BOINC projects: Difference between revisions

From BOINC Projects

Latest revision as of 17:21, 28 May 2026

This is a comprehensive and continually updating List of All BOINC projects

Q - What is a BOINC project?

A - BOINC project definition: A BOINC project is a website and server set up by an individual or group to distribute applications (software which is a set of instructions for executing tasks in a computing device) to BOINC volunteer computing devices that are deliberately attached to receive, process and return the results of the application for further research.[[File:{{#setmainimage:Banner.png}}|right|frameless|100x63px|BOINC Projects]]

Active BOINC Projects

Project Name	Publications	Launched	Operating System	GPU App	Vbox	Screen saver	Sponsor	Category	BOINC Radio	Research Focus
Asteroids@home	10	2012-06-18	Windows, Linux, ARM, MacOS, Free BSD, Android	GPU CPU NVIDIA	No		Astronomical Institute, Charles University, Prague	Astronomy	Listen	Derive shapes and spin for a significant part of the asteroid population. See more...
BOINC Central		2023-02-04		Not yet	Not yet		University of California, Berkeley	Multiple applications		Gives scientists access to the power of volunteer computing without having to operate a BOINC project. See more...
climateprediction.net	152	2003-12-09	Windows, Linux, ARM, MacOS	No	No	view	Oxford University	Climate study	Listen	Analyse ways to improve climate prediction models. See more...
cpdnboinc dev			Windows, Linux, MacOS	No	No		Oxford University	Software testing		Test project for climateprediction.net. See more...
DENIS@home	6	2015-03-16	Windows, Linux, ARM, MacOS	No	No		Universidad San Jorge, Zaragoza, Spain	Medical physiology	Listen	Cardiac electrophysiological simulations, studying the electrical activity of the heart. See more...
Einstein@Home	42	2005-02-19	Windows, Linux, ARM, MacOS, Android	GPU CPU	No	view	University of Wisconsin–Milwaukee, Max Planck Institute	Astrophysics	Listen	Search for pulsars using radio signals and gravitational wave data. See more...
Gaia@home		2019-08-21	Linux	No	No		Astronomical Observatory Institute, Faculty of Physics, Adam Mickiewicz University in Poznań	Astronomy		Provide additional computing power to scientists studying the Gaia spacecraft data releases. See more...
Gerasim@home	9	2007-02-10	Windows, Linux	GPU CPU	No	view	Southwest State University (Russia)	Multiple applications	Listen	Research in discrete mathematics and logic control systems. See more...
PS3GRID became GPUGRID	53	2007-12-05	Windows, Linux	GPU only NVIDIA	No		Barcelona Biomedical Research Park	Molecular biology		Perform full-atom molecular simulations of proteins on Nvidia GPUs for biomedical research. See more...
iThena.Computational		2021-10-31	Windows, Linux	No	No		Cyber-Complex Foundation	Computer science	See below	A computational platform for analysis based on data extracted from iThena.Measurements project applications/sensors. See more...
iThena.Measurements		2019-09-25	Windows, Linux, ARM	No	No		Cyber-Complex Foundation	Computer science	Listen	Generate a dynamic topological model of the Internet, based on measurements from distributed devices. See more...
LHC@home	71	2004-01-09	Windows, Linux, ARM, MacOS, Free BSD, Android	No	Yes, Both	view	CERN	Physics	Listen	Helping physicists compare theory with experiment, in the search for new fundamental particles and answers to questions about the Universe. See more...
LHCathome-dev		2014-08-01	Windows, Linux, ARM, MacOS, Free BSD, Android	No	Yes, Both		CERN	Software testing		A BOINC server for LHC@home development.
LODA		2022-05-13	Windows, Linux, ARM, MacOS	No	No		Independent	Mathematics	Listen	Finds new formulas and more efficient algorithms for a wide range of non-trivial integer sequences. See more...
MilkyWay@home	35	2007-07-07	Windows, Linux, MacOS	No	No		Rensselaer Polytechnic Institute	Astronomy	Listen	Create a highly accurate three-dimensional model of the Milky Way galaxy using data collected from the Sloan Digital Sky Survey. See more...
Minecraft@Home		2020-06-24	Windows, Linux, ARM	GPU CPU	No		Independent	Games	Listen	Studies questions related to Minecraft, such as the properties of worlds that can be generated from different random seeds. See more...
Moo! Wrapper		2011-02-05	Windows, Linux, ARM, MacOS	GPU CPU	No		Independent	Cryptography	Watch	Combines BOINC with distributed.net to try to break the RC5 cipher. See more...
NFS@Home		2009-09-05	Windows, Linux, MacOS, Free BSD	No	No		California State University, Fullerton	Integer factorization		Performs parts of the number field sieve in the factorization of large integers. See more...
NumberFields@Home	3	2011-08-12	Windows, Linux, MacOS	GPU CPU	No		Arizona State University's School of Mathematics	Number theory	Listen	Search for number fields with special properties to assist with the formulation of mathematical conjectures. See more...
ODLK		2017-04-06	Windows, Linux, MacOS, Free BSD	No	No		Independent	Mathematics		Compiles a database of canonical forms (CF) of 10th order diagonal Latin squares (DLS) with orthogonal diagonal Latin squares (ODLS). See more...
ODLK1		2017-10-22	Windows, Linux, Free BSD	No	No		Independent	Mathematics		Generates a database of canonical forms (CF) of diagonal Latin squares (DLS) of order 10 having orthogonal diagonal Latin squares (ODLS). See more...
ODLK2025		2024-12-18	Windows	No	No		Independent	Mathematics		Find canonical forms of diagonal Latin squares of order 10 with orthogonal diagonal Latin squares, extending the search beyond the ranges covered by ODLK and ODLK1. See more...
PrimeGrid	3	2005-06-12	Windows, Linux, MacOS	GPU CPU	No	view	Independent	Mathematics		Search for world record sized prime numbers, search for particular types of primes such as 321 primes, Cullen-Woodall primes, Proth prime, prime Sierpinski numbers, and Sophie Germain primes. Subprojects also include Seventeen or Bust, and the Riesel problem. See more...
PrimeGrid dev		2007-06-06	Windows, Linux, MacOS	GPU CPU	No		Independent	Software testing		Test project for PrimeGrid.
PRIVATE GFN SERVER		2016-04-20	Windows, Linux	GPU CPU	No		Independent	Mathematics		This is a PRIVATE SERVER to coordinate distribution of mathematical work on GFN. The server is open for everybody, but some BOINC experience is recommended. See more...
Radioactive@home		2011-10-21	Windows, Linux	No	No		Independent	Physics	Listen	Real-time radiation monitoring, detected by gamma sensors connected to volunteer computers. See more...
RakeSearch	4	2017-08-11	Windows, Linux	No	No		Independent	Mathematics	Listen	Implement an application that picks up separate pairs of mutually orthogonal DLSs, which allows reconstructing the full graphs of their orthogonality. See more...
Ramanujan Machine	2	2021-10-14	Windows, Linux	No	No		Independent	Mathematics	Listen	Conjecturing new mathematical formulas. See more...
Rosetta@home	234	2005-10-06	Windows, Linux, ARM, macOS, Android	No	Yes, Both	view	University of Washington	Molecular biology	Listen	Protein structure prediction for disease research. See more...
SiDock@home		2020-12-19	Windows, Linux+OpenWrt, ARM, macOS	No	No		Russian Academy of Sciences	Molecular biology		Independent decentralized drug design by volunteer computing. See more...
SPACIOUS@home		2024-01-01	Linux	No	No		European Union	Astrophysics		Contribute to cutting-edge astronomy by sharing your idle computing time with professional astronomers. Space surveys such as the European Space Agency's Gaia telescope are generating large datasets of unprecedented high quality data. Astronomers need a huge amount of CPU power to model and analyse the data. See more...
SRBase		2013-01-02	Windows, Linux, MacOS	GPU CPU	No		Independent	Mathematics		Trying to solve Sierpinski / Riesel Bases up to 1030. See more...
TN-Grid	8	2014-05-01	Windows, Linux, ARM, macOS	No	No		Research Area of Trento of the National Research Council of Italy, University of Trento	Genetics	Listen	Gene@home is a scientific project belonging to the infrastructure TrentoGrid. It aims to expand networks of genes. See more...
USPEX@HOME	2	2017-04 (Restart 2022-10-23)	Windows, Linux, macOS	No	Yes, Both		uspex-team.org			Research in the field of computational materials design. See more...
World Community Grid	77	2004-11-16	Windows, Linux, ARM, macOS, Android	GPU CPU	No	view	Krembil Research Institute	Multiple applications		Disease research, various worldwide humanitarian problems. Subprojects include(d) GO Fight Against Malaria, Drug Search for Leishmaniasis, Computing for Clean Water, Clean Energy Project, Discovering Dengue Drugs - Together, Help Cure Muscular Dystrophy, Help Fight Childhood Cancer, Help Conquer Cancer, Mapping Cancer Markers, Human Proteome Folding Project, FightAIDS@Home, Uncovering Genome Mysteries, Let's outsmart Ebola together, Help Stop TB, OpenZika, Smash Childhood Cancer, Open Pandemics - COVID-19. See more...
WUProp@Home		2010-03-27	Windows, Linux, ARM, MacOS, Android	No	No		Independent	Statistics		Collect various statistics about other BOINC projects. See more...
YAFU		2011-09-01	Windows, Linux	No	No	view	Independent	Software testing, Mathematics		Test BOINC server software, integer factorization. See more...
yoyo@home	9	2007-07-19	Windows, Linux, ARM, macOS	No	No	view	Independent	Mathematics, physics, evolution		Data structure analysis to help prove a conjecture, elliptic curve factorization, pion creation in a particle accelerator, evolution research, find the shortest optimal Golomb ruler of length 28. See more...

Private BOINC Projects

Project Name	Publications	Launched	Screen saver	Sponsor	Category	Research Focus
BOINC Alpha Test		2004-02-16	view	University of California, Berkeley	Software testing	BOINC Alpha Test allows volunteers to test new versions of BOINC client software on a wide range of computers, thereby increasing the stability and reliability of the software versions released to the public.
AraBOINC		2012
Distributed Data and Media Processing		2018		Independent	Data processing	A private data processing project where tasks like data compression and audio encoding are performed. The idea is to do data tasks in the background and in a distributed fashion.
iedera				Independent	Botany	A program to select and design subset seed and vectorized subset seed patterns.
Common Compute		2024-05		Independent		Software testing.
Templet Project	1			Samara National Research University	Education	Teach parallel and distributed programming to undergraduate and graduate students of Samara National Research University.

