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Active Distributed Computing Projects - Science

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Project Information Project % Complete Major Supported Platforms
 
Science
Search for extra-terrestrial radio signals at SETI@home.

On July 25, 2008, the project owners began releasing work units for SETI@home's Astropulse project.

The project passed 2 billion credits on July 14, 2005. The project received its 1 billionth BOINC result on September 24, 2008.

In 2010 the project hopes to implement some major new features, including a "Near-Time Persistency Checker (NTPCkr) which makes SETI@home more efficient in identifying candidate signals," a web-based distributed human project to view and help rank candidate signals, improved methods for identifying and rejecting Earth-generated radio frequency interference (RFI), and expanding its frequency search beyond the current 2.5 MHz band.

See the BOINC platform information for the latest version of the BOINC client. Version 4.18 of the SETI@home application (which runs inside the BOINC client) is available for Windows and Mac OSX as of June 22, 2005. Version 4.02 is available for Linux and Solaris as of August 29, 2004. Version 5.27 of the SETI@home Enhanced client is available for Windows and Linux as of August 8, 2007. Version 5.28 is available for Linux and Mac OSX as of October 8, 2007. Version 5.12 is available for Solaris and Linux as of May 1, 2006. SETI@home Enhanced "is a factor of two more sensitive to Gaussian signals and to some kinds of pulsed signals than the original SETI@home." As of January 3, 2008, seven new receivers on the Arecibo telescope are generating 500 times more data for the project, and the project needs many more volunteers to process the new data. As of December 16, 2008, version 6.4.5 and later of the BOINC client support computing in NVIDIA GPUs (i.e. graphics cards) with CUDA technology. See more information about how to use the GPU client for SETI@home.

See a guide for customizing the SETI@Home BOINC client graphics, and unsupported add-on tools available for the client. See information about porting and optimizing the BOINC SETI@home client. See a Powerpoint slide presentation about Berkeley Open Infrastructure for Network Computing (BOINC), the open-source software architecture used for the new SETI@home. These slides were used for a presentation at the 2002 O'Reilly Emerging Technology Conference. See a paper, New SETI Sky Surveys for Radio Pulses (PDF), co-written by the CASPER, SETI@home and Astropulse teams on November 14, 2008. The paper will be published in Acta Astronautica.

See the status of the project servers. Also see the project's latest technical news and its future plans.

See The Planetary Society's latest newsletter about SETI@home, published January 15, 2008.

Listen to a September 15, 2008 audio interview with Dan Werthimer about the Astropulse project.

See the SETI@home bookstore and learn more about SETI and the science behind it.

See a Spanish-language website in Chile about SETI, SETI@bome and BOINC.

View the SETI@home BOINC discussion forum.

SETI@home:
17,616,564,009 credits
Windows 32
Linux
MacOS
Solaris
evolution@home evolution@home is a grand-challenge computation research program to study evolution. The first simulator for the project "helps uncover potential genetic causes of extinction for endangered and not-yet-endangered species by investigating Mullers Ratchet. Your help to improve understanding of such genomic decay might one day be used to fight it." As of October 24, 2002, more than 16.3 years of CPU time have been contributed to the project.

On October 24, 2002, Laurence Loewe published the first scientific paper, "evolution@home: Experiences with work units that span more than 7 orders of magnitude in computational complexity," based on the results of the project. This paper was presented at CCGrid 2002 in May, 2002. On May 31, 2008, the project published results from a study of Muller's ratchet in the Amazon Molly, a fish species which has no males, reproduces asexually and should go extinct due to genetic degradation, but which hasn't. See links in the article Muller's ratchet quantified in the Amazon molly on the project website. On September 30, 2008, the project announced that it has quantified Muller's ratchet in the worm C. elegans. On November 15, 2008, the project began a new project, Project 6, "to further investigate how two different types of slightly harmful DNA changes interact with each other's evolutionary behaviour in a population." Work units which take less than two days to process on a 500-MHz Pentium 3 CPU will be handled by the yoyo@home EvoHo project. Longer work units will be handled by the semi-automated Simulator005 client.

