnetism@home is a research project to explore the equlibrium, metastable and transient magnetization patterns. | |
Malaria Control http://www.malariacontrol.net/ | The malariacontrol.net project is an application that makes use of network computing for stochastic modelling of the clinical epidemiology and natural history of Plasmodium falciparum malaria.
Click here for more information. | |
MilkyWay@home http://milkyway.cs.rpi.edu/milkyway/ | The goal of Milkyway@Home is to use the BOINC platform to harness volunteered computing resources in creating a highly accurate three dimensional model of the Milky Way galaxy using data gathered by the Sloan Digital Sky Survey. This project enables research in both astroinformatics and computer science. | |
MilkyWay@home GPU
http://milkyway.cs.rpi.edu/milkyway_gpu/ | The goal of Milkyway@Home for GPUs is to use the BOINC platform to harness volunteered computing resources in creating a highly accurate three dimensional model of the Milky Way galaxy using data gathered by the Sloan Digital Sky Survey. This project enables research in both astroinformatics and computer science. | |
MindModeling@Home http://MindModeling.org/beta/ | MindModeling@Home (Beta) is a research project that uses volunteer computing for the advancement of cognitive science. The research focuses on utilizing computational cognitive process modeling to better understand the human mind. We need your help to improve on the scientific foundations that explain the mechanisms and processes that enable and moderate human performance and learning. MindModeling@Home (Beta) is based at the Cognitive Engineering Research Institute in Mesa, AZ. | |
NQueens Project http://nqueens.ing.udec.cl/ | This project uses Internet-connected computers to solve the N Queens problem.
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Orbit@Home http://orbit.psi.edu/oah/ | The mission of orbit@home is to apply distributed computing to the study of Solar System dynamics. Distributed computing provides an unmatched amount of computational power, enabling qualitatively new research levels in terms of detail and accuracy. Many are the open problems that we plan to study with orbit@home. At first, we will focus on Near Earth Asteroid (NEA) research, focusing into the areas below: - NEA search strategies: we are studying a search strategy that maximizes the volume covered in the space of the orbital elements of the NEAs; its implementation requires the availability of a very significant amount of computing power, making the distributed computing approach the perfect candidate; [abstract]
- NEA impact hazard monitoring: we are studying the applicability and advantages of using a distributed computing system to monitor the impact hazard by NEAs; when compared to standard systems, the distributed computing approach provides better scalability, responsiveness, and accuracy. [abstract]
Public outreach and education represents also a very important aspect of the system, because the public provides the main distributed computing power and participates in the science being studied. | |
Pirates@Home http://pirates.spy-hill.net/ | Pirates@Home is an ongoing test of BOINC, the Berkeley Open Infrastructure for Network Computing. Pirates@Home is currently being used to test BOINC's forum software for possible use by another project, Interactions in Understanding the Universe. At present Pirates@Home is not doing any real scientific computation, we are just having 'fun' with BOINC. Read more about the current goals. | |
POEM@HOME http://boinc.fzk.de/poem/ | POEM@HOME is a research project that uses Internet-connected computers to research and predict protein structure.
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PrimeGrid http://www.primegrid.com/ | PrimeGrid's primary goal is to bring the excitement of prime finding to the "everyday" computer user. By simply downloading and installing BOINC and attaching to the PrimeGrid project, participants can choose from a variety of prime forms to search. With a little patience, you may find a large or even record breaking prime and enter into Chris Caldwell's The Largest Known Primes Database as a Titan! PrimeGrid's secondary goal is to provide relevant educational materials about primes. Additionally, we wish to contribute to the field of mathematics. Lastly, primes play a central role in the cryptographic systems which are used for computer security. Through the study of prime numbers it can be shown how much processing is required to crack an encryption code and thus to determine whether current security schemes are sufficiently secure. | |
Proteins@home http://biology.polytechnique.fr/proteinsathome/ | By joining Proteins@Home, you will be part of a large-scale protein structure prediction project and help to advance an important area of science.By increasing our knowledge of proteins, you will contribute to a better understanding of many diseases and pathologies, and to progress in both medecine and technology. Proteins@Home is not for profit. | |
QMC@Home http://qah.uni-muenster.de/ | | |
RALPH@Home | | |
| Ramsey@Home | | |
Rectilinear Crossing No.:
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| Reversi | | |
| RND@home | | |
| Rosetta@Home | | |
Seasonal Attribution
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| SETI@Home | | |
SETI@Home Beta
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SHA-1 Collision Search
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| SIMAP | | |
| Spinhenge@home | | |
Sudoku project
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| Superlin@Technion | | |
SZTAKI Desktop Grid
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The Lattice Project
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UCT Malaria
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uFluids http://www.ufluids.net/ | μFluids project is a massively distributed computer simulation of two-phase fluid behavior in microgravity and microfluidics problems. Our goal is to design better satellite propellant management devices and address two-phase flow in microchannel and MEMS devices. Voluntary collaboration of individual computer users, like you, can participate by donating idle computer time using the BOINC software. | |
Virtual Prairie http://vcsc.cs.uh.edu/virtual-prairie/ | | |
VTU@Home http://boinc.vgtu.lt/vtuathome/ | The aim of this project is to provide a powerful distributed computing platform for scientists of Vilnius Gediminas Technical University (VGTU) as well as others Lithuanian academic institutions. The project is being run by a group of scientists from Mathematical Modelling Department of VGTU, including Prof. Raimondas Čiegis, Dr. Vadimas Starikovičius, MSc Aurimas Norkevičius. We are trying to persuade scientists to use this kind of computations in their research and to assist them in preparing BOINC applications. | |
WEP-M+2 Project http://bearnol.is-a-geek.com/wanless2/ | WEP-M+2 (wanless2) is a research project that uses Internet-connected computers to do research in number theory. You can participate by downloading and running a free program on your computer. WEP-M+2 is based at London, UK, and is currently investigating factorization of Mersenneplustwo numbers. | |
World Community Grid http://www.worldcommunitygrid.org/index.jsp | | |
yoyo@home http://www.rechenkraft.net/yoyo | yoyo@home brings existing distributed computing projects to the Boinc world using the Boinc Wrapper technology. | |