Completed BOINC Projects

Project Name	Publications	Launched / Completed	Operating System	GPU App	Vbox	Screen saver	Sponsor	Category	BOINC Radio	Research Focus
SETI@home	12	1999-05	Windows, Linux, MacOS, Solaris, Other	GPU CPU		view and view	University of California, Berkeley	Astronomy	Part 1 of three and Part 2	In 1995, David Gedye proposed doing radio SETI using a virtual supercomputer composed of large numbers of Internet-connected computers, and he organized the SETI@home project to explore this. The search for extraterrestrial life by analyzing radio frequencies emanating from space.
SETI@home Beta		2006-01-12	Windows, Linux, MacOS, Solaris, Other	GPU CPU		view	University of California, Berkeley	Software testing	Part 3	Test project for SETI@home.
Predictor@home	5	2004-05-04	WinXP-98, Linux, MacOS X (Not Intel)				The Scripps Research Institute			A world-community experiment and effort to use distributed world-wide-web volunteer resources to assemble a supercomputer able to predict protein structure from protein sequence. Our work is aimed at testing and evaluating new algorithms and methods of protein structure prediction in the context of the Sixth Biannual CASP (Critical Assessment of Techniques for Protein Structure Prediction) experiment.
ALife@Home		2004-07-19	WinXP-98					Artificial intelligence	Watch	An effort to conduct scientific experiments regarding neural networks and evolution on the computers of volunteers.
Pirates@HomeMission1 Pirates@Home Primates@Home		2004 / 2006 / 2008-04-01	Windows, Linux, MacOS			view	Vassar College / Independent / Independent	Software testing	Watch	Pirates@Home Mission 1 helped to develop the Einstein@Home screensaver. Pirates@Home tested BOINC's forum software for possible use by Interactions in Understanding the Universe. Primates@Home tested the reaction of Pirates@Home users to a disturbance in their accustomed environment.
translator@home		2005-03-23								translator@home was in the process of creating new software linked to BOINC but never developed.
Shoft@Home		2005					Independent
Break the Forum!		2005						Software testing		Test BOINC forum software.
dIST		2005								A Cape4 project.
cape4										Another Cape4 project.
BOINC GAMESS		2005					Independent			Project never overcame Warning: mysql_pconnect(): Can't connect to local MySQL server through socket.
BIFI@home		No								Solve calculations that contribute to the research carried out at the Institute of Biocomputing and Physics of Complex Systems at the University of Zaragoza (BIFI).
IMP		2005					The IMP Team	Software testing		Internet Movie Project. Test Project copyright © 2005 The IMP Team.
LHC@home Alpha		2005	WinXP-98, Linux					Software testing		Test Project for LHC@home.
HashClash	11	2005-11-24	WinXP-98, Linux							Using techniques from the attack from Wang et al., we are trying to find collisions which are more flexible. More concretely, we will allow the first blocks of two messages to be chosen at will. This attack is in ongoing research, however it is already clear that it requires large scale computational power. Therefore, project HashClash was started.
TANPAKU	2	2005-08-02	WinXP, Linux				Tokyo University of Science			Analyzed protein structure prediction.
Nagrzewanie stali@HOME
The Lattice Project-original	16	2006	WinXP-98				University of Maryland, College Park			The Cummings Laboratory is using gsi to assess the performance of the statistic in a variety of situations. Maile Neel and Joanna Grand are using Marxan to quantify the effects of poor and incomplete data on the ability to capture biological diversity in nature reserves. The Laboratory of David Fushman is running protein:protein docking algorithms on Lattice. Floyd Reed and Holly Mortensen from the Laboratory of Sarah Tishkoff have run a number of MDIV and IM simulations through The Lattice Project.
Folding@home		2006	WinXP				Stanford University
Docking@Home-utep		No					University of Texas at El Paso			The goals of the project are to explore the multi-scale nature of algorithmic adaptations in protein-ligand docking and to develop cyber infrastructures based on computational methods and models that efficiently accommodate these adaptations.
ECDLP PROJECT		2006
ntbz Test Project								Software testing
Renderfarm		2006-08-10	WinXP-98, Linux							Another URL for the project: http://renderfarm.povaddict.com.ar/
RenderFarm@Home		2006-08-23
Distributed Rainbow Table Generator		2006	WinXP-98, Linux				The Minouche Research Laboratories			The Distributed Rainbow Table Generator project of The Minouche Research Laboratories; a community project dedicated to large scale distributed calculation of huge Rainbow Tables.
Belgian Beer@Home		2006-12-08	WinXP-98, Linux				BOINC.BE			An effort of people from the BOINC.BE team.
Enigma@Home	2	2007-08-24								An attempt to break 3 original Enigma messages that were intercepted in 1942.
Internet Movie Project		2007-07-15	Windows, Linux, MacOS					Software testing		Setting up a renderfarm to power the Internet Movie Project. Note that this project will never export credit stats.
Predictor@home Alpha		2007 / 2009					The Scripps Research Institute			Test project for Predictor@home.
Zivis Superordenador Ciudadano		2007	WinXP, Linux					Software testing
Zebra RSA Brutforce		2007	WinXP-98				Darkscout - a Computer Science student.			The Project originates from an idea in a forum. An attempt to break the RSA-key for the checksum of RSA-Smart card by Brute-force search.
Sudoku project		2007-08-27					Graz, University of Technology			Uses Internet-connected computers to search for the smallest possible start configuration of Sudoku.
Eternity2.net		2007					Dave Clark, Auckland			A project to try to solve the Eternity II puzzle™.
ROC							University of California, Berkeley
Project Neuron		2007-11-25	WinXP-98, Linux				Independent			Provide a trial BOINC environment in which a set of dummy applications will run. The purpose of this being to record, observe and understand BOINC activity and data with a view to developing metrics that will establish or otherwise the quality/reliability/dependability of particular BOINC projects.
Gridfinity		2007
SciLINC		2007-03-22	WinXP-98				Missouri Botanical Garden			Increase public access to nationally significant scientific literature. Enhance the usefulness of digitized materials by creating a Web repository of scanned literature, keywords, and online resources with tools for searching and analysis. Create an educational tool for learning about plant life. Provide a model for adopting public-resource computing applications within the library community.
Sleeper		2007-03					University of California, Berkeley			Test project for BOINC Alpha Test.
pPot Tables		2008					Independent			Computing relative hand strength and 1-card lookahead positive potential for all possible flop, turn and hole card combinations for 2 to 10 players in Texas hold 'em.
Malariacontrol.net	26	2006-03-01	WinXP-98, Linux			view				A project with an application that makes use of network computing for stochastic modelling of the clinical epidemiology and natural history of Plasmodium falciparum malaria.
proteins@home	4	2006-09-15	WinXP			view				A large-scale Protein structure prediction project to contribute to a better understanding of many diseases and pathologies, and to progress in both Medicine and Technology.
DepSpid		2007	WinXP-98							Every DepSpid task is processed in two phases: a networking phase (Phase One) in which the DepSpid spider scans a set of web pages and stores results in a temporary database; and a computational phase (Phase Two) which uses the collected data to calculate dependencies between all pages.
Traveling Salesman Problem (TSP)		2007	WinXP, Linux							The Travelling salesman problem (TSP): for a given set of cities, visit each city once and only once and minimize the distance you travel.
XtremLab		2005	WinXP, Linux							Measuring the free resources available on personal computers involved in large-scale distributed computing.
BBC Climate Change Experiment			WinXP, Linux
3x+1@home		2008-02-18								A non-profit project trying to find high 3x+1 conjecture stopping times. The 3x+1 conjecture is also known as the Collatz conjecture.
Uppercase Application		2008								A research project that uses Internet-connected computers to do research in XXX.
NNSIMU Project
Extremadura@Home
Russian Desktop Grid		2009								A research project that uses Internet-connected computers to do research in XXX.
Virus Respiratorio Sincitial (VRS)	1	2010								VRS (from the Spanish Virus Respiratorio Sincitial) is a BOINC-based project which main aim is to simulate the behaviour of the human Respiratory Syncytial Virus (RSV).
Cels@Home [Second] Test Project										Research in cell adhesion.
Test Setup Project							Vanderbilt			A research project that uses Internet-connected computers to do research in XXX.
NCSSM Grid Computing Project		2007-04-04
Cell Computing
RND@home		2007	WinXP, Linux							Radio Network Design (RND) is a telecommunication problem which consists in covering a geographic area with radio signal using the fewer number of transmitters that cover the maximum area.
EDGeS Local Test		2007								A research project that uses Internet-connected computers to do research in XXX.
Satisfaction@Home		2007	WinXP, Linux
NanoHive@Home	1		WinXP				Nanorex, Inc.			NanoHive-1 is a modular simulator used for modeling the physical world at a nanometer scale. The intended purpose of the simulator is to act as a tool for the study, experimentation, and development of nanotech entities.
SHA 1 Collision Search Graz		2007-08-08	WinXP-98, Linux				Graz University of Technology			A research project that uses Internet-connected computers to do research in cryptanalysis.
Project Sudoku		2007-08-27	WinXP-98, Linux, MacOS				Graz University of Technology			A research project that uses Internet-connected computers to search for the smallest possible start configuration of Sudoku.
APS@Home		2007-08-30	WinXP-98, Linux				University of Manchester			The effects that atmospheric dispersion has on the measurements used in climate prediction.
Reversi		2008-05-16					Independent			Determine who wins in Reversi game - first player, second player or if the game is tied.
Ramsey@Home		2008-06-14					Nick Peterson			A volunteer computing project designed to find new lower bounds for various Ramsey numbers using a host of different techniques.
Anansi		2008
EAPS@HOME		2008								A research project that uses Internet-connected computers to do research in Artificial Intelligence.
CSB@Home / BCL@Home		2008-06-05 / 2008								A research project that uses Internet-connected computers to do research in Computational Structural Biochemistry.
Genetic Life		2008-06-18								A not-for-profit research project that uses Internet-connected computers to do research into Genetic Algorithms.
African Grid Lab ALPHA		2008-10-05								An incubation laboratory environment for African based BOINC projects.
BRaTS@Home	2	2007-06-05	WinXP-98, Linux, MacOS							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.
Artificial Intelligence System		2007-09-05								The neural network simulator is an application that simulates neurons. Each downloaded work unit generates 500,000 biophysical neurons.
DynaPing		2009								Ensure highest availability of your web services. DynaPing uses computers around the world to monitor your web service availability and alerts you of any downtime.
NQueens@Home		2007-08-10	Windows				University of Concepción			This project uses Internet-connected computers to solve the N Queens problem.
Ibercivis	18	2007-11				view				Ibercivis is a research project that uses Internet-connected computers to do research in physics, material science and biomedicines and is based at several institutes and universities; Zaragoza, CETA-CIEMAT, CSIC, Coimbra.
Ibercivis BOINC		2020-10								The Biophym Group of the CSIC Institute for the Structure of Matter has proposed to carry out simulations of the interaction of drugs used against Ebola, HIV infection, influenza or hepatitis B with the genome replication machinery of the SARS-Co-V virus.
DECS		2007-10-05								The Generic Distributed Exact Cover Solver (DECS) project uses Internet-connected computers to solve exact cover problems. Exact cover is a general type of problem which can be used to solve problems including n-queens, Latin Square puzzles, Sudoku, polyomino tiling, set packing and set partitioning.
LHC Atlas Test		2007-08-14								Test project for LHC@home.
Cunning Plan		2007								Was being used to test account creation.
Test Project Christian Beer		2007						Software testing
MAPtheGAP		No								Eliminating racial disparities in health.
DNA@Home	2	2010-04-14								The new versions allow for different motif types which are different models for how a binding site could look. One is palindromic, where the nucleotides in the beginning of the model have their complement at the end of the model. The other model type is reverse complement, which doesn't assume the model to be palindromic, but looks for either the forward or reverse version of the model.
3g Bridge Project		2009								A research project that uses Internet-connected computers to do research in XXX.
LHC@Home Experimental		2007						Software testing		For internal testing only; any workunits issued are for testing and do not yet have any scientific value. Please remain attached to the official LHC@Home server!
Superlink@EGEE queue		No
UCT:malariacontrol.net		2008-03-31						Software testing		A test project in collaboration with MalariaControl.net in Switzerland that aims to test the correct operation of our server for future BOINC-based projects.
Rectilinear Crossing Number		2006-06-30	WinXP, Linux			view				Use sophisticated mathematical methods to determine the rectilinear crossing number for small values of n.
VTU@home, VGTU@home	2	2006-04-13	WinXP, Linux				Vilnius Gediminas Technical University			The aim of this project is to provide a powerful distributed computing platform for scientists of Vilnius Gediminas Technical University (VGTU) as well as other Lithuanian academic institutions.
AQUA@home	4			Yes		view	dwavesys
μFluids	3	2005-09-19	WinXP-98							Study fluid behavior in microgravity to design satellite propellant management devices.
Evo@home		2010-11-22					University of Liège			A research project that uses Internet-connected computers to do research in Machine Learning. This project uses Evolutionary Algorithms to optimize the parameters of different kind of machine learning algorithms.
GMDHGrid		2010					Kiev Polytechnic Institute			Data mining, knowledge discovery, prediction, complex systems modeling, optimization and pattern recognition.
Czech National Team project							Czech National Team	Software testing		A test project for our new BOINC server helping us to find and fix some bugs and create a new project which is being prepared.
SHETI		2009-01-08								Sheti is a research project that uses Internet-connected computers to solve the 131-bit Certicom ECC Challenge.
Mothership@Home		2008								Mothership@Home is dedicated in loving memory of my mother Patricia Horner (1942-1987), my husband Joshua Resnick (1965-1999) and all others who have passed away prematurely due to medical conditions.
Monte Carlo Pi		2008					George Fox University			A research project that uses Internet-connected computers to do research in XXX.
CancerGrid		2008
Silly Pi Calculation		2008					Nicolas
FPGA@Home		No								This is an open collaboration for porting Berkeley Open Infrastructure for Network Computing (BOINC) based volunteer computing projects on Field Programmable Gate Arrays (FPGAs).
UTP Desktop Grid							Universiti Teknologi Petronas			UTP Desktop Grid (UTPDG) is a research project that uses Internet-connected computers to do research in various areas of parallel computational problems.
FightMalaria@Home		2012-07-20					Dr Anthony Chubb			Perform docking simulations on malaria proteins.
V-BOINC										The VBOINC project is the first attempt to use virtual machines with BOINC.
OProject@Home	1	2012-08-13								Algorithm analysis. OProject@Home based at Olin Library (Rollins College).
Climate@Home							George Mason University, NASA			Research for spatiotemporal computing and climate predictions.
BigData@home			Windows, Linux							Crawl Internet New Media Information.
Quake-Catcher Network	13	2007-12-05 / 2023-06-01				view	Stanford University, then University of Southern California			Research, education, and outreach in seismology.
Quake-Catcher Network EMSC / CSEM						view				Research, education, and outreach in seismology.
Mersenne@home
B25@Home
boincPi
Surveill@home							University of Coimbra			Conduct end-to-end fine-grained monitoring of web sites.
Chess960athome		2006-03-20								Chess960 is a young innovative chess variant. In Chess960, just before the start of every game, the initial configuration of the chess pieces is determined randomly. In this project we try to combine Chess960 and the idea of distributed computing to give this chess variant some basics in theory.
FreeHAL							Tobias Schulz / Powered by SETI.Germany and Planet 3DNow!			FreeHAL@home is a research project that uses Internet-connected computers to parse and convert big open source semantic nets for use in FreeHAL.
Goldbach's Conjecture Project		2009-07-23	Windows, Linux							Effectively proving Goldbach's weak conjecture.
NinjaGrid		2009						Mathematics		3x+1.
physics@home		2013-02-16					Vasyl Kuzmenko			Research in Solid-state physics, Materials science, Optics and Chemistry.
UH Second Computing							University of Houston College of Technology			We are in the process to simulate macromolecular interactions in a living cell.
Babel										Testing translations of BOINC server and forum.
EON2v1@clusters
Prob
Bioinfo@Home
DistrRTgen										By distributing the generation of rainbow chains, we can generate HUGE rainbow tables that are able to crack longer passwords than ever seen before.
Picevolvr		2010					Michael Cullen			Uses Internet-connected computers to generate artwork completely automatically.
QuantumFIRE alpha		2010					University of Cambridge			Quantum foundations and Solid-state physics research.
Replace With Project Name		2013								http://boinctest.codeq.pl/boinctest/
Plagiarism@Home		2013					Krzysztof Piszczek			Search given text for potential plagiarism in Internet resources.
Comcute emBOINC		2012
Comcute Boinc		2013
Chess@Home		2014-01-05					Michal Stanislaw Wojcik			Construct a chess winning position classifier based on simple features. The first goal is to establish how far we can get with relatively cheap methods of position evaluation. The second goal is to use more advanced machine learning techniques to emulate human behaviour of various levels of chess proficiency.
computers-chess		2013								A research project that uses Internet-connected computers to do research in XXX.
Synchronised		2013 / 2014					University of Catania	Molecular Modelling		Pharmaceutical chemistry research.
The Clean Energy Project							Harvard University			Merged into World Community Grid.
Universe@Home test project							University of Warsaw			Test project for Universe@Home.
eOn2	6									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 chemical reactions and/or diffusion occur.
SimOne@home	1									The project focuses on the osmoprotection phenomenon. In nature there are small molecules that are able to protect proteins from thermal stress. Answering this question could have a major impact in agriculture, e.g. developing plants that require less water intake.
Docking@Home	20	2006-09-11 / 2014-05-23	WinXP-98, Linux, MacOS X/Intel			view	University of Delaware			Perform scientific calculations that aid in the creation of new and improved medicines to help cure diseases such as HIV.
LHC Test4Theory		2011
vLHCathome		2011								This is a project that utilizes the CERN-developed CernVM virtual machine and the BOINC virtualization layer to harness volunteer cloud computing power for full-fledged LHC event physics simulation on volunteer computers.
Web Computing		2011								A research project that uses Internet-connected computers to do research in XXX.
Ideologias@Home										Study how people in a certain region evolve ideologically over time with respect to an idea.