To participate, download the client, then select a run-file based on the amount of RAM you can dedicate to the application and the amount of time you want the application to run, then run the application and email the results file. See more information about the client in a quick start guide. Release 6, for Windows and Macintosh, is available as of October 7, 2002. Please upgrade to this version if you are using an older version. Scheduling session 7 of the run-files is available as of March 27, 2003. BOINC users can participate in this project via the yoyo@home EvoHo project.

evolution@home GUI, a third-party tool, provides a graphical interface for the semi-automated version of the evolution@home client.

See high scores for the project. See the latest changes to the project website.

Join a discussion forum about the project.

ongoing:
831,970.601 billion individuals observed in 54.289 years of CPU time since mid-March, 2003
dialup-friendly

Windows 32
MacOS

eOn Help research techniques for "calculating the long time dynamics of systems" in the eOn project. From the website: "A common problem in theoretical chemistry, condensed matter physics and materials science is the calculation of the time evolution of an atomic scale system where, for example, chemical reactions and/or diffusion occur." Interesting events occur so rarely that they can only be observed in direct simulations by using a distributed computing environment. See a brief scientific overview for a more detailed description of this problem. The project works in a similar way to Folding@Home in that results from one set of work units are used to generate the next set of work units. Unlike Folding@Home, it is not critical if some users don't return the results of their work units within a time limit or at all. The current project studies ice growth.

The project posted its most recent news update on September 16, 2008. Recently the project "has implemented several strategies to increase the simulation time, accuracy, and system size scaling." It completed some improvements to its algorithm by August 5, 2008, and published its results in a paper titled "Adaptive kinetic Monte Carlo for first-principles accelerated dynamics" to the Journal of Chemical Physics on September 16, 2008. Also, the project has received a U.S. National Science Foundation research grant which will allow it to "use quantum mechanics to evaluate the interactions between atoms" so that it can "simulate more interesting systems, including chemical reactions at surfaces, and the computational design of catalysts."

The application is built on the Fida and Mithral distributed computing platforms. The Windows client can run as a screensaver (which doesn't show any information about what it's doing), or as a command-line client (run the client.exe executable in the installed directory). Note that although you have the option to install the client in any directory the screensaver expects it to be installed in C:\Program Files\UW Chemistry\ Eon (this bug will be fixed soon). The Linux client is command-line only. The application supports users behind proxy servers. Edit the client.cfg file: change active to yes, and add your proxy server hostname and port number. Note: on Windows, only use notepad to edit client.cfg. wordpad and the DOS edit command strip off important end-of-line characters in the file and client.exe will reset it to its default values. In dtpad you will see an empty rectangle character after each field: this is the end-of-line character and it must not be removed. The latest version of the Windows client is available as of February 28, 2005. The latest version of the Linux client is available as of February 28, 2005. The latest version of the Windows GUI client is available as of March 25, 2005. A benchmark program is available on the download page as of August 20, 2005.

Join an unofficial discussion forum, hosted by Free-DC, about the project.

ongoing: 625,007,145 total results Windows 32
Linux
MacOS
Climate Prediction logo Help climateprediction.net predict Earth's climate 50 years from now. The project uses a large-scale Monte Carlo simulation to predict what the climate will do in the future. On June 22, 2004, the project began a new phase of its experiment, to study "Thermohaline Circulation (THC) slowdown," or how climate might change as CO2 changes in the event of a decrease in the strength of the thermohaline circulation. This kind of climate change is shown in the movie The Day After Tomorrow. Participants can choose between running the old or the new experiment. See the first results of this experiment (posted July 28, 2004). On August 26, 2005 the project began a new sulphur cycle experiment "to identify the effects of sulphate aerosol on the global climate system [the 'global dimming' effect] and the sensitivity of the model to perturbing sulphur cycle parameters." This experiment adds 2 additional phases to the three phases of the tradtional experiment. On September 4, 2008 the project began a HADSM3 Mid-Holocene (hadsm3mh) experiment. On October 1 2008, the project began a HADCM3L geoengineering experiment.

From February 14, 2006 to February 10, 2007, the project ran the BBC Climate Change Experiment in collaboration with the BBC and BOINC. That project used the Transient Coupled Model with a dynamic ocean, rather than the "slab model," or unchanging ocean, used in previous climateprediction.net experiments. Work units for that experiment took about 2.3 times longer to complete than climateprediction.net's sulphur cycle work units, and about 6.6 times longer than climateprediction.net's slab model work units. Results from the BBC Climate Change Experiment were published on February 10, 2007.

