3x+1@home is a distributed non-profit project trying to find high 3x+1 conjecture stopping times.
APS@home is a research project that uses Internet-connected computers to do research into the effects of atmospheric dispersion as it relates to the accuracy of measurements used in climate prediction.
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.
The idea of an own BOINC project comes up from time to time in our discussions, no doubt under the influence of that delicious blond or brown liquid: Belgian beer. There have been some valid ideas, but the talks always went silent after a short while since nobody in the team actually knows what it involves to set up and run a BOINC project.
Mouse Tracker
BCL is a research project that uses Internet-connected computers to do research in BCL.
A distributed crawler, where everybody can donate there superfluous computer resources and spare bandwidth, to help us create a bigger and better search engine.
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.
Cels@Home is a research project that uses Internet-connected computers to do research in cell adhesion. One of the many applications of this is in cancer research, as the point at which cancerous cells quit staying in place, and instead break free to move throughout the body, is a critical event that makes the disease much harder to treat.
Chess960 is an innovative chess variant.
The program will automatically perform thousands of simulations of a tossed cuboid and upload the results on our project server.
Searches for cures for human diseases like Malaria, Anthrax, SARS, Smallpox and Ebola using the Sengent software
Currently only the few big search engines can give access to the basic data needed to do intensive studies of the web. But they don't give access to their raw data and therefore results based on their data have been looked at very carefully. DepSpid on the contrary is supposed to give researchers in this area free access to its raw data for doing their studies.
Description Needed!
DNETC@Home is a wrapper between BOINC and distributed.net.
Dynamically Adaptive Protein-Ligand Docking System
Donate at home is a fund raising initiative. Donate@Home allows participants to donate towards funding by using their GPU to ‘mine for BitCoins’. This novel way of generating funding involves contributing within the bitcoin experiment. Crunchers don’t gain bitcoins in this project, the project convert these into standard currencies to raise enough funds through the collective contribution to give fellowships to research students for the Gpugrid project.
DynaPing uses Internet-connected computers to test if websites (from our database) are online or not. Currently a simple ping is sent to these websites and the result is stored.
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.
GMDHGrid is a research project that uses Internet-connected computers to explore inductive GMDH algorithms forecasting time series. Inductive GMDH algorithms give possibility to finds the best solution by sorting-out of possible variants.
he Goldbach's weak conjecture states that every odd number greater than 7 can be expressed as the sum of three odd primes. Liu Ming-Chit and Wang Tian-Ze proved that for numbers greater than 2·101346 Goldbach's weak conjencture is true, so checking every number under this figure is perfect for using Distributing Computing architecture like BOINC. And this would make the weak Goldbach conjecture effectively proved.
We intend to clarify the nature of the vulnerabilities in applications of MD5 that have been opened up by the collision finding methods of Wang et al.
Hydrogen@Home is a research project that uses Internet-connected computers to do research in Hydrogen Production.
Magnetism@home is a research project that uses Internet-connected computers to explore the equlibrium, metastable and transient magnetization patterns (first and foremost in nano-scale magnetic elements and their arrays, but later other systems may be considered).
Watch the pennies and the pounds will look after themselves
Simulate large-scale nanotech systems
http://neuron.mine.nu/neuron/
Searching for factors for large numbers like Cunningham Most Wanted Numbers
This project it's an attempt to find the results of the NQueen problem using a BOINC framework for board sizes starting from N=19.
The project sifts through possible solutions, using the decompiled physics algorithms from each game. Possible solutions that are not solved after 1,000 frames are rejected. The goal of this project is to create walkthroughs with the games' optimal solutions. A solution is optimal if it uses the least number of objects required to win the level.
Challenge the world record of calculating Pi
Analysis of protein folding and conformational change in the tertiary structure of proteins.
Be part of a large-scale protein structure prediction project and help to advance an important area of science.
Searching for the 23rd largest prime.
QuantumFIRE alpha is a research project that invites the public to donate computing power for scientific research in Quantum Foundations and Solid State Physics.
Red Library Distributed Link Verifier is Ready Response's search engine with a difference - every single link in the database is hand picked (at present 7000+ links) and categorized.
The Riesel Sieve @ Home Project is sieving for factors as part of the PerlBOINC platform.
Mersenne@home is a research project that uses Internet-connected computers to find Mersenne prime numbers.
A distributed effort to prove the Riesel conjecture.
Counts your keystrokes, mouse clicks & scrolls
Scientific Literature Indexing on Networked Computers
SHA 1 Collision Search is a research project that uses Internet-connected computers to do research in XXX.
Sheti is a research project that uses Internet-connected computers to solve the 131-bit Certicom ECC Challenge. The challenge is about solving an elliptic curve discrete logarithm problem.
Simulation One, or SimOne@home (or even more easily SimOne), is a research project that uses Internet-connected computers to do research in@the fields of science. You can participate by downloading and running a free program on your computer. SimOne is completely created and managed by volunteers who believe in distributed computing.
sudoku@vtaiwan is one of V-Taiwan projects that uses Internet-connected computers to do research in sudoku. You can participate as a volunteer by downloading and running programs on your computer. In this project, we develop new techniques and use them to modify the program Checker (written by Gary McGuire). We successfully reduced the total expected computation time from 300,000 years per core to 2,417 years per core. This makes it more feasible and reasonable to use BOINC to solve Sudoku. Some of these new techniques are described in a paper in the IWCG Workshop of TAAI 2010 conference.
Protein folding project from the Tokyo University of Science
Searches for a cure for children with Tuberous Sclerosis Complex, a genetic disorder that leads to benign tumors in multiple organs
The purpose of TUP is to keep an history of biggest "Uptime". Uptime is time during a machine, a computer stays without restarting. In brief, time which a machine give a functionnality, whatever, continuously
Rsa Lattice Siever is a research project that uses Internet-connected computers to help others factoring project such as mersenneforum or XYYXf achieve their academic goals.
XtremLab studies the BOINC grid technology itself. We study actual performances and try to combine various grid technologies in order to find how to improve performances of all others projects.
We are trying to break the RSA-key for the checksum by Brute-forcing.
Surveill@Home is a research project that uses Internet-connected computers to conduct end-to-end fine-grained monitoring of web sites.