alfa_puente		2012								A research project that uses Internet-connected computers to do research in XXX.
DG@Putra		2012-02-23					Universiti Putra Malaysia			Putra Desktop Grid is UPM's implementation of a DesktopGrid network. The project is fully supported by the International Desktop Grid Federation (IDGF).
QCN Continual Sensor Monitoring		2012-04-18				view				Research, education, and outreach in seismology.
QCN Taiwan		2012-04-16				view				Research, education, and outreach in seismology.
QCN Red Atrapa Sismos						view				Research, education, and outreach in seismology.
Web2Grid Development		2012								A research project that uses Internet-connected computers to do research in XXX.
TABLE TRANSCRIBER		2012
Replace With Project Name										http://boinc.rm-hs.de/test/
boinctest
NanoModeling@home		2012-05-03								For designing nanostructures and nanorobots. Our goal is molecular modeling of targeted drug delivery systems, nanorobots and related nanostructures.
CERNVM/Vboxwrapper Test Project										A research project that uses Internet-connected computers to do research in XXX.
Attic Proxy Project										A research project that uses Internet-connected computers to do research in XXX.
NORLIST@HOME		2014					Kazakhstan National Scientific Laboratory			Kazakh speech recognition.
PUCBi Desktop Grid		2015					Perdana University Centre for Bioinformatics (PU-CBi)			Provide education and training to support the development and continuity of in-house programmes, in particular to advance the translational bioinformatics skills of the next generation doctors and clinician scientists.
Gridcoin Finance		2015								The project performs financial simulations, analysis of the block chain, consolidate humanitarian reports, calculate marketing strategies, perform stock option analysis, harvest business intelligence, and assimilate top level results for the crowdsourced web pages.
nanosurf		2016-06-16					Oleg Schevchenko			Researching surface physics. In particular, the development of optical devices. Theoretical modeling of surface quantum dots makes it possible to provide recommendations to a group of experimenters.
BMG@Home		2016-02-25						Chemistry
AndersonAttack@home	1	2017		Yes			Matrosov Institute for System Dynamics and Control Theory			Implement Anderson's attack on A5/1 GSM stream cipher.
Stop@home		2017-09-17					256Ghz			Today we can't imagine our life without internet and its services. Our team wants to use distributed computing to solve mathematical tasks and improve algorithms.
Riojascience@home							Knet Communications and the University of La Rioja			A platform for biomedical research.
iGem@home		No
Bitcoin Utopia		2013-06-05								Mine cryptocurrencies for incentive awards and science projects.
Drug@Home							School of Pharmacy, Ecust China University of Science & Technology			This study applied an efficient virtual screening strategy integrating molecular docking with MM-GBSA rescoring to identify diverse human dihydroorotate dehydrogenase (hDHODH) inhibitors.
Edges Bridge Production										A research project that uses Internet-connected computers to do research in XXX.
RSA Lattice Siever(2.0)		2009-12-24 / 2012								Help other factoring projects such as mersenneforum or XYYXf achieve their academic goals. Merged into NFS@Home.
EDGeS@Home	12	2009-10-28								To support the execution of selected and validated scientific applications developed by the EGEE and EDGeS community.
Cels@Home						view				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 is a critical event that makes the disease much harder to treat.
jplan
Beauty@LHC										Based at CERN and is a project of the LHCb experiment.
Putra Desktop Grid										A research project that uses Internet-connected computers to do research in XXX.
Virtual Prairie	1						University of Houston			Take into account plant vegetative reproduction e.g. the ability of each perennial grass to colonize space through cloning.
Najmanovich Research Group	3									Research in molecular recognition and computer-aided drug design.
Sustainable Grid		2012-01-11					Enterprise Application Development Group at the University of Applied Sciences Zittau/Goerlitz			Bundles hardware resources of the university and provides this computational power to the scientists for their research purposes.
Ciência Em Sua Casa										Science in Your Home. Search for Wilson prime numbers and DNA sequencing.
Donate@Home										Allows participants to donate towards funding by using their GPU to mine for BitCoins.
Student01										A research project that uses Internet-connected computers to do research in XXX.
Student02										A research project that uses Internet-connected computers to do research in XXX.
BIoS							TU Delft
EDGI Demo Project										A research project that uses Internet-connected computers to do research in XXX.
AtticFS Proxy Application Project on BOINC										The AtticFS Proxy application acts as a translation layer between HTTP and the AtticFS. This allows BOINC Projects to utilise AtticFS easily.
SubsetSum@Home	1						Computer Science Department of the University of North Dakota			See how far we can extend the empirical evidence of the Subset Sum problem. Find better ways to apply volunteer computing to combinatorial problems.
distributedDataMining										Research in the various fields of Data Analysis and Machine Learning.
DNETC@HOME										A wrapper between BOINC and distributed.net.
SLinCA										SLinCA (Scaling Laws in Cluster Aggregation) is involved with research in the field of materials science.
SZTAKI Desktop Grid Research Facility			WinXP-98, Linux, MacOS X				Hungarian Academy of Sciences			This project is the test & research facility for SZTAKI Desktop Grid.
Hydrogen@home			WinXP-98, Linux, MacOS X (Not Intel)							Enhance clean energy technology by improving hydrogen production and storage.
convector@home										Calculate global optimum of 52 bar truss.
Spinhenge@home	3		WinXP-98			view				Support the research of nano-magnetic molecules. In the future these molecules will be used in the local tumor chemotherapy and to develop tiny memory-modules.
Beal@Home										Beal's conjecture is a conjecture in number theory: where A, B, C, x, y, and z are positive integers with x, y, z > 2, then A, B, and C have a common prime factor. Beal initially offered a prize of US $5,000 in 1997, raising it to US $1,000,000.
BealF@Home										Part of the Master Thesis: Testing Beal conjecture using supercomputers and distributed computing platform BOINC. The predecessor of the project was Beal@Home.
Superlink@Technion	4		WinXP-98, Linux							Helps geneticists all over the world find disease-provoking genes causing some types of diabetes, hypertension (high blood pressure), cancer, schizophrenia and many others.
Biochemical Library		2011								Research in Biochemical Library.
Jarifa
NetMax@home										Research in dynamic routing at telecommunication networks.
Replace With Project Name										https://web.archive.org/web/20140903030559/http://gilda117.ihep.ac.cn/ATLAS
LHC+@Home
Replace With Project Name										http://isaac.ssl.berkeley.edu/test2/
BOINC@Fiit							Slovak University of Technology, Bratislava			TBA.
v8boinc
GA@home
Luxrenderfarm@home										Renderfarm for Luxrender.net.
sudoku@vtaiwan										Develop new techniques and use them to modify the program Checker (written by Gary McGuire).
MilestoneRSA										Break a 1024 bit RSA key used by Motorola to sign the boot and recovery partitions on the Motorola Milestone.
ILS-ESP-2014										Research for solving the permutation FLOW-SHOP problem.
Russian Words Compatibility										Research in Russian computational linguistics.
Neurona@Home	2									Simulating the behavior of a large assembly of cellular automata neurons connected in a complex network.
OPTIMA@HOME										Solve challenging large-scale optimization problems.
Correlizer	5									Revealing the mysteries of genome organization.
Taiwan Desktop Grid										Support the drug discovery, earthquake simulation and climate change applications developing in Asia and also to support the applications developed by IDGF.
AndrOINC										To break a 1024 bit RSA key used by Motorola to sign the boot and recovery partitions on the Motorola Milestone.
FiND@Home		2012-07-20					Dr Anthony Chubb			A research project that uses donated CPU time to perform docking simulations on malaria proteins.
Primaboinca										This project concerns itself with two hypotheses in number theory: Agrawal's Conjecture (the basis for the AKS algorithm) and Popovych's conjecture, which adds a further condition and could reduce the time of a deterministic prime test from O(log N)^6 to O(log N)^3.
Seasonal Attribution Project			WinXP, Linux							By comparing the results of climate simulations, half of which will include the effects of human-induced climate change, and half of which will not, we will investigate the possible impact of human activity on extreme weather risk.
Solar@home										Make more efficient solar cells.
Magnetism@home										Explore the equilibrium, metastable and transient magnetization patterns in nano-scale magnetic elements and their arrays.
HIAST@HOME		2013								A research project that uses Internet-connected computers to do research in XXX.
DNA@Home	2									Discover what regulates the genes in DNA.
The Lattice Project	16		WinXP, Linux, Mac				University of Maryland	Multiple applications		Run legacy science applications: Phylogenetic Analysis (GARLI), Protein Sequence Comparison (HMMPfam), Conservation Reserve Network Design (MARXAN).
POEM@HOME	5									Protein structure prediction has been complemented by other nanoscale molecule simulations. Within the scope of polymer crystallography we are researching conformations of organic hydrocarbons.
POEM@TEST										Test project for POEM@HOME.
Spatiotemporal Quality of Service (QoS)										Perform distributed web service evaluation so that more accurate service quality information can be delivered to end users.
RieselSieve			WinXP					Mathematics		k+2n-1 problem, eventually merged with PrimeGrid.
mopac@home								Chemistry		Research in quantum chemistry.
Wildlife@Home							University of North Dakota			Analyze video gathered from various cameras recording wildlife.
Volpex@Home	9						University of Houston			Research in creating effective parallel computing on multiple volatile nodes.
MindModeling@Home (Palm)							University of Dayton Research Institute and Wright State University			Test project for MindModeling@Home.
MindModeling@Home (Beta)						view	University of Dayton Research Institute and Wright State University			Test project for MindModeling@Home.
AlmereGrid
AlmereGrid TestGrid										Test Grid of AlmereGrid.
AlmereGrid Boinc testGrid										No independent verification that this was a BOINC project.
DBN Upper Bound										Polymath project related to the theory of the Riemann zeta function.
ABC@home	1		WinXP-98, Linux							An educational and non-profit volunteer computing project finding abc-triples related to the ABC conjecture.
ABC@home beta			WinXP-98, Linux							Test project for ABC@home.
ABC Lattices @Home										Searching for good abc-triples. Unlike ABC@Home, this project is not aiming for a thorough search of a certain range of numbers. Instead, we are trying to find good triples with the help of a specialized algorithm in areas beyond 2^100.
CPDN Beta										Test project for climateprediction.net.
Atlas@home										A research project that uses volunteer computing to run simulations of the ATLAS experiment at CERN.
SIMAP	5		WinXP, Linux, Mac OS, Other							Many computational methods in biology and medicine are based on protein sequence analysis, e.g. to predict the function and structure of genes and proteins. SIMAP facilitates these methods by providing pre-calculated protein similarities and protein domains.
Leiden Classical	2		WinXP-98, Linux, MacOS X (Not Intel)			view and view				Dedicated to general Classical Dynamics for any scientist or science student.
SZTAKI Desktop Grid	5	2005-05-26	WinXP-98, Linux, MacOS X (Not Intel), Solaris					Multiple Applications		The SZTAKI Desktop Grid and its applications are partly supported by the DEGISCO and the EDGI projects. The work leading to these results has received funding from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreements n° RI-261561 and n° RI-261556.
Orbit@home	1		Windows, Linux							Produce an optimized search strategy for dedicated astronomical surveys to search for near-Earth asteroids.
theSkyNet POGS	3									Research in astronomy. Combine the spectral coverage of GALEX, Pan-STARRS1, and WISE to generate a multi-wavelength UV-optical-NIR galaxy atlas for the nearby Universe.
theSkyNet Sourcefinder										Provide a means to test the effectiveness of various astronomical sourcefinding applications.
Nickeycat										No independent verification that this was a BOINC project.
XANSONS for COD	2									Create an open access database of simulated x-ray and neutron powder diffraction patterns for nanocrystalline phase of the materials presented in the Crystallography Open Database (COD).
Constellation										Research in various aerospace related sciences and engineering.
Acoustics@home	2						Matrosov Institute for System Dynamics and Control Theory of SB RAS			Solving inverse problems in underwater acoustics.
Drug Discovery@home										Model the behavior of leading compounds that could be developed into new medicines.
SAT@home	8									Solve hard and practically important problems (discrete functions inversion problems, discrete optimization, bioinformatics, etc) that can be effectively reduced to Boolean satisfiability problem.
Distributed Hardware Evolution Project										Host an island running a population based metaheuristic stochastic optimisation algorithm in a coevolutionary setting synthesising future super-reliable electronics such as those used in autonomous vehicles, power stations, medical equipment, aerospace.
SETI@CAMRAS
GoofyxGrid@Home CPU
usproteins@home
QMC@home	7		Windows, Linux			view		Multiple applications		Quantum-mechanical computations on medically relevant biomolecular systems, to help with developing quantum-mechanics-based approaches for computational drug design; and finding safer and greener materials for e-vehicle batteries.
Physiome@home										Research in human physiology.
CAS@home						view	Chinese Academy of Sciences			The main application is the TreeThreader which predicts protein structure.
scienterprise		2020								Enterprises own a lot of idle computing resources in their private cloud, while research projects are restricted by limited computing power. This project aims to decrease this imbalance by building CloudTides, an elastic platform on idle cloud resources.
volunteer@home		2021				view				Very small test project, no information.
Brainstorm@home										Investigate the molecular basis of brain-related diseases.
beef@home										Proof of concept temporary test project.
Citizen Science Grid							UND's Computational Research Center and Information Technology Systems and Services	Multiple applications		A wide range of research and educational projects using volunteer computing and citizen science, including DNA@Home, SubsetSum@Home, Climate Tweets, and Wildlife@Home.
Kryptos@Home										Solving one of the most famous unsolved puzzles - the three-decade old Kryptos sculpture located on the grounds of the Central Intelligence Agency.
MindModeling@Home	6	2007-03-17				view	University of Dayton Research Institute and Wright State University	Cognitive science		Computational cognitive process modeling to better understand the human mind.
Van Der Waerden Numbers	1	2021-02-02					Daniel Monroe	Mathematics		Van Der Waerden Numbers is a research project that uses Internet-connected computers to find better lower bounds for these numbers. Static mirror for this project: https://www.123numbers.org/
Big and Ugly Rendering Project (BURP)	2		Windows, Linux, Mac OS							Render animated videos including Big Buck Bunny.
BOINC Test project		2007-07-24				view	University of California, Berkeley	Software testing		A test project for BOINC development.
BOINC@TACC	3						Texas Advanced Computing Center	Multiple applications		Aerospace engineering, computational biology, and earthquake engineering.
BOINC@TACC dev							Texas Advanced Computing Center	Software testing		Test project for BOINC@TACC.
MLC@Home	1	2020-06-30 / 2022-08-02	Windows, Linux, ARM	GPU CPU	No		University of Maryland, Baltimore County	Cognitive science	Listen	Understanding and interpreting complex machine learning models.
T.Brada Experimental Grid		2019-02-03 / 2022-12-24		No	No		Independent	Mathematics		The PADLS Total subproject aims to find new pseudo-associative DLS.
QuChemPedIA@home	4	2019-07-01 / 2022-09-29	Windows, Linux, MacOS	No	Vbox only		Université Angers	Molecular Chemistry	Listen	Help chemical researchers around the world by building a unique collection of results and also help our AIs to propose much more new targets for the different applications we are addressing than we could do on our own.
Collatz Conjecture	1	2009-01-06	Windows, Linux, MacOS	GPU CPU	No		Independent	Mathematics		Study the Collatz conjecture, an unsolved conjecture in mathematics.
Cosmology@Home	5	2007-06-26 / 2024-01-10	Windows, Linux, MacOS, Android	No	Yes, Both		Institut d'Astrophysique de Paris	Astronomy	Listen	Find the most accurate models that best describe the universe.
WEP-M+2 Project		2006-05-12 / 2024-01-18	Linux, macOS	No	No		James Wanless, London, England	Mathematics	Watch	Factorization of Mersenneplustwo numbers. See more...
nanoHUB@Home		2012-07-26	Windows, Linux, MacOS	No	Vbox only		Purdue University	Nanotechnology	Listen	Research in nanoscience and nanotechnology. See more...
Unknown project
Unknown project
boinc@duq
ComsolGrid	1
BOINC-MR	2
Data freezer		2024-06-11	Linux	No	No		Independent	Storage		Build a data warehouse on consumer hardware. See more...
Albert@Home		2011-12-23	Windows, Linux, MacOS, Android	GPU CPU	No		University of Wisconsin–Milwaukee, Max Planck Institute	Software testing		Test project for Einstein@Home. See more...
Amicable Numbers		2017-01-05	Windows, Linux, ARM, MacOS	GPU CPU	No		Independent	Mathematics	Listen	Amicable numbers are pairs where the sum of the proper divisors of each is equal to the other number. The goal of this project is to collect all amicable numbers up to a very large limit. See more...
BlackHoles@Home		Not yet					University of Idaho	Astrophysics	Listen	Black hole collision simulations to maximize the science gained from gravitational wave observations. See more...
dodo@home		2024-11-07	Windows, Linux, MacOS	No	No		Independent			We will bring the Dodo back from extinction (well, we will give it a damn good try!). See more...
goofyxGrid@Home NCI		1) 2015-11-09 / 2) 2024-06-20	Windows, Linux	No	No		Independent		Listen	To simulate the infinite monkey theorem which states that a monkey hitting keys at random on a typewriter keyboard for an infinite amount of time will almost surely type any given text, including the complete works of William Shakespeare. See more...
LLMentorGrid		2025-01-22	Linux				Independent
Parlea		2022-12	Windows, Android	No	No			Mathematics		Investigate the efficiency and behavior of mobile devices as computing nodes on the BOINC platform for solving the Orthogonal Diagonal Latin Squares (ODLS) search problem. See more...
RALPH@home		2006-02-15	Windows, Linux, ARM, macOS, Android	No	Yes, Both	view	University of Washington	Software testing		Test project for Rosetta@home. See more...
RNA World (beta)	5	2009-05-21	Windows, Linux, MacOS	No	Vbox only	view	Independent research group in Marburg, Germany	Molecular biology	Listen	Uses bioinformatics software to study RNA structure. See more...
SPT@home		2023-06-14	Windows, Linux	No	No			Mathematics		The Symmetric Prime Tuples (SPT) project is a continuation of the T. Brada Experimental Grid project. See more...
Universe@Home	14	2015-02-19	Windows, Linux, ARM	No	No		Nicolaus Copernicus Astronomical Center of the Polish Academy of Sciences	Astronomy		Computational astrophysics, computer simulation of stars, galaxies and the Universe. See more...