On August 8, 2005, the project was approved for funding to build a regional climate model into the project. This model is generating higher-resolution forecasts for limited areas of the world. Scientists from countries which cannot perform their own client modeling could propose regions for which to generate forecasts, and project participants could choose a region they wanted to help. This feature was planned to be integrated into the project by the end of 2006.

The first climate models for a full 45-year beta-test simulation were successfully completed on March 6, 2003. The project received its 5,000th result on November 7, 2003. See some normal and abnormal results. In the 3 months after the project launch, it achieved: 9,796 completed full runs, 882,272 modelled years, 43,548 registered users, and the web site was translated into 14 languages. By April 6, 2004, the project completed 1.5 million years of simulation in over 22,000 runs. By July 5, 2004, the project completed 2 million years of simulation in over 30,000 runs. By October 18, 2004, the project completed 3 million years of simulation in over 40,000 runs. By December 14, 2004, the project completed 50,000 runs. By January 25, 2005, the project completed 60,000 runs. By July 14, 2005, the project completed 100,000 standard runs. By August 16, 2005, the project completed 8 million years of simulation in over 110,000 runs. The project began supporting a BOINC-based client on August 26 2004. The project turned 1 on September 14, 2004: by that date "78,000 people in over 130 countries had completed 35,000 45-year GCM runs, computed 2.5 million model years and donated 6,000 years of computing time." On September 17, 2004, a book about using new technologies to sustain and protect natural ecosystems was released: chapter 12 of the book is about climateprediction.net and was written by several climateprediction.net team members. By December 22, 2005, the project completed 10 million model years. By July 1, 2008, the project completed 33 million model years.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. See the project's applications page for a list of its latest clients and versions.

An advanced visualization package is available for some Windows platforms as of July 15, 2004. Also, Windows users with Photoshop can download a Photoshop plug-in to make a 3D model of their simulation results. Version 2.0 of the package is available for the classic and BOINC clients, for Windows, Linux and Mac OSX, as of April 8, 2005.

A research paper about the project "has been accepted for the 1st IEEE International Conference on e-Science and Grid Computing in Melbourne Australia this December. It outlines the challenges of running a large-scale long-term application via volunteer computing, compares CPDN with other volunteer computing projects, and shows how using BOINC has really helped the project both obtain and retain users."

Students and teachers can access school resources for the project.

Subscribe to the project's RSS feed.

Join a discussion forum for this project.

ongoing:
model years completed;
HadSM3: 302,962 runs, HadAM3: 29,249 runs, HadCM3: 23,726 runs, Sulphur Cycle: 14,988 runs, Spinup: 61 runs, HadSM3MH: 18,208 runs;
1,843,939,076.04 credits (128,660 BOINC runs) completed
dialup-friendly

Windows 32
Linux
MacOS

Muon1 logo Help design a more efficient particle accelerator in Stephen Brooks' Muon1 Distributed Particle Accelerator Design project. The project "simulates the pion-to-muon decay channel (grey cylinders surrounding a straight blue path) of the RAL Neutrino Factory front end design. This is different to the previous versions of the solenoid-channel-only optimisation because it varies all parameters of the solenoids independently of one another. The bending chicane featured in versions 4.0-4.2x will be replaced by a linear accelerator and a muon 'cooling ring' in version 5."

See technical reports and papers from this project.

The client does not need to contact a project server to get work. It submits results via ftp whenever it accumulates more than 100 Kbytes of results. The software also includes a separate ftp client which you can use to submit results manually. The Windows version of the client can be run as a screen-saver or from the command-line. Version 4.44d of the client is available for Windows as of 2008. Version 4.33 and later can be run under Linux using Wine. BOINC users can participate in this project via the yoyo@home Muon project.