Retrieved from "https://boincsynergy.ca/wiki/index.php?title=BOINC_projects&oldid=1420"

BOINC projects: Difference between revisions

Latest revision as of 17:21, 28 May 2026

Contents

Active BOINC Projects

Private BOINC Projects

Completed BOINC Projects

Navigation menu

@@ Line 1: / Line 1: @@
-{| class="wikitable sortable"
+{{SEO|description=BOINC Projects. A complete list of all active, private, and completed BOINC volunteer computing projects.}}
-|+ 48 Active Projects
+This is a comprehensive and continually updating List of All [https://boinc.berkeley.edu/projects.php BOINC projects]
+'''''Q - What is a BOINC project?'''''
+'''''A - BOINC project definition:''''' A [https://boinc.berkeley.edu/ BOINC] project is a website and server set up by an individual or group to distribute applications (software which is a set of instructions for executing tasks in a computing device) to BOINC volunteer computing devices that are deliberately attached to receive, process and return the results of the application for further research.[[File:{{#setmainimage:Banner.png}}|right|frameless|100x63px|BOINC Projects]]
+{| align="center"
+  | __TOC__
+  |}
+====Active BOINC Projects====
+{| class="wikitable sortable" style="font-size: 80%;"
 |-
-!BOINC Radio
+!Project Name
-! Project Name
+!Publications
-!Publication
+!Launched
-! Launched
 !Operating System
 !GPU App
-! Sponsor
+!Vbox
-! Category
+!Screen saver
-! Research Focus
+!Sponsor
+!Category
+!BOINC Radio
+!Research Focus
 |-
+| [http://asteroidsathome.net/boinc/ Asteroids@home]
+| [https://boinc.berkeley.edu/pubs.php#Asteroids@home 10]
+| 2012-06-18
+| [https://asteroidsathome.net/boinc/apps.php Windows, Linux, ARM, MacOS, Free BSD, Android]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU NVIDIA
+| {{No}}
 |
-| [https://albertathome.org/ Albert@home]
+| Astronomical Institute, Charles University, Prague
-|
+| Astronomy
-|2011-12-23
+| [https://podcasts.apple.com/us/podcast/asteroids-home/id1492837872?i=1000467560195 Listen]
-|
+| Derive shapes and spin for a significant part of the asteroid population. [[Asteroids@home|See more...]]
-|
-| [[University of Wisconsin–Milwaukee]], [[Max Planck Institute]]
-| [[Software testing]]
-| Test project for [[Einstein@Home]]
 |-
+| [https://boinc.berkeley.edu/central/ BOINC Central]
 |
-|[https://sech.me/boinc/Amicable/ Amicable Numbers]
+| 2023-02-04
 |
-|2017-01-05
+| {{No}}t yet
-|[https://sech.me/boinc/Amicable/apps.php Windows, Linux, MacOS]
+| {{No}}t yet
-|{{Yes}}
-|Independent
-|[[Mathematics]]
-| find new amicable pairs | [[Amicable numbers]] are pairs where the sum of the proper divisors of each is equal to the other number. The goal of this project is to collect all amicable numbers up to a very large limit.
-|-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ZDhiZDk2YWUtYzA1MS00ZDE4LWI2MDctZGQ4YzViMmNkNDky Listen]
-|[http://asteroidsathome.net/boinc/ Asteroids@home]
-|[https://boinc.berkeley.edu/wiki/Publications_by_BOINC_projects#Asteroids@home 7 Papers]
 |
+| University of California, Berkeley
+| Multiple applications
 |
-|
+| Gives scientists access to the power of volunteer computing without having to operate a BOINC project. [[BOINC Central|See more...]]
-|Astronomical Institute, [[Charles University]], Prague
-|[[Astronomy]]
-|Derive shapes and spin for a significant part of the asteroid population
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/Yjc1Y2NjNTUtNmNjZC00M2FjLTg0ZWMtMDBiYzZkZTJiOTA4 Listen]
+| [https://www.cpdn.org/cpdnboinc/ climate''prediction''.net]
-|[https://blackholesathome.net/ BlackHoles@Home]
+| [https://boinc.berkeley.edu/pubs.php#Climateprediction.net 152]
-|
-|{{No}}
-|
-|
-|[[West Virginia University]]
-|[[Astronomy]]
-|
-|-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/NzEwODEyYTUtMjgzNy00YjRhLWJlMzUtYWUwNWMwZjkwM2Iw Listen]
-| [https://www.cpdn.org/cpdnboinc/ Climate''prediction''.net]
-|
 | 2003-12-09
-|
+| [https://www.cpdn.org/cpdnboinc/apps.php Windows, Linux, ARM, MacOS]
-|
+| {{No}}
-| [[Oxford University]]
+| {{No}}
+| [https://youtu.be/Mae7JfL1giE view]
+| Oxford University
 | Climate study
-| Analyse ways to improve [[climate model|climate prediction models]]
+| [https://podcasts.apple.com/us/podcast/climate-prediction-dot-net/id1492837872?i=1000465982378 Listen]
+| Analyse ways to improve climate prediction models. [[Climateprediction.net|See more...]]
 |-
+| [https://dev.cpdn.org/ cpdnboinc dev]
 |
-|[https://dev.cpdn.org/ cpdnboinc dev]
 |
+| [https://dev.cpdn.org/apps.php Windows, Linux, MacOS]
+| {{No}}
+| {{No}}
 |
+| Oxford University
+| Software testing
 |
+| Test project for [[Climateprediction.net|climate''prediction''.net]]. [[Cpdnboinc dev|See more...]]
+|-
+| [https://denis.usj.es/denisathome/ DENIS@home]
+| [https://boinc.berkeley.edu/pubs.php#DENIS@home 6]
+| 2015-03-16
+| [https://480denis.usj.es/denisathome/apps.php Windows, Linux, ARM, MacOS]
+| {{No}}
+| {{No}}
 |
-|[[Oxford University]]
+| Universidad San Jorge, Zaragoza, Spain
-|[[Software testing]]
+| Medical physiology
-|Test project for [[Climateprediction.net|Climate''prediction''.net]]
+| [https://podcasts.apple.com/us/podcast/boinc-radio-project-brief-denis-home/id1492837872?i=1000576898376 Listen]
+| Cardiac electrophysiological simulations, studying the electrical activity of the heart. [[DENIS@home|See more...]]
+|-
+| [https://einsteinathome.org/ Einstein@Home]
+| [https://boinc.berkeley.edu/pubs.php#Einstein@Home 42]
+| 2005-02-19
+| [https://einsteinathome.org/apps.php Windows, Linux, ARM, MacOS, Android]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+| [https://youtu.be/kGWsTnmk1lw view]
+| University of Wisconsin–Milwaukee, Max Planck Institute
+| Astrophysics
+| [https://podcasts.apple.com/us/podcast/einstein-home/id1492837872?i=1000470993092 Listen]
+| Search for pulsars using radio signals and gravitational wave data. [[Einstein@Home|See more...]]
 |-
+| [http://gaiaathome.eu/gaiaathome/ Gaia@home]
 |
-| [https://boinc.thesonntags.com/collatz/ Collatz]
+| 2019-08-21
+| [http://150.254.66.104/gaiaathome/apps.php Linux]
+| {{No}}
+| {{No}}
 |
-| 2009-01-06
+| Astronomical Observatory Institute, Faculty of Physics, Adam Mickiewicz University in Poznań
+| Astronomy
 |
-|
+| Provide additional computing power to scientists studying the Gaia spacecraft data releases. [[Gaia@home|See more...]]
-| Independent
-| [[Mathematics]]
+|-
-| Study the [[Collatz conjecture]], an unsolved conjecture in mathematics
+| [https://gerasim.boinc.ru/ Gerasim@home]
+| [https://boinc.berkeley.edu/wiki/Publications_by_BOINC_projects#Gerasim.40home 9]
+| 2007-02-10
+| [https://gerasim.boinc.ru/apps.php Windows, Linux]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+| [https://youtu.be/cw7yBZ_KGGA view]
+| Southwest State University (Russia)
+| Multiple applications
+| [https://podcasts.apple.com/us/podcast/gerasim/id1492837872?i=1000515709940 Listen]
+| Research in discrete mathematics and logic control systems. [[Gerasim@home|See more...]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/MzM0NzE4NjgtMGY3My00ZGVjLTg3N2MtMDRlYzY0NjEyNzEx Listen]
+| [https://web.archive.org/web/20090210175851/http://www.ps3grid.net/ PS3GRID] became [https://gpugrid.net/gpugrid/ GPUGRID]
-| [http://www.cosmologyathome.org/ Cosmology@Home]
+| [https://boinc.berkeley.edu/pubs.php#GPUGrid.net 53]
+| 2007-12-05
+| [https://www.gpugrid.net/apps.php Windows, Linux]
+| style="vertical-align:center;text-align:center; background: cyan; color: black;" | GPU only NVIDIA
+| {{No}}
 |
-| 2007-06-26
+| Barcelona Biomedical Research Park
+| Molecular biology
 |
-|
+| Perform full-atom molecular simulations of proteins on Nvidia GPUs for biomedical research. [[GPUGRID|See more...]]
-| [[Institut d'Astrophysique de Paris]]
-| [[Astronomy]]
-| Find the most accurate models that best describe the universe
 |-
+| [https://comp.ithena.net/usr/ iThena.Computational]
 |
-|[https://denis.usj.es/denisathome/ DENIS@home]
+| [https://comp.ithena.net/usr/forum_thread.php?id=4 2021-10-31]
+| [https://comp.ithena.net/usr/apps.php Windows, Linux]
+| {{No}}
+| {{No}}
 |
-|2015-03-16
+| Cyber-Complex Foundation
+| Computer science
+| See below
+| A computational platform for analysis based on data extracted from iThena.Measurements project applications/sensors. [[IThena.Computational|See more...]]
+|-
+| [https://root.ithena.net/usr/ iThena.Measurements]
 |
+| [https://root.ithena.net/usr/forum_thread.php?id=5#17 2019-09-25]
+| [https://einsteinathome.org/apps.php Windows, Linux, ARM]
+| {{No}}
+| {{No}}
 |
-|Universidad San Jorge, Zaragoza, Spain
+| Cyber-Complex Foundation
-|[[Physiology|Medical physiology]]
+| Computer science
-|Cardiac electrophysiological simulations, studying the electrical activity of the heart
+| [https://podcasts.apple.com/us/podcast/boinc-radio-project-brief-ithena/id1492837872?i=1000580505988 Listen]
+| Generate a dynamic topological model of the Internet, based on measurements from distributed devices. [[IThena.Measurements|See more...]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ZGQwNGI5OTAtYTMwOC00NmM5LTk2Y2QtZWVmNjJiMGYxOGIx Listen]
+| [https://lhcathome.cern.ch/lhcathome/ LHC@home]
-| [https://einsteinathome.org/ Einstein@Home]
+| [https://boinc.berkeley.edu/pubs.php#LHC@home 71]
+| 2004-01-09
+| [https://lhcathome.cern.ch/lhcathome/apps.php Windows, Linux, ARM, MacOS, Free BSD, Android]
+| {{No}}
+| {{Yes}}, Both
+| [https://youtu.be/0qbLDbsNO3w view]
+| CERN
+| Physics
+| [https://podcasts.apple.com/us/podcast/lhc-home/id1492837872?i=1000477722614 Listen]
+| Helping physicists compare theory with experiment, in the search for new fundamental particles and answers to questions about the Universe. [[LHC@home|See more...]]
+|-
+| [https://lhcathomedev.cern.ch/lhcathome-dev/ LHCathome-dev]
 |
-| 2005-02-19
+| 2014-08-01
+| [https://lhcathomedev.cern.ch/lhcathome-dev/apps.php Windows, Linux, ARM, MacOS, Free BSD, Android]
+| {{No}}
+| {{Yes}}, Both
 |
+| CERN
+| Software testing
 |
-| [[University of Wisconsin–Milwaukee]], [[Max Planck Institute]]
+| A BOINC server for LHC@home development.
-| [[Astrophysics]]
-| Search for [[pulsar]]s using [[Radio astronomy|radio signals]] and [[gravitational wave]] data
 |-
+| [https://boinc.loda-lang.org/loda/ LODA]
 |
-|[http://gaiaathome.eu/gaiaathome/ Gaia@home]
+| 2022-05-13
+| [https://boinc.thesonntags.com/collatz/apps.php Windows, Linux, ARM, MacOS]
+| {{No}}
+| {{No}}
 |
-|2019-08-21
+| Independent
+| Mathematics
+| [https://podcasts.apple.com/us/podcast/boinc-radio-project-brief-loda-18-6-2022/id1492837872?i=1000570153809 Listen]
+| Finds new formulas and more efficient algorithms for a wide range of non-trivial integer sequences. [[LODA|See more...]]
+|-
+| [https://milkyway.cs.rpi.edu/milkyway/ MilkyWay@home]
+| [https://boinc.berkeley.edu/pubs.php#Milkyway@home 35]
+| 2007-07-07
+| [https://milkyway.cs.rpi.edu/milkyway/apps.php Windows, Linux, MacOS]
+| {{No}}
+| {{No}}
 |
-|
+| Rensselaer Polytechnic Institute
-|Astronomical Observatory Institute, Faculty of Physics, [[Adam Mickiewicz University in Poznań]]
+| Astronomy
-|[[Astronomy]]
+| [https://podcasts.apple.com/us/podcast/milkyway-home/id1492837872?i=1000468872520 Listen]
-| Provide additional computing power | Provide additional computing power to scientists studying the [[Gaia (spacecraft)]] data releases.
+| Create a highly accurate three-dimensional model of the Milky Way galaxy using data collected from the Sloan Digital Sky Survey. [[MilkyWay@home|See more...]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ODAyZTdjZmEtNjU5NS00NTlmLWJjZWEtNzU2YzNlNjBiNTZl Listen]
+| [https://minecraftathome.com/minecrafthome/ Minecraft@Home]
-| [https://gerasim.boinc.ru/ Gerasim@Home]
 |
-| 2007-02-10
+| 2020-06-24