Join a discussion forum about the project.

ongoing:
63,453486 simulations completed
dialup-friendly

Windows 32

LHC particle animation Help LHC@home design the Large Hadron Collider (LHC), a particle accelerator being built by CERN in Geneva, Switzerland. LHC@home "simulates 60 particles at a time as they travel around the ring, and runs the simulation for 100,000 [to 1,000,000] loops around the ring ... to test whether the beam is going to remain on a stable orbit for a much longer time, or risks losing control and flying off course into the walls of the vacuum tube - a very serious problem that could result in the machine being stopped for repairs if it happens in real life. By repeating such calculations thousands of times it is possible to map out the conditions under which the beam should be stable." On June 30, 2005, the project released its first set of work units which simulate 1 million loops around the ring. On January 28, 2006, it began its next study. "The new study is an extension of previous simulations. We want to evaluate the long term beam stability in the LHC in the presence of unknown or partially corrected magnetic imperfections, i.e. small field errors in the magnet elements. This scenario must be expected especially in the first few years of the LHC and in particular during its startup in 2007. An essential part of this study is therefore the definition and test of a dedicated configuration for the LHC commissioning. The necessary resources for such a study are available only within the LHC@home project."

The project released its first status report on November 3, 2004. It successfully completed over 500,000 jobs by that date with the help of 6,000 registered users and 7,500 active computers. It released its fourth status report on September 8, 2005. The project is in production mode as of July 13, 2005. The project officially relaunched in the UK (where it is now based) on October 12, 2007. The project will run the SixTrack application until the LHC starts in 2008, and will continue running after the LHC launch to compare simulation data with real data. The project will also begin running the Garfield application (which simulates two- and three-dimensional drift chambers (i.e. gaseous detectors) sometime in the near future, and may eventually run another application "simulating particle collisions for the ATLAS experiment, one of the four major LHC experiments."

The project uses a BOINC-based client, which runs an application called SixTrack. See the BOINC platform information for the latest version of the BOINC client. SixTrack's graphical screensaver displays a cross-section of the beam of particles that SixTrack is simulating. Version 4.67 of the application is available for Windows as of April 12, 2005. Version 4.66 is available for Linux as of April 8, 2005. Linux users with NFS-mounted work directories should read the Known Bugs for the client. Version 7.11 of the Garfield application is available for Windows and Linux as of September 7, 2007.

Join a discussion forum about the project.

ongoing;
264,198,108 credits
dialup-friendly

Windows 32
Linux

Einstein@Home logo Help Einstein@Home search for evidence of gravitational waves predicted in 1916 by Albert Einstein's General Theory of Relativity but never detected. The project searches for "spinning neutron stars (also called pulsars) [which are likely to emit gravitational waves] using data from the LIGO and GEO gravitational wave detectors. Einstein@home is a World Year of Physics 2005 project supported by the American Physical Society (APS) and by a number of international organizations." The first production run of Einstein@Home "carried out a search for pulsars over the entire sky using the most sensitive 600 hours of data from LIGO's third science run, S3 which made observations between October, 2003 and January, 2004. Analysis of the S3 data was completed on May 3, 2005. A status report with the results of the S3 data analysis was published on September 11, 2005. See the discussion forum thread about the status report. Bruce Allen gave a talk about the final S3 results (see report (PDF)) on January 2, 2006, at the 10th annual Gravitational Wave Data Analysis Workshop. Analysis of S4 data began on June 28, 2005 and was completed in July, 2006. Results of S4 were released on April 11, 2008. Analysis of S5 data began on June 15, 2006. Processing for the S5R3 work units was completed on September 25, 2008. "S5R3 was the first search using the combined F-stat plus Hough method, which is currently the most sensitive search technique that is known. This search used approximately one year of data from LIGO's first science run (S5) at design sensitivity. The S5R3 post-processing is being led by Dr. Maria Alessandra Papa, one of the inventors of the search technique." Analysis of S5R5 data began on January 13, 2009.

The project published its first formal scientific publication on April 11 2008--the results from its search of LIGO S4 data.