+| [https://comp.ithena.net/usr/apps.php Windows, Linux, ARM]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
 |
+| Independent
+| Games
+| [https://podcasts.apple.com/us/podcast/minecraft-home/id1492837872?i=1000491697377 Listen]
+| Studies questions related to Minecraft, such as the properties of worlds that can be generated from different random seeds. [[Minecraft@Home|See more...]]
+|-
+| [https://moowrap.net/ Moo! Wrapper]
 |
-| Southwest State University ([[Russia]])
+| 2011-02-05
-| Multiple applications
+| [https://moowrap.net/apps.php Windows, Linux, ARM, MacOS]
-| Research in [[discrete mathematics]] and [[Control system#Logic control|logic control systems]]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+|
+| Independent
+| Cryptography
+| [https://www.youtube.com/watch?v=xZmTZJBh_D0 Watch]
+| Combines BOINC with distributed.net to try to break the RC5 cipher. [[Moo! Wrapper|See more...]]
 |-
+| [https://escatter11.fullerton.edu/nfs/ NFS@Home]
 |
-|[https://www.gpugrid.net/ GPUGRID]
+| 2009-09-05
+| [https://escatter11.fullerton.edu/nfs/apps.php Windows, Linux, MacOS, Free BSD]
+| {{No}}
+| {{No}}
 |
-|2007-12-05
+| California State University, Fullerton
+| Integer factorization
 |
+| Performs parts of the number field sieve in the factorization of large integers. [[NFS@Home|See more...]]
+|-
+| [https://numberfields.asu.edu/NumberFields/ NumberFields@Home]
+| [https://boinc.berkeley.edu/pubs.php#NumberFields@Home 3]
+| 2011-08-12
+| [https://numberfields.asu.edu/NumberFields/apps.php Windows, Linux, MacOS]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
 |
-|[[Barcelona Biomedical Research Park]]
+| Arizona State University's School of Mathematics
-|[[Molecular biology]]
+| Number theory
-|Perform full-atom molecular simulations of proteins on [[Nvidia]] [[GPU]]s for biomedical research
+| [https://podcasts.apple.com/us/podcast/project-brief-numberfields-home-15-05-2021/id1492837872?i=1000570068591 Listen]
+| Search for number fields with special properties to assist with the formulation of mathematical conjectures. [[NumberFields@Home|See more...]]
 |-
+| [https://boinc.progger.info/odlk/ ODLK]
 |
-| [https://root.ithena.net/usr/ iThena.Measurements]
+| 2017-04-06
+| [https://boinc.progger.info/odlk/apps.php Windows, Linux, MacOS, Free BSD]
+| {{No}}
+| {{No}}
 |
-| 2019-09-25
+| Independent
+| Mathematics
 |
-|
+| Compiles a database of canonical forms (CF) of 10th order diagonal Latin squares (DLS) with orthogonal diagonal Latin squares (ODLS). [[ODLK|See more...]]
-| Cyber-Complex Foundation
-| [[Computer science]]
-| Generate a dynamic topological model of the Internet, based on measurements from distributed devices
 |-
+| [https://boinc.multi-pool.info/latinsquares/ ODLK1]
 |
-| [https://comp.ithena.net/usr/ iThena.Computational]
+| 2017-10-22
+| [https://boinc.multi-pool.info/latinsquares/apps.php Windows, Linux, Free BSD]
+| {{No}}
+| {{No}}
 |
-| 2021-10-31
+| Independent
+| Mathematics
 |
-|
+| Generates a database of canonical forms (CF) of diagonal Latin squares (DLS) of order 10 having orthogonal diagonal Latin squares (ODLS). [[ODLK1|See more...]]
-| Cyber-Complex Foundation
-| [[Computer science]]
-| A computational platform for analysis based on data extracted from iThena.Measurements project applications/sensors
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ZGRlNGNhMTktOGI1OC00MzAwLWIzYWItMGYwNTkzMDM4ODA5 Listen]
+| [https://boinc.mak.termit.me/odlk2025/ ODLK2025]
-| [https://lhcathome.cern.ch/lhcathome/ LHC@home]
 |
-| 2004-01-09
+| 2024-12-18
+| [https://boinc.mak.termit.me/odlk2025/apps.php Windows]
+| {{No}}
+| {{No}}
 |
+| Independent
+| Mathematics
 |
-| [[CERN]]
+| Find canonical forms of diagonal Latin squares of order 10 with orthogonal diagonal Latin squares, extending the search beyond the ranges covered by ODLK and ODLK1. [[ODLK2025|See more...]]
-| [[Physics]]
-| Helping physicists compare theory with experiment, in the search for new [[Elementary particle|fundamental particles]] and answers to questions about the [[Universe]]
 |-
+| [https://www.primegrid.com/ PrimeGrid]
+| [https://boinc.berkeley.edu/pubs.php#PrimeGrid 3]
+| 2005-06-12
+| [https://www.primegrid.com/apps.php Windows, Linux, MacOS]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+| [https://youtu.be/rhZxqi9x7rI view]
+| Independent
+| Mathematics
 |
-|[https://lhcathomedev.cern.ch/lhcathome-dev/ LHCathome-dev]
+| Search for world record sized prime numbers, search for particular types of primes such as 321 primes, Cullen-Woodall primes, Proth prime, prime Sierpinski numbers, and Sophie Germain primes. Subprojects also include Seventeen or Bust, and the Riesel problem. [[PrimeGrid|See more...]]
+|-
+| [https://dev.primegrid.com/ PrimeGrid dev]
 |
-|2014-08-01
+| 2007-06-06
+| [https://dev.primegrid.com/apps.php Windows, Linux, MacOS]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
 |
+| Independent
+| Software testing
 |
-|[[CERN]]
+| Test project for PrimeGrid.
-|[[Software testing]]
-|Test project for [[LHC@home]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ZjNhZWU0NzYtMzU5OS00MGQ3LTg2NzItMDdmMDJhNDA2YThm Listen]
+| [http://boincvm.proxyma.ru:30080/test4vm/ PRIVATE GFN SERVER]
-|[https://boinc.loda-lang.org/loda/ LODA]
 |
-|2022–05-13
+| 2016-04-20
+| [http://boincvm.proxyma.ru:30080/test4vm/apps.php Windows, Linux]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
 |
+| Independent
+| Mathematics
 |
-|Independent
+| This is a PRIVATE SERVER to coordinate distribution of mathematical work on GFN. The server is open for everybody, but some BOINC experience is recommended. [[PRIVATE GFN SERVER|See more...]]
-|[[Mathematics]]
-|Finds new formulas and more efficient algorithms for a wide range of non-trivial integer sequences
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/OTgwMTI2YWUtMjFlYi00NWEzLTg3MzItY2E5YjMxNzcyZGY1 Listen]
+| [http://radioactiveathome.org/boinc/ Radioactive@home]
-| [https://milkyway.cs.rpi.edu/milkyway/ MilkyWay@home]
 |
-| 2007-07-07
+| 2011-10-21
+| [http://radioactiveathome.org/boinc/apps.php Windows, Linux]
+| {{No}}
+| {{No}}
 |
+| Independent
+| Physics
+| [https://podcasts.apple.com/us/podcast/radioactive-home/id1492837872?i=1000463072395 Listen]
+| Real-time radiation monitoring, detected by gamma sensors connected to volunteer computers. [[Radioactive@home|See more...]]
+|-
+| [https://rake.boincfast.ru/rakesearch/ RakeSearch]
+| [https://boinc.berkeley.edu/pubs.php#Rakesearch 4]
+| 2017-08-11
+| [https://rake.boincfast.ru/rakesearch/apps.php Windows, Linux]
+| {{No}}
+| {{No}}
 |
-| [[Rensselaer Polytechnic Institute]]
+| Independent
-| [[Astronomy]]
+| Mathematics
-| Create a highly accurate three-dimensional model of the [[Milky Way]] galaxy using data collected from the [[Sloan Digital Sky Survey]]
+| [https://podcasts.apple.com/us/podcast/rakesearch/id1492837872?i=1000496377228 Listen]
+| Implement an application that picks up separate pairs of mutually orthogonal DLSs, which allows reconstructing the full graphs of their orthogonality. [[Rakesearch|See more...]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/YjIyZTZmY2MtNzAxOC00MTIwLTg2NDgtZjI1Y2JiZWI4N2Zi Listen]
+| [https://rnma.xyz/boinc/ Ramanujan Machine]
-| [https://minecraftathome.com/minecrafthome/ Minecraft@Home]
+| [https://boinc.berkeley.edu/pubs.php#Ramanujan 2]
-|
+| 2021-10-14
-| 2020-06-24
+| [https://rnma.xyz/boinc/apps.php Windows, Linux]
-|
+| {{No}}
+| {{No}}
 |
 | Independent
-| [[Game]]s
+| Mathematics
-| Studies questions related to [[Minecraft]], such as the properties of worlds that can be generated from [[Linear congruential generator|different random seeds]].
+| [https://podcasts.apple.com/us/podcast/project-brief-ramanujan-machine-5-2-2022/id1492837872?i=1000570072053 Listen]
+| Conjecturing new mathematical formulas. [[Ramanujan Machine|See more...]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/MGY2YjYwNGYtMTFiMS00MzY3LTlmMDQtY2U3ZDQwMzdiZDA1 Listen]
+| [https://boinc.bakerlab.org/rosetta/ Rosetta@home]
-| [https://www.mlcathome.org/mlcathome/ MLC@Home]
+| [https://boinc.berkeley.edu/pubs.php#Rosetta@home 234]
+| 2005-10-06
+| [https://boinc.bakerlab.org/rosetta/apps.php Windows, Linux, ARM, macOS, Android]
+| {{No}}
+| {{Yes}}, Both
+| [https://youtu.be/6o5yBfG_vss view]
+| University of Washington
+| Molecular biology
+| [https://podcasts.apple.com/us/podcast/rosetta-home/id1492837872?i=1000472931628 Listen]
+| Protein structure prediction for disease research. [[Rosetta@home|See more...]]
+|-
+| [https://www.sidock.si/sidock SiDock@home]
 |
-| 2020-06-30
+| 2020-12-19
+| [https://www.sidock.si/sidock/apps.php Windows, Linux+OpenWrt, ARM, macOS]
+| {{No}}
+| {{No}}
 |
+| Russian Academy of Sciences
+| Molecular biology
 |
-| [[University of Maryland, Baltimore County]]
+| Independent decentralized drug design by volunteer computing. [[SiDock@home|See more...]]
-|[[Cognitive science]]
-| Understanding and interpreting complex [[machine learning]] models
 |-
+| [https://spaciousathome.eu/spaciousathome/ SPACIOUS@home]
 |
-| [https://moowrap.net/ Moo! Wrapper]
+| 2024-01-01
+| [https://spaciousathome.eu/spaciousathome/apps.php Linux]
+| {{No}}
+| {{No}}
 |
-| 2011-02-05
+| European Union
+| Astrophysics
 |
-|
+| Contribute to cutting-edge astronomy by sharing your idle computing time with professional astronomers. Space surveys such as the European Space Agency's Gaia telescope are generating large datasets of unprecedented high quality data. Astronomers need a huge amount of CPU power to model and analyse the data. [[SPACIOUS@home|See more...]]
-| Independent
-| [[Cryptography]]
-| Combines BOINC with [[distributed.net]] to try to break the [[RC5]] cipher
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/MDU4MTE2MTMtMmYwOC00NGM4LWEyMTUtNDVmZWRhZGQyZDFi Listen]
+| [https://srbase.my-firewall.org/sr5/ SRBase]
-|[https://boinc.nanohub.org/nanoHUB_at_home/ nanoHUB@Home]
 |
-|2012-07-26
+| 2013-01-02
+| [https://srbase.my-firewall.org/sr5/apps.php Windows, Linux, MacOS]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
 |
+| Independent
+| Mathematics
 |
-|Purdue University
+| Trying to solve Sierpinski / Riesel Bases up to 1030. [[SRBase|See more...]]
-|[[Nanotechnology]]
-| Research in nanoscience and nanotechnology | Research in nanoscience and nanotechnology
 |-
+| [https://gene.disi.unitn.it/test/ TN-Grid]
+| [https://boinc.berkeley.edu/pubs.php#TN-Grid 8]
+| 2014-05-01
+| [https://gene.disi.unitn.it/test/apps.php Windows, Linux, ARM, macOS]
+| {{No}}
+| {{No}}
 |
-| [https://escatter11.fullerton.edu/nfs/ NFS@Home]
+| Research Area of Trento of the National Research Council of Italy, University of Trento
+| Genetics
+| [https://podcasts.apple.com/us/podcast/tn-grid/id1492837872?i=1000482396321 Listen]
+| ''Gene@home'' is a scientific project belonging to the infrastructure ''TrentoGrid''. It aims to expand networks of genes. [[TN-Grid|See more...]]
+|-
+| [https://uspex-at-home.ru/prediction/ USPEX@HOME]
+| [https://boinc.berkeley.edu/pubs.php#USPEX@HOME 2]
+| 2017-04 (Restart 2022-10-23)
+| [https://uspex-at-home.ru/prediction/apps.php Windows, Linux, macOS]
+| {{No}}
+| {{Yes}}, Both
 |
-| 2009-09-05
+| [https://uspex-team.org/en uspex-team.org]
 |
 |
-| [[California State University, Fullerton]]
+| Research in the field of computational materials design. [[USPEX@HOME|See more...]]
-| [[Integer factorization]]
-| Performs parts of the [[number field sieve]] in the [[integer factorization|factorization of large integers]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/MjZiNmI5OGItOWRlYS00NDRiLWJlNjQtZGIxNzAzNDliOTdi Listen]
+| [https://www.worldcommunitygrid.org/ World Community Grid]
-| [https://numberfields.asu.edu/NumberFields/ NumberFields@Home]