As of January 27, 2006, the project had more than 100,000 participants with computation credit.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. The project initially ran one application, an all-sky pulsar search. On December 23, 2005 it began releasing Albert, an improved and more sensitive version of the pulsar search application. Note: Each work unit is 12 MB, and the deadline for returning the results of a work unit is 7 days. A work unit takes about 9 hours to finish on a Pentium 4 2.5 GHz CPU. Because of these factors, the project is recommended for users with faster systems and a broadband Internet connection. The graphical screensaver displays "a rotating celestial sphere showing the known constellations, along with the current zenith positions of three gravity wave detectors. Also shown are the positions of the known pulsars and supernovae remnants, and a marker indicating the positions being searched as the calculations proceed." See a detailed description of the screensaver. Version 6.02 of the "Hierarchical all-sky pulsar search" application is available for Windows as of August 4, 2008. Version 6.04 of the pulsar search application is available for Linux as of August 4, 2008. Version 6.03 of the pulsar search application is available for Mac OSX as of August 4, 2008. A beta testing page contains test clients for the project. Version 4.46 of the Windows test client is available as of May 9, 2008. Version 4.43 of the Mac OSX test client is available as of April 24, 2008. Version 4.49 of the Linux test client is available as of May 14, 2008.

See the status of the project servers.

Join a discussion forum about the project.

ongoing:
15,127,892,160 credits
dialup-friendly

Windows 32
Linux
MacOS

Join the Leiden Classical project, and help create a desktop computing grid for any scientist or science student to use to study general classical dynamics. This is the first project which allows its users to submit calculations for the project to compute.

To submit a calculation to the project, download a standalone version of the Classical client and follow the instructions for using it, then submit your calculation to the project's computing grid.

As of March 13, 2007, the project has a Classical-Builder Java 3D graphical user interface tool for building input files for the Classical application.

The project uses a BOINC-based client, which runs five applications: Classical, upperCASE, trajtou-cu111 trajtou-pt111, and trajtou-pd110paw. See the BOINC platform information for the latest version of the BOINC client. Version 5.50 of Classical is available for Windows, Linux, Mac OSX and FreeBSD as of December 10, 2007. Version 5.36 of the trajtou clients is available for Windows and Linux as of June 12, 2007.

Join a discussion forum about the project.

ongoing;
191,587,859 credits
dialup-friendly

Windows 32
Linux
MacOS

QMC@home logo Help QMC@home improve the Quantum Monte Carlo method for general use in Quantum Chemistry. Quantum Chemistry "invents smart approximations to Quantum Theory to predict molecular information with high accuracy." "Reactions between molecules are important for virtually all parts of our lives. The structure and reactivity of molecules can be predicted by Quantum Chemistry." The project published its first results ("'Toward the Exact Solution of the Electronic Schrödinger Equation for Noncovalent Molecular Interactions: Worldwide Distributed Quantum Monte Carlo Calculations' - Our DNA base pair and JSCH2005-S22 benchmark set results, published in the Journal of Physical Chemistry A (JPCA) issued by the American Chemical Society (ACS)") in January, 2008.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. The project reached its beta test phase, and released a new screensaver, on May 23 2006.

Join a discussion forum about the project.

ongoing;
2,108,136,609 credits
dialup-friendly

Windows 32
Linux

uFluids Help μFluids@Home simulate "two-phase fluid behavior in microgravity and microfluidics problems" in order to "design better satellite propellant management devices and address two-phase flow in microchannel and MEMS devices."

The project uses the BOINC computing platform to run various applications. See the BOINC platform information for the latest version of the BOINC client. Version 4.10 of the project's evolver software application is available for Windows as of August 14, 2006. The client is currently only available for Windows, but the project owners will develop a Linux client in the near future, followed by a Mac OSX client.

Join a discussion forum about this project.

ongoing;
166,677,785 credits
dialup-friendly

Windows 32

Spinhenge@home Help Spinhenge@home study the physical characteristics of magnetic molecules to contribute to nano-technology research. Magnetic molecular materials discovered by this project could be used in integrated memory modules or tiny magnetic switches in the future, and could also be used for biotechnology and medical applications (e.g. localized tumor chemotherapy). The project is sponsored by the University of Applied Sciences Bielefeld, Department of Electrical Engineering and Computer Science. See more information about the project.

The project uses the BOINC computing platform to run various applications. See the BOINC platform information for the latest version of the BOINC client. Version 2.42 of the project's Monte Carlo Metropolis software application is available for Windows as of August 29 2006. The client is currently only available for Windows, but a Linux client will be available eventually.

Join a discussion forum about this project.

ongoing;
948,651,805 credits
dialup-friendly

Windows 32

Cosmology@Home Help Cosmology@Home find temperature and polarization anisotropies in cosmic microwave background radiation. Studying these anisotropies helps scientists to learn what the universe was like when it was only 300,000 years old. The project is in a beta testing phase as of October 26, 2007.

The project uses the BOINC computing platform to run various applications. See the BOINC platform information for the latest version of the BOINC client. Version 2.00 of the project's CAMB software application is available for Windows and Linux as of October 24, 2007.

Join a discussion forum about this project.

ongoing;
1,024,330,361 credits
dialup-friendly

Windows 32
Linux

PS3GRID PS3GRID "is a volunteer computing project based on the PlayStation3 and BOINC for full-atom molecular dynamics simulations and other scientific applications specially optimized for the Cell processor. Your contribution is very important because our Cell MD molecular dynamics software runs over an order of magnitude faster on the PlayStation3 opening the way to innovative computational experiments." Participants who wish to participate in the beta test of the project, and who are capable of and willing to install Linux on their PS3, should send email to ps3grid@gmail.com to get an invitation code.

The project uses the BOINC PS3 computing platform to run various applications.

Join a discussion forum about this project.

ongoing;
credits
dialup-friendly

PS3

GPUGRID GPUGRID is a volunteer computing project based on the NVIDIA GPU (i.e. graphics card) with CUDA technology and BOINC for full-atom molecular dynamics simulations and other scientific applications specially optimized for the NVIDIA GPU.

The project uses the BOINC GPU computing platform to run various applications.

Join a discussion forum about this project.

ongoing;
4,149,495,355 credits
dialup-friendly

NVIDIA CUDA GPUs

AfricanClimate@Home World Community Grid Help AfricanClimate@Home a World Community Grid project, develop "more accurate climate models of specific regions in Africa. This will serve as a basis for understanding how the climate will change in the future so that measures designed to alleviate the adverse effects of climate change can be implemented." See more information about the project and the project's FAQ.

The project uses the BOINC computing platform to run various applications. See the BOINC platform information for the latest version of the BOINC client. If you already have BOINC installed, you can join this and other World Community Grid BOINC-based project by attaching to the project URL www.worldcommunitygrid.org. You can select/de-select World Community Grid projects in your World Community Grid member page, under My Grid --> My Projects.

This project is discussed in the World Community Grid forums.

ongoing;
33,028 results returned
dialup-friendly

Windows 32
Linux

MilkyWay@home Help MilkyWay@home model and determine the evolution of the Milky Way Galaxy. Note that the project is in alpha phase. The project's software client and work units are under development. The project published its first results, "Asynchronous Genetic Search for Scientific Modeling on Large-Scale Heterogeneous Environments," on January 27 2008.

The project uses the BOINC computing platform to run various applications. See the BOINC platform information for the latest version of the BOINC client. Version 1.13 of the project's MilkyWay@home software application is available for Windows, Linux, Mac OSX, Solaris and FreeBSD as of December 13, 2007.

Join a discussion forum about this project.

ongoing;
9,135,531,429 credits
dialup-friendly

Windows 32
Linux
MacOS
Solaris

Help QCN Alpha Test perform computations for the Quake Catcher Network "a collaborative initiative for developing the world's largest, low-cost strong-motion seismic network by utilizing sensors in and attached to Internet-connected computers." The project turns your computer into a desk-top seismometer. "Currently only Mac (OS X) PPC and Intel laptops which have a built-in accelerometer" are supported. As of May 30, 2008, "an alpha version of the QCN software for Windows has been created which will work on Lenovo Thinkpad laptops. If you have a Thinkpad please try it out and post any comments in the 'Windows' newsgroup."

The project uses the BOINC computing platform to run various applications. See the BOINC platform information for the latest version of the BOINC client. Version 3.70 of the project's QCN Alpha software application is available for Windows, Linux and Mac OSX as of October 16, 2008. This version supports MotionNode Accel USB for Windows and JoyWarrior24F8 USB accelerometer for all platforms (Mac OSX requires the JoyWarrior driver).

Join a discussion forum about this project.

ongoing dialup-friendly

Windows 32
Linux
MacOS

yoyo@home EvoHo yoyo@home EvoHo is a BOINC-based wrapper for evolution@home.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 1.04 of the project's evolution@home client is available for Windows as of January 6, 2008.

Join a discussion forum about yoyo@home.