+| [https://www.worldcommunitygrid.org/about_us/news.s?filterCategory=1_0&filterTags=14&sortBy=&pageNum=1 77]
+| 2004-11-16
+| [https://boinc.berkeley.edu/projects.php Windows, Linux, ARM, macOS, Android]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+| [https://www.youtube.com/playlist?list=PLblxpyGay1Q4PwdIlLTxko7jm9Jedv1ei view]
+| Krembil Research Institute
+| Multiple applications
+|
+| Disease research, various worldwide humanitarian problems. Subprojects include(d) GO Fight Against Malaria, Drug Search for Leishmaniasis, Computing for Clean Water, Clean Energy Project, Discovering Dengue Drugs - Together, Help Cure Muscular Dystrophy, Help Fight Childhood Cancer, Help Conquer Cancer, Mapping Cancer Markers, Human Proteome Folding Project, FightAIDS@Home, Uncovering Genome Mysteries, Let's outsmart Ebola together, Help Stop TB, OpenZika, Smash Childhood Cancer, Open Pandemics - COVID-19. [[World Community Grid|See more...]]
+|-
+| [https://wuprop.boinc-af.org/ WUProp@Home]
 |
-| 2011-08-12
+| 2010-03-27
+| [https://wuprop.boinc-af.org/apps.php Windows, Linux, ARM, MacOS, Android]
+| {{No}}
+| {{No}}
 |
+| Independent
+| Statistics
 |
-| [[Arizona State University]]'s School of Mathematics
+| Collect various statistics about other BOINC projects. [[WUProp@Home|See more...]]
-| [[Number theory]]
-| Search for [[Algebraic number field|number fields]] with special properties to assist with the formulation of mathematical [[conjecture]]s
 |-
+| [https://yafu.myfirewall.org/yafu YAFU]
 |
-|[https://boinc.progger.info/odlk/ ODLK]
+| 2011-09-01
+| [https://yafu.myfirewall.org/yafu/apps.php Windows, Linux]
+| {{No}}
+| {{No}}
+| [https://youtu.be/vEqImf6mtgE view]
+| Independent
+| Software testing, Mathematics
 |
-|2017-04-06
+| Test BOINC server software, integer factorization. [[YAFU|See more...]]
+|-
+| [https://www.rechenkraft.net/yoyo/ yoyo@home]
+| [https://boinc.berkeley.edu/pubs.php#Yoyo@home 9]
+| 2007-07-19
+| [https://www.rechenkraft.net/yoyo/apps.php Windows, Linux, ARM, macOS]
+| {{No}}
+| {{No}}
+| [https://www.youtube.com/playlist?list=PLblxpyGay1Q4C8qBmkKkI0MpKMTof5Dhf view]
+| Independent
+| Mathematics, physics, evolution
 |
+| Data structure analysis to help prove a conjecture, elliptic curve factorization, pion creation in a particle accelerator, evolution research, find the shortest optimal Golomb ruler of length 28. [[Yoyo@home|See more...]]
+|}
+==== Private BOINC Projects====
+{| class="wikitable sortable" style="font-size: 80%;"
+|-
+!Project Name
+!Publications
+!Launched
+!Operating System
+!GPU App
+!Vbox
+!Screen saver
+!Sponsor
+!Category
+!BOINC Radio
+!Research Focus
+|-
+| [https://boinc.berkeley.edu/alpha/ BOINC Alpha Test]
 |
-|Independent
+| 2004-02-16
-|[[Mathematics]]
-|Compiles a database of canonical forms (CF) of 10th order diagonal Latin squares (DLS) with orthogonal diagonal Latin squares (ODLS)
-|-
 |
-|[https://boinc.multi-pool.info/latinsquares/ ODLK1]
 |
-|2017-10–22
 |
+| [https://youtu.be/9rRWAgpfMzg view]
+| University of California, Berkeley
+| Software testing
 |
-|Independent
+| BOINC Alpha Test allows volunteers to test new versions of BOINC client software on a wide range of computers, thereby increasing the stability and reliability of the software versions released to the public.
-|[[Mathematics]]
-|Generates a database of canonical forms (CF) of diagonal Latin squares (DLS) of order 10 having orthogonal diagonal Latin squares (ODLS)
 |-
+| [http://mq232-80.ararangua.ufsc.br/boincufscara/ AraBOINC]
 |
-|[https://www.primegrid.com/ PrimeGrid]
+| 2012
 |
-|2005-06-12
 |
 |
-|Independent
-|[[Mathematics]]
-|Search for world record sized [[prime number]]s, search for particular types of primes such as [[321 prime]]s, [[Cullen prime|Cullen]]-[[Woodall prime]]s, [[Proth prime]], prime [[Sierpinski number]]s, and [[Sophie Germain prime]]s. Subprojects also include [[Seventeen or Bust]], and the [[Riesel problem]].
-|-
 |
-|[https://dev.primegrid.com/ PrimeGrid dev]
 |
 |
 |
 |
-|Independent
-|[[Software testing]]
-|Test project for [[PrimeGrid]]
 |-
+| [https://web.archive.org/https://boinc.moisescardona.me/ Distributed Data and Media Processing]
 |
-|[http://boincvm.proxyma.ru:30080/test4vm/ PRIVATE GFN SERVER]
+| 2018
 |
-|2016-04-20
 |
 |
-|Independent
-|[[Mathematics]]
-|This is a PRIVATE SERVER to coordinate distribution of mathematical work on GFN. The server is open for everybody, but some BOINC experience is recommended.
-|-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/NmZmNDEzZTQtMmRhMi00N2UzLWFmOWEtMGY2ZDc5ZDE3M2Ux Listen]
-|[https://quchempedia.univ-angers.fr/athome/ QuChemPedIA@home]
 |
-|2019-07-01
+| Independent
+| Data processing
+|
+| A private data processing project where tasks like data compression and audio encoding are performed. The idea is to do data tasks in the background and in a distributed fashion.
+|-
+| [https://bioinfo.lifl.fr/yass/iedera_dominance/index_additional.html iedera]
+|
 |
 |
-|[[University of Angers|Université Angers]]
-|Molecular Chemistry
-|Help chemical researchers around the world by building a unique collection of results and also help our AIs to propose much more new targets for the different applications we are addressing than we could do on our own
-|-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ODI4NjllMGMtY2MzNy00YjVlLWFiZjQtYjdlYThjMzUxNTFk Listen]
-| [http://radioactiveathome.org/boinc/ Radioactive@home]
 |
-|2011-10-21
 |
 |
 | Independent
-| [[Physics]]
+| Botany
-| Real-time [[radiation monitoring]], detected by [[Gamma ray|gamma]] sensors connected to volunteer computers
+|
+| A program to select and design ''subset seed'' and ''vectorized subset seed'' patterns.
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ZWYyN2FlYWMtMjMyNS00NDNjLWEyMTAtYjQ3YWEyY2M0NWQ2 Listen]
+| [http://boinc.mmon.co/boincserver/ Common Compute]
-|[https://rake.boincfast.ru/rakesearch/ Rakesearch]
 |
-|2017-08-11
+| 2024-05
 |
 |
-|Independent
-|[[Mathematics]]
-|Implement an application that picks up separate pairs of mutually orthogonal DLSs, which allows reconstructing the full graphs of their orthogonality
-|-
 |
-| [http://ralph.bakerlab.org/ RALPH@home]
 |
-| 2006-02-15
+| Independent
 |
 |
-| [[University of Washington]]
+| Software testing.
-| [[Software testing]]
-| Test project for [[Rosetta@home]]
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/NjRiYzIwMzctZDJiNy00OGFlLTliMmItYWNmNjNjYjZmZGY0 Listen]
+| [https://templet.ssau.ru/ Templet Project]
-| [https://rnma.xyz/boinc/ Ramanujan Machine]
+| [https://boinc.berkeley.edu/pubs.php#Templet 1]
 |
-| 2021-10-14
 |
 |
-| Independent
-| [[Mathematics]]
-| Conjecturing new mathematical formulas
-|-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ZWVmMTFhZWMtMWViYS00YTE2LWIxMmItZjA3MTYwMjM4MjA0 Listen]
-| RNA World (computing project) |[http://www.rnaworld.de/rnaworld/ RNA World]
 |
-| 2009-05-21
 |
+| Samara National Research University
+| Education
 |
-| Independent research group in [[Marburg, Germany]]
+| Teach parallel and distributed programming to undergraduate and graduate students of Samara National Research University.
-| [[Molecular biology]]
+|}
-| Uses [[bioinformatics]] software to study [[RNA structure]]
+====Completed BOINC Projects ====
+{| class="wikitable sortable" style="font-size: 80%;"
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/MDUwYTBmZTEtYzM0OS00YmFjLWI0ZWYtODEzMWQ3NWYzMDJl Listen]
+!Project Name
-| [https://boinc.bakerlab.org/rosetta/ Rosetta@home]
+!Publications
+!Launched / Completed
+!Operating System
+!GPU App
+!Vbox
+!Screen saver
+!Sponsor
+!Category
+!BOINC Radio
+!Research Focus
+|-
+| [https://setiathome.berkeley.edu/ SETI@home]
+| [https://boinc.berkeley.edu/pubs.php#SETI@home 12]
+| 1999-05
+| [https://setiathome.berkeley.edu/apps.php Windows, Linux, MacOS, Solaris, Other]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
 |
-| 2005-10-06
+| [https://youtu.be/IfeGNAZY92k view] and [https://youtu.be/5r-t8WQicqE view]
+| University of California, Berkeley
+| Astronomy
+| [https://podcasts.apple.com/us/podcast/tribute-to-seti-home-part-1/id1492837872?i=1000468003990 Part 1] of three and [https://podcasts.apple.com/us/podcast/tribute-to-seti-home-part-2-the-history-of-seti-home/id1492837872?i=1000468428937 Part 2]
+| In 1995, David Gedye proposed doing radio SETI using a virtual supercomputer composed of large numbers of Internet-connected computers, and he organized the SETI@home project to explore this. The search for extraterrestrial life by analyzing radio frequencies emanating from space.
+|-
+| [http://setiweb.ssl.berkeley.edu/beta/ SETI@home Beta]
 |
+| 2006-01-12
+| [https://setiweb.ssl.berkeley.edu/beta/apps.php Windows, Linux, MacOS, Solaris, Other]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
 |
-| [[University of Washington]]
+| [https://youtu.be/buLKZnyzOdI view]
-| [[Molecular biology]]
+| University of California, Berkeley
-| [[Protein structure prediction]] for disease research
+| Software testing
+| [https://podcasts.apple.com/us/podcast/rosetta-home-covid19-and-tribute-to-seti-home-part-3/id1492837872?i=1000469085793 Part 3]
+| Test project for SETI@home.
 |-
+| [https://web.archive.org/web/20040615010643/http://predictor.scripps.edu/ Predictor@home]
+| [https://boinc.berkeley.edu/pubs.php#Predictor@Home 5]
+| 2004-05-04
+| WinXP-98, Linux, MacOS X (Not Intel)
 |
-|[https://www.sidock.si/sidock SiDock@home]
 |
-|2020-12-19
 |
+| The Scripps Research Institute
 |
-|[[Russian Academy of Sciences]]
+|
-|[[Molecular biology]]
+| A world-community experiment and effort to use distributed world-wide-web volunteer resources to assemble a supercomputer able to ''predict protein structure from protein sequence''. Our work is aimed at testing and evaluating new algorithms and methods of protein structure prediction in the context of the Sixth Biannual [https://web.archive.org/web/20040610024610/http://predictioncenter.llnl.gov/casp6/Casp6.html CASP] (Critical Assessment of Techniques for Protein Structure Prediction) experiment.
-|Citizen science project for independent decentralized drug design by distributed computing.
 |-
+| [https://web.archive.org/http://alifeathome.dyndns.org/ ALife@Home]
 |
-|[http://srbase.my-firewall.org/sr5/ SRBase]
+| 2004-07-19
+| WinXP-98
 |
-|2013-01-02
 |
 |
-|Independent
+|
-|[[Mathematics]]
+| Artificial intelligence
-| 1030 trying to solve Sierpinski / Riesel Bases up | trying to solve Sierpinski / Riesel Bases up to 1030
+| [https://www.youtube.com/live/zstEf1dTm2I?feature=share Watch]
+| An effort to conduct scientific experiments regarding neural networks and evolution on the computers of volunteers.
 |-
+| [https://web.archive.org/web/20040829080146/http://pirates.vassar.edu:80/ Pirates@HomeMission1] [https://web.archive.org/web/20060117061652/http://pirates.spy-hill.net/ Pirates@Home] [http://primates.spy-hill.net/ Primates@Home]
 |
-| [https://boinc.tbrada.eu/ T.Brada Experimental Grid]
+| 2004 / 2006 / 2008-04-01
+| Windows, Linux, MacOS
 |
-|2019-02-03
 |
+| [https://www.youtube.com/playlist?list=PLblxpyGay1Q4849w-GB4X7g07FNXTeMBb view]
+| Vassar College / Independent / Independent
+| Software testing
+| [https://www.youtube.com/live/qr-n6FziUeo?feature=share Watch]
+| Pirates@Home Mission 1 helped to develop the Einstein@Home screensaver. Pirates@Home tested BOINC's forum software for possible use by ''[http://i2u2.spy-hill.net/ Interactions in Understanding the Universe]''. Primates@Home tested the reaction of [https://web.archive.org/web/20060117061652/http://pirates.spy-hill.net/ Pirates@Home] users to a disturbance in their accustomed environment.
+|-
+| [https://web.archive.org/web/20060215003906/http://autotranslator.net:80/ translator@home]
 |
-|Independent
+| 2005-03-23