70,543,602 credits for all yoyo@home projects dialup-friendly

Windows 32

yoyo@home Muon yoyo@home Muon is a BOINC-based wrapper for Muon1.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 1.06 of the project's Muon client is available for Windows as of March 8, 2008.

Join a discussion forum about yoyo@home.

70,543,602 credits for all yoyo@home projects dialup-friendly

Windows 32

Intelligent Design Darwin@Home Help evolve digital creatures which move more efficiently in Intelligent Design a Darwin@Home project. The project's results are stored in publically-accessible XML files. See screenshots and more information about the project.

To participate in the project, click on the Intelligent Design logo on the project's main web page. This will launch a Java Webstart application on your computer which will automatically download and run the Intelligent Design application. Instructions for using the application are displayed within the application itself. The application should run on any computing platform which supports Java. You may need to install the Java Runtime Environment (JRE) in order to run the application. Version 20070511 of the application is available as of May 11, 2007.

ongoing Windows 32
Linux
MacOS
Solaris
Hydrogen@Home Help Hydrogen@Home research more efficient ways to produce hydrogen to use as an energy source. The project simulates "interactions of 3D structures of proteins and substrate" "to predict previously uncharacterized catalytic interactions of biological catalysts."

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 1.06 of the project's Muon client is available for Windows as of March 8, 2008.

Join a discussion forum about the project.

ongoing;
3,385,073 credits
Windows 32
Linux
Artificial Intelligence System Help Artificial Intelligence System "reverse engineer the brain in order to build a large scale artificial intelligence system." The project's software client "is an application that simulates neurons. Each downloaded work unit generates 100,000 biophysical neurons. Because the simulator is in an initial phase and we have very few cellular models implemented, we can only use it to test for simulations capacity. To date the largest brain simulation has been done on a cluster of 27 machines, with 100 billion neurons simulated over a period of 50 days. While it was a very interesting experiment which pushed the frontier further on it was a partial simulation only, in the sense that many of the required components were not implemented due to hardware constraints." The project hopes "to make increasingly precise estimations on storage, number of computers required, duration, bandwidth and other factors," related to large scale brain simulation. See the project's FAQ.

See the project's latest results. As of June 13, 2008, the project has simulated over 52.2 billion neurons. The human brain has about 100 billion neurons.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 1.05 of the project's Neuronal Simulator client is available for Windows and Linux as of March 18, 2008.

Join a discussion forum about the project.

ongoing;
credits
Windows 32
Linux
BRaTS@Home Help BRaTS@Home (BRaTS Ray Trace Simulator) "do various calculations in Gravitational Ray Tracing. As of August 8, 2007, participation in the project is by invitation only.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 4.00 of the project's ray_trace_ellipse client is available for Windows and Linux as of February 18, 2008. Version 4.00 of the project's test_app client is available for Windows as of February 12, 2008. Version 4.01 of test_app is available for Linux as of February 15, 2008.

Join a discussion forum about the project.

ongoing;
74,389 credits
Windows 32
Linux
orbit@home Help orbit@home "monitor the impact hazard posed by Near Earth Objects." The project uses the Orbit Reconstruction, Simulation and Analysis (ORSA) framework. More information can be found at the ORSA@work website and in a presentation poster titled Distributed Computing and Near Earth Objects Hazard Monitoring, published by Pasquale Tricarico of Washington State University on November 14, 2004.

The project completed its testing phase on May 28, 2008, and began its public beta test on May 31, 2008.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 1.31 of the project's SurveySimulator client is available for Windows, Linux and Mac OSX as of May 28, 2008.

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ongoing;
16,093,278 credits
Windows 32
Linux
MacOS
Help Virtual Prairie "do research in understanding clonal strategies in complex ecological systems." See more information about the project. The project is run by the Department of Computer Science at the University of Houston.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 0.08 of the project's "Application simulating the growth of a clonal plant" client is available for Windows and Linux as of May 14, 2008.

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ongoing;
58,667,988 credits
Windows 32
Linux
Ibercivis Help Ibercivis provide computing resources to scientists in Spain. The original description of the project, which started as ZIVIS last year: "In collaboration with the Institute of Biocomputacion and Fisica de Sistemas Complejos (BIFI) of the University of Zaragoza and the National Laboratory of Fusion of the CIEMAT, the project ZIVIS has started up, whose objective is the creation of a citizen platform of Super Computation based on the union of computer science equipment of the homes and Institutions you publish, to give service to the investigators of our city." The original project researched fusion. This project supports multiple projects and will support scientists all over Spain. The project launches formally sometime in June, but participants can join now with the BOINC project URL http://registro.ibercivis.es/ to help test the project server.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client.

ongoing;
160,009,576 credits
Windows 32
Help Magnetism@home "explore equlibrium, metastable and transient magnetization patterns (first and foremost in nano-scale magnetic elements and their arrays, but later other systems may be considered)."

As of June 9, 2008, the project is calculating "the magnetostatic energy of low-energy magnetic configurations in circular cylidrical nano-element. The resolution is not very high yet, but will be increased as more people join."

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Version 0.02 of the project's circleFMM client is available for Windows and Linux as of June 10, 2008. Version 0.05 of the project's circleFMMNC client is available for Windows and Linux as of June 16, 2008.

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ongoing;
24,646,349 credits
Windows 32
Linux
Genetic Life Help Genetic Life research genetic algorithms. The project is currently simulating the evolution of simple software-based creatures executing a compact set of instructions.

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. Gamma version 1.60 of the project's Genetic Life client is available for Windows, Linux and Mac OSX as of October 14, 2008.

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ongoing;
95,488,868 credits
Windows 32
Linux
MacOS
The Clean Energy Project World Community Grid Help The Clean Energy Project develop more efficient organic solar cells. The project, a collaboration between World Community Grid and Harvard University's Department of Chemistry and Chemical Biology, uses computational chemistry to look for the best molecules possible for: organic photovoltaics to provide inexpensive solar cells, polymers for the membranes used in fuel cells for electricity generation, and how best to assemble the molecules to make those devices." The project's first project, which began on December 5, 2008, is developing "efficient and inexpensive solar cells using organic molecules, which will satisfy the world's future energy needs through renewable energy resources." Results from the project will be made publicly available. Neither the World Community Grid nor Harvard will profit from the work contributed by the project's participants. See the World Community Grid's page about the project. See more information about the project. See the project's FAQ.

The project uses the BOINC computing platform to run various applications. See the BOINC platform information for the latest version of the BOINC client. If you already have BOINC installed, you can join this and other World Community Grid BOINC-based project by attaching to the project URL www.worldcommunitygrid.org. You can select/de-select World Community Grid projects in your World Community Grid member page, under My Grid --> My Projects.

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ongoing;
1,901,975 results returned
Windows 32
AQUA@home Help AQUA@home predict the performance of quantum computing algorithms on several types of problems in fields from materials science to machine learning. "D-Wave's AQUA (Adiabatic QUantum Algorithms) is a research project whose goal is to predict the performance of superconducting adiabatic quantum computers on a variety of hard problems arising in fields ranging from materials science to machine learning. AQUA@home uses Internet-connected computers to help design and analyze quantum computing algorithms, using Quantum Monte Carlo techniques."

The project completed computations for its 96-variable benchmark problems (a.k.a. 96-qubit problems) and published the results on its website on January 13, 2009. "So far the running time of the adiabatic algorithm is linear with the problems size."

The project uses a BOINC-based client. See the BOINC platform information for the latest version of the BOINC client. The project's "D-Wave's Adiabatic QUantum Algorithms" client is available for Windows and Linux.

Join a discussion forum about this project.

ongoing;
1,428,827,966 credits
Windows 32
Linux
NEW!
QMulus Help QMulus develop artificial intelligence algorithms. The project, run by Qualia Labs, hosts several research projects which study artificial intelligence. Project participants have the chance to win prizes and may receive other compensation in the future if the project ever becomes for-profit. See more about the project's technology and the project's FAQ.

To participate in the project, download and install the project software. The software does not have a visible user interface unless you configure it to display its screensaver.

ongoing Windows 32

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dialup-friendlythis project is good for users with dialup Internet access
paid projectthis is a for-pay project
Windows 32this project runs on the Windows 32-bit platform
Linuxthis project runs on the Linux platform
MacOSthis project runs on the Mac OS platform
Solaristhis project runs on the Solaris platform

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