-|[[Mathematics]]
-|The PADLS Total subproject aims to find new pseudo-associative DLS
-|-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/M2NlZThkODAtNjAxNC00OTNhLTg0YTAtMjE5MGE3OTFlNjZm Listen]
-|[https://gene.disi.unitn.it/test/ TN-Grid]
 |
-|2014-05-01
 |
 |
-|Research Area of Trento of the National Research Council of Italy, [[University of Trento]]
-|[[Genetics]]
-| ''Gene@home'' is a scientific project belonging to the infrastructure ''TrentoGrid''. It aimed expand networks of genes. |''Gene@home'' is a scientific project belonging to the  infrastructure ''TrentoGrid''. It aims to expand networks of genes
-|-
 |
-| [https://universeathome.pl/universe/ Universe@Home]
 |
-|2015-02-19
 |
 |
-| [[Nicolaus Copernicus Astronomical Center]] of the [[Polish Academy of Sciences]]
+| translator@home was in the process of creating new software linked to BOINC but never developed.
-| [[Astronomy]]
-| [[Computational astrophysics]], [[computer simulation]] of [[star]]s, [[galaxy|galaxies]] and the [[Universe]]
 |-
+| [https://web.archive.org/web/20051027013808/http://public.shoft.net/ Shoft@Home]
 |
-| [http://bearnol.is-a-geek.com/wanless2/ WEP-M+2 Project]
+| 2005
+| &nbsp;
 |
-| 2006-05-12
 |
 |
-| [[London]], [[England]], [[United Kingdom]]
+| Independent
-| [[Mathematics]]
+|
-| [[Integer factorization|Factorization]] of [[Mersenne prime|Mersenne]]+2 numbers
+|
+|
 |-
+| [http://boinctest.axpr.net/ Break the Forum!]
 |
-|[https://www.worldcommunitygrid.org/ World Community Grid]
+| 2005
+| &nbsp;
 |
-|2004-11-16
 |
 |
-|[[Krembil Research Institute]]
+|
-|Multiple applications
+| Software testing
-|Disease research, various worldwide humanitarian problems. Subprojects include(d) GO Fight Against Malaria, Drug Search for Leishmaniasis, Computing for Clean Water, [[Clean Energy Project]], [[Discovering Dengue Drugs - Together]], [[Help Cure Muscular Dystrophy]], [[Help Fight Childhood Cancer]], [[Help Conquer Cancer]], Mapping Cancer Markers, [[Human Proteome Folding Project]], [[FightAIDS@Home]], Uncovering Genome Mysteries, Let's outsmart Ebola together, Help Stop TB, OpenZika, Smash Childhood Cancer, Open Pandemics - COVID-19.
+|
+| Test BOINC forum software.
 |-
+| [https://web.archive.org/http://fsmtdist.ist.tu-graz.ac.at/dist/ dIST]
 |
-| [https://wuprop.boinc-af.org/ WUProp@Home]
+| 2005
 |
-| 2010-03-27
 |
 |
-| Independent
-| [[Statistics]]
-| Collect various statistics about other [[BOINC]] projects
-|-
 |
-| [http://yafu.myfirewall.org/yafu YAFU]
 |
-|2011-09-01
 |
 |
-|Independent
+| A Cape4 project.
-| [[Software testing]], [[Mathematics]]
-| Test BOINC server software, [[integer factorization]]
 |-
+| [http://fsmtdist.ist.tu-graz.ac.at/cape4/index.php cape4]
+|
+|
+| &nbsp;
 |
-| [https://www.rechenkraft.net/yoyo/ Yoyo@home]
 |
-| 2007-07-19
 |
 |
-| Independent
+|
-| [[Mathematics]], [[physics]], [[evolution]]
+|
-| Data structure analysis to help prove a conjecture, [[elliptic curve factorization]], [[pion]] creation in a [[particle accelerator]], evolution research, find the shortest optimal [[Golomb ruler]] of length 28
+| Another Cape4 project.
-|}
-{| class="wikitable sortable"
-|+4 Private Projects
-!BOINC Radio
-!Project Name
-!Launched
-!Sponsor
-!Category
-!Research Focus
 |-
+| [https://web.archive.org/http://grid-devel3.rocksclusters.org/boinc_gamess/ BOINC GAMESS]
+|
+| 2005
+| &nbsp;
 |
-|[https://boinc.berkeley.edu/alpha/ BOINC Alpha Test]
-|[[2004|2004-02-16]]
-|[[University of California, Berkeley]]
-|[[Software testing]]
-|BOINC Alpha Test allows volunteers to test new versions of BOINC client software on a wide range of computers, thereby increasing the reliability of software released to the public
-|-
 |
-|[http://mq232-80.ararangua.ufsc.br/boincufscara/ AraBOINC]
-|2012
 |
+| Independent
 |
 |
+| Project never overcame '''Warning''': mysql_pconnect(): Can't connect to local MySQL server through socket.
 |-
+| [https://web.archive.org/web/20060103125636/http://bifi.unizar.es/research/computing/bah/ BIFI@home]
 |
-| [https://web.archive.org/https://boinc.moisescardona.me/ Distributed Data and Media Processing]
+| {{No}}
-|2018
+| &nbsp;
-|Independent
-|[[Data processing]]
-|A private data processing project where tasks like data compression and audio encoding are performed. The idea is to do data tasks in the background and in a distributed fashion
-|-
 |
-|[https://bioinfo.lifl.fr/yass/iedera_dominance/index_additional.html iedera]
 |
-|Independent
-|[[Botany]]
-|A program to select and design ''subset seed'' and ''vectorized subset seed'' patterns
-|}
-{| class="wikitable sortable"
-|+ 246 Completed Projects
-!BOINC Radio
-!Project Name
-!Publication
-!Launched
-!Operating System
-!GPU App
-!Sponsor
-!Category
-!Research Focus
-|-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/MDU0NWEzNTAtYjUyNC00ZTQzLTkzYmQtODkzYmVkZWZlNWRj Listen]
-| [https://setiathome.berkeley.edu/ SETI@home]
 |
-|1999-05
-| [https://setiathome.berkeley.edu/apps.php Windows, Linux, MacOS, Solaris, Other]
-|{{Yes}}
-|[[University of California, Berkeley]]
-|[[Astronomy]]
-|In 1995, David Gedye proposed doing radio SETI using a virtual supercomputer composed of large numbers of Internet-connected computers, and he organized the SETI@home project to explore this. The search for [[Extraterrestrial intelligence|extraterrestrial life]] by analyzing radio frequencies emanating from space.
-|-
 |
-|[http://setiweb.ssl.berkeley.edu/beta/ SETI@home Beta]
 |
-|2006-01-12
-|[https://setiweb.ssl.berkeley.edu/beta/apps.php Windows, Linux, MacOS, Solaris, Other]
 |
-|[[University of California, Berkeley]]
+| Solve calculations that contribute to the research carried out at the Institute of Biocomputing and Physics of Complex Systems at the University of Zaragoza (BIFI).
-|[[Software testing]]
-|Test project for [[SETI@home]]
 |-
+| [https://web.archive.org/http://boinc.azurite.co.uk/ IMP]
 |
-|[https://web.archive.org/web/20040615010643/http://predictor.scripps.edu/ Predictor@home]
+| 2005
+| &nbsp;
 |
-|2004-05-04
-|WinXP-98, Linux, MacOS X (Not Intel)
 |
-|[[The Scripps Research Institute]]
 |
-|A world-community experiment and effort to use distributed world-wide-web volunteer resources to assemble a supercomputer able to ''predict protein structure from protein sequence''. Our work is aimed at testing and evaluating new algorithms and methods of protein structure prediction in the context of the Sixth Biannual [https://web.archive.org/web/20040610024610/http://predictioncenter.llnl.gov/casp6/Casp6.html CASP] (Critical Assessment of Techniques for Protein Structure Prediction) experiment.
+| The IMP Team
-|-
+| Software testing
 |
-|[https://web.archive.org/http://alifeathome.dyndns.org/ ALife@Home]
+| Internet Movie Project. Test Project copyright © 2005 The IMP Team.
+|-
+| [https://web.archive.org/http://lhcathome-alpha.cern.ch/ LHC@home Alpha]
 |
-|2004-07-19
+| 2005
-| WinXP-98
+| WinXP-98, Linux
 |
 |
-|[[Artificial intelligence]]
-|An effort to conduct scientific experiments regarding neural networks and evolution on the computers of volunteers
-|-
 |
-|[https://web.archive.org/web/20040829080146/http://pirates.vassar.edu:80/ Pirates@HomeMission1]
-[https://web.archive.org/web/20060117061652/http://pirates.spy-hill.net/ Pirates@Home]
-[http://primates.spy-hill.net/ Primates@Home]
 |
-|2004
+| Software testing
--04-01
-|Windows, Linux, MacOS
 |
-|[[Vassar College]]
+| Test Project for LHC@home.
-Independent
-Independent
-|[[Software testing]]
-|Pirates@Home Mission 1 helped to develop the [[Einstein@Home]] screensaver
-Pirates@Home tested BOINC's forum software for possible use by ''[http://i2u2.spy-hill.net/ Interactions in Understanding the Universe]''
-Primates@Home tested the reaction of [https://web.archive.org/web/20060117061652/http://pirates.spy-hill.net/ Pirates@Home] users to a disturbance in their accustomed environment
 |-
+| [https://web.archive.org/web/20071016235617/http://boinc.banaan.org:80/hashclash/ HashClash]
+| [https://boinc.berkeley.edu/pubs.php#HashClash 11]
+| 2005-11-24
+| WinXP-98, Linux
 |
-|[https://web.archive.org/web/20060215003906/http://autotranslator.net:80/ translator@home]
 |
-|[[2004|2005]]-03-23
 |
 |
 |
 |
-|translator@home was in the process of creating new software linked to BOINC but never developed
+| Using techniques from the attack from Wang et al., we are trying to find collisions which are more flexible. More concretely, we will allow the first blocks of two messages to be chosen at will. This attack is in ongoing research, however it is already clear that it requires large scale computational power. Therefore, project HashClash was started.
 |-
+| [https://web.archive.org/web/20060703095044/http://issofty17.is.noda.tus.ac.jp/index_E.php TANPAKU]
+| [https://boinc.berkeley.edu/pubs.php#TANPAKU 2]
+| 2005-08-02
+| WinXP, Linux
 |
-| Shoft@Home
 |
-|[[2004|2005]]
-|&nbsp;
 |
-|Independent
+| Tokyo University of Science
 |
-|The original project URL http://public.shoft.net/ now redirects to an unrelated site http://www.vivaldi.ru/
+|
+| Analyzed protein structure prediction.
 |-
+| [http://slawoo.homelinux.org/ Nagrzewanie stali@HOME]
 |
-| [http://boinctest.axpr.net/ Break the Forum!]
 |
-|[[2004|2005]]
 | &nbsp;
 |
 |
-|[[Software testing]]
-|Test BOINC forum software
-|-
 |
-|[https://web.archive.org/http://fsmtdist.ist.tu-graz.ac.at/dist/ dIST]
 |
-|[[2004|2005]]
 |
 |
 |
-|
-|A Cape4 project
 |-
+| [https://web.archive.org/http://lattice.umiacs.umd.edu/boinc_public_oldschool/ The Lattice Project-original]
+| [https://boinc.berkeley.edu/pubs.php#The 16]
+| 2006
+| WinXP-98
 |
-| [http://fsmtdist.ist.tu-graz.ac.at/cape4/index.php cape4]
 |
 |
-| &nbsp;
+| University of Maryland, College Park
 |
 |
-|
+| The Cummings Laboratory is using ''gsi'' to assess the performance of the statistic in a variety of situations. Maile Neel and Joanna Grand are using Marxan to quantify the effects of poor and incomplete data on the ability to capture biological diversity in nature reserves. The Laboratory of David Fushman is running protein:protein docking algorithms on Lattice. Floyd Reed and Holly Mortensen from the Laboratory of Sarah Tishkoff have run a number of MDIV and IM simulations through The Lattice Project.
-|Another Cape4 project
 |-
+| [https://web.archive.org/web/20060916002226/http://fah-boinc.stanford.edu/ Folding@home]
 |
-| [https://web.archive.org/http://grid-devel3.rocksclusters.org/boinc_gamess/ BOINC GAMESS]
+| 2006
+| WinXP
 |
-|[[2004|2005]]
-| &nbsp;
 |
-|Independent
 |
-|Project never overcame '''Warning''': mysql_pconnect(): Can't connect to local MySQL server through socket
+| Stanford University
-|-
 |
-| [https://web.archive.org/web/20060103125636/http://bifi.unizar.es/research/computing/bah/ BIFI@home]
 |
-|{{No}}
-| &nbsp;
 |
-|
-|
-|Solve calculations that contribute to the research carried out at the Institute of Biocomputing and Physics of Complex Systems at the [[University of Zaragoza]] (BIFI)
 |-
+| [https://web.archive.org/web/20060901142513/http://research.utep.edu/Default.aspx?alias=research.utep.edu/daplds Docking@Home-utep]
 |
-| [https://web.archive.org/http://boinc.azurite.co.uk/ azurite]
+| {{No}}
-|
-|[[2004|2005]]
 | &nbsp;
 |
-|The IMP Team
-|[[Software testing]]
-|Test Project copyright © 2005 The IMP Team
-|-
 |
-|[https://web.archive.org/http://boinc.azurite.co.uk/ IMP]
 |
-|[[2004|2005]]
+| University of Texas at El Paso
-|&nbsp;
 |
-|The IMP Team
 |
-|Internet Movie Project
+| The goals of the project are to explore the multi-scale nature of algorithmic adaptations in protein-ligand docking and to develop cyber infrastructures based on computational methods and models that efficiently accommodate these adaptations.
 |-
+| [https://web.archive.org/http://ecc.crypto.ruhr-uni-bochum.de/ ECDLP PROJECT]
 |
-| [https://web.archive.org/http://lhcathome-alpha.cern.ch/ LHC@home Alpha]
+| 2006
 |
-|2005
-| WinXP-98, Linux
 |
 |
-|[[Software testing]]
-|Test Project for [[LHC@home]]
-|-
 |
-|[https://web.archive.org/web/20071016235617/http://boinc.banaan.org:80/hashclash/ HashClash]
 |
-|[[2006|2005]]-11-24
-| WinXP-98, Linux
 |
 |
 |
-|Using techniques from the attack from Wang et al., we are trying to find collisions which are more flexible. More concretely, we will allow the first blocks of two messages to be chosen at will. This attack is in ongoing research, however it is already clear that it requires large scale computational power. Therefore, project HashClash was started.
 |-
+| [https://web.archive.org/web/20070326165532/http://test.ntbz.com:80/ ntbz Test Project]
+|
 |
-|[https://web.archive.org/web/20060703095044/http://issofty17.is.noda.tus.ac.jp/index_E.php Tanpaku]
 |
-|2005-08-02
-| WinXP, Linux
 |
-|[[Tokyo University of Science]]
 |
-|A project that attacked the [[Protein structure prediction]] problem.
-|-
 |
-| [http://slawoo.homelinux.org/ Nagrzewanie stali@HOME]
 |
+| Software testing
 |
-| &nbsp;
 |
+|-
+| [https://web.archive.org/http://debian.povaddict.com.ar/pov/ Renderfarm]
 |
+| 2006-08-10
+| WinXP-98, Linux
 |
 |
-|-
 |
-| [https://web.archive.org/http://lattice.umiacs.umd.edu/boinc_public_oldschool/ The Lattice Project-original]
 |
-|[[2004|2006]]
-| WinXP-98
 |
-|[[University of Maryland, College Park]]
 |
-|The Cummings Laboratory is using ''gsi'' to assess the performance of the statistic in a variety of situations.
+| Another URL for the project: http://renderfarm.povaddict.com.ar/
-Maile Neel and Joanna Grand are using Marxan to quantify the effects of poor and incomplete data on the ability to capture biological diversity in nature reserves.
-The Laboratory of David Fushman is running protein:protein docking algorithms on Lattice. When driven by experimentally derived constraints, these will help in modeling the structures of large multi-subunit proteins, and the interactions of such proteins with various ligands. CNS is the featured Grid service in this project.
-Floyd Reed and Holly Mortensen from the Laboratory of Sarah Tishkoff have run a number of MDIV and IM simulations through The Lattice Project. These are studies in molecular population genetics that seek to use DNA sequence polymorphism to estimate the times of divergence and migration rates among ethnically diverse human populations in Africa.
 |-
+| [https://www.boincstats.com/stats/33/project/detail/ RenderFarm@Home]
 |
-|[https://web.archive.org/web/20060916002226/http://fah-boinc.stanford.edu/ Folding@home]
+| 2006-08-23
 |
-|2006
-| WinXP
 |
-|[[Stanford University]]
 |
 |
-|-
 |
-| [https://web.archive.org/http://research.utep.edu/Default.aspx?alias=research.utep.edu/daplds Docking@Home-utep]
 |
-|{{No}}
-| &nbsp;
 |
-|[[University of Texas at El Paso]]
 |
-|The goals of the project are to explore the multi-scale nature of algorithmic adaptations in protein-ligand docking and to develop cyber infrastructures based on computational methods and models that efficiently accommodate these adaptations
 |-
+| [https://web.archive.org/http://hashbreaker.com:8700/tmrldrtg/ Distributed Rainbow Table Generator]
 |
-|[https://web.archive.org/http://ecc.crypto.ruhr-uni-bochum.de/ ECDLP PROJECT]
+| 2006
-|
+| WinXP-98, Linux
-|2006
 |
 |
 |
+| The Minouche Research Laboratories
 |
 |
+| The '''Distributed Rainbow Table Generator''' project of '''The Minouche Research Laboratories'''; a community project dedicated to large scale distributed calculation of huge Rainbow Tables.
 |-
+| [https://web.archive.org/http://bebeer.dyndns.org:2222/bebeer/ Belgian Beer@Home]
 |
-|[https://web.archive.org/web/20070326165532/http://test.ntbz.com:80/ ntbz Test Project]
+| 2006-12-08
+| WinXP-98, Linux
 |
 |
 |
+| [https://web.archive.org/web/20070630030320/http://www.boinc.be/vbulletin BOINC.BE]
 |
 |
-|[[Software testing]]
+| An effort of people from the [https://web.archive.org/web/20070630030320/http://www.boinc.be/vbulletin BOINC.BE] team.
+|-
+| [http://www.enigmaathome.net/ Enigma@Home]
+| [https://boinc.berkeley.edu/pubs.php#Enigma@Home 2]
+| 2007-08-24
+| &nbsp;
 |
-|-
 |
-|[https://web.archive.org/http://debian.povaddict.com.ar/pov/ Renderfarm]
 |
-|[[2004|2006]]-08-10
-| WinXP-98, Linux
 |
 |
 |
-|Another URL for the project: http://renderfarm.povaddict.com.ar/
+| An attempt to break 3 original Enigma messages that were intercepted in 1942.
 |-
+| [https://web.archive.org/web/20080511223553/http://impfarm.imp.org/boinc/ Internet Movie Project]
+|
+| 2007-07-15
+| [https://web.archive.org/web/20080724214454/http://impfarm.imp.org/boinc/apps.php Windows, Linux, MacOS]
+|
 |
-|[https://web.archive.org/http://hashbreaker.com:8700/tmrldrtg/ Distributed Rainbow Table Generator]
 |
-|2006
-| WinXP-98, Linux
 |
-|The Minouche Research Laboratories
+| Software testing
 |
-|The '''Distributed [[Rainbow Table]] Generator''' project of '''The Minouche Research Laboratories'''; a community project dedicated to large scale distributed calculation of huge Rainbow Tables. We have developed an advanced method to rapidly calculate even the biggest tables.
+| Setting up a renderfarm to power the [https://web.archive.org/web/20080511223553/http://www.imp.org/ Internet Movie Project]. Note that this project will never export credit stats.
 |-
+| [http://predictor.chem.lsa.umich.edu/pah/ Predictor@home Alpha]
 |
-| [https://web.archive.org/http://bebeer.dyndns.org:2222/bebeer/ Belgian Beer@Home]
+| 2007 / 2009
 |
-|2006-12-08
-| WinXP-98, Linux
 |
-|[https://web.archive.org/web/20070630030320/http://www.boinc.be/vbulletin BOINC.BE]
 |
-|An effort of people from the [https://web.archive.org/web/20070630030320/http://www.boinc.be/vbulletin BOINC.BE] team.
-|-
 |
-|[http://www.enigmaathome.net/ Enigma@Home]
+| The Scripps Research Institute
 |
-|2007-08-24
-|&nbsp;
 |
+| Test project for Predictor@home.
+|-
+| [https://web.archive.org/web/20071001120117/http://zivis.bifi.unizar.es:80/ Zivis Superordenador Ciudadano]
+|
+| 2007
+| [https://web.archive.org/web/20070823192420/http://zivis.bifi.unizar.es/apps.php WinXP, Linux]
 |
 |
-|An attempt to break 3 original [[Enigma machine|Enigma]] messages that were intercepted in 1942
-|-
 |
-| [https://web.archive.org/web/20080511223553/http://impfarm.imp.org/boinc/ Internet Movie Project]
 |
-|2007-07-15
+| Software testing
-| [https://web.archive.org/web/20080724214454/http://impfarm.imp.org/boinc/apps.php Windows, Linux, MacOS]
 |
 |
-|[[Software testing]]
-|We're setting up a renderfarm to power the [https://web.archive.org/web/20080511223553/http://www.imp.org/ Internet Movie Project]. Note that this project will never export credit stats.
 |-
+| [https://web.archive.org/http://zebrabrute.ath.cx/zebrabrute/ Zebra RSA Brutforce]
+|
+| 2007
+| WinXP-98
 |
-| [https://web.archive.org/web/20071001120117/http://zivis.bifi.unizar.es:80/ Zivis Superordenador Ciudadano]
 |
-|2007
-| [https://web.archive.org/web/20070823192420/http://zivis.bifi.unizar.es/apps.php WinXP, Linux]
 |
+| Darkscout - a Computer Science student.
 |
-|[[Software testing]]
 |
+| The Project originates from an idea in a forum. An attempt to break the RSA-key for the checksum of RSA-Smart card by Brute-force search.
 |-
+| [http://web.archive.org/web/20090306065822/http://dist2.ist.tugraz.at/sudoku/ Sudoku project]
 |
-|[https://web.archive.org/http://zebrabrute.ath.cx/zebrabrute/ Zebra RSA Brutforce]
+| 2007-08-27
 |
-|2007
-| WinXP-98
 |
-|Darkscout - a Computer Science student.
 |
-|The Project originates from an idea in a forum. An attempt to break the RSA-key for the checksum of RSA-Smart card by [[Brute-force search]]
-|-
-|
-|[https://web.archive.org/web/20071128150637/http://eternity2.net:80/ Eternity2.net]
 |
-|2007
+| Graz, University of Technology
-| &nbsp;
 |
-|Dave Clark,[[Auckland]]
 |
-|A project to try to solve the [[Eternity II puzzle]]™
+| Uses Internet-connected computers to search for the smallest possible start configuration of Sudoku.
 |-
+| [https://web.archive.org/web/20071128150637/http://eternity2.net:80/ Eternity2.net]
 |
-|[http://roc.cs.berkeley.edu/projects/boinc/index.html ROC]
+| 2007
+| &nbsp;
 |
 |
-| &nbsp;
 |
-|[[University of California, Berkeley]]
+| Dave Clark, Auckland
 |
 |
+| A project to try to solve the Eternity II puzzle™.
 |-
+| [http://roc.cs.berkeley.edu/projects/boinc/index.html ROC]
 |
-| [http://neuron.mine.nu/neuron/ Project Neuron]
 |
-|2007-11-25
+| &nbsp;
-| WinXP-98, Linux
 |
-|Independent
 |
-|This project aims to provide a trial BOINC environment in which a set of dummy applications will run. The purpose of this being to record, observe and understand BOINC activity and data with a view to developing metrics that will establish or otherwise the quality/reliability/dependability of particular BOINC projects. A central reference point will be developed and updated automatically to which users can refer. User feedback may also be permitted at this reference point.
-|-
 |
-|[https://web.archive.org/web/20071020023328/http://www.gridfinity.com:80/gridfinity/ Gridfinity]
+| University of California, Berkeley
 |
-|2007
-| &nbsp;
 |
 |
+|-
+| [http://neuron.mine.nu/neuron/ Project Neuron]
 |
+| 2007-11-25
+| WinXP-98, Linux
 |
-|-
 |
-|[http://www.scilinc.org/SciLINC/ SciLINC]
 |
-|2007-03-22
+| Independent
-| WinXP-98
 |
-|[[Missouri Botanical Garden]]
 |
-|Increase public access to nationally significant scientific literature.
+| Provide a trial BOINC environment in which a set of dummy applications will run. The purpose of this being to record, observe and understand BOINC activity and data with a view to developing metrics that will establish or otherwise the quality/reliability/dependability of particular BOINC projects.
-Enhance the usefulness of digitized materials by creating a Web repository of scanned literature, keywords, and online resources with tools for searching and analysis.
-Create an educational tool for learning about plant life.
-Provide a model for adopting public-resource computing applications within the library community.
 |-
+| [https://web.archive.org/web/20071020023328/http://www.gridfinity.com:80/gridfinity/ Gridfinity]
 |
-| [https://web.archive.org/web/20080901231107/http://www.init1.net:80/pPotTables/ pPot Tables]
+| 2007
+| &nbsp;
 |
-|2008
-| &nbsp;
 |
-|Independent
 |
-|computing relative hand strength and 1-card lookahead positive potential for all possible flop, turn and hole card combinations for 2 to 10 players in [[Texas hold 'em]]
-|-
 |
-| [https://web.archive.org/web/20121205084825/http://www.malariacontrol.net/ Malaria Control]
 |
-|2006-03-01
-| WinXP-98, Linux
 |
 |
+|-
+| [https://www.scilinc.org/SciLINC/ SciLINC]
 |
-|A project with an application that makes use of network computing for stochastic modelling of the clinical epidemiology and natural history of [[Plasmodium falciparum]] malaria
+| 2007-03-22
-|-
+| WinXP-98
 |
-| [http://docking.cis.udel.edu/ Docking@Home]
 |
-|2006-09-11
-| WinXP-98, Linux, MacOS X/Intel
 |
+| Missouri Botanical Garden
 |
 |
-|A project which uses Internet-connected computers to perform scientific calculations that aid in the creation of new and improved medicines to help cure diseases such as [[HIV]]
+| Increase public access to nationally significant scientific literature. Enhance the usefulness of digitized materials by creating a Web repository of scanned literature, keywords, and online resources with tools for searching and analysis. Create an educational tool for learning about plant life. Provide a model for adopting public-resource computing applications within the library community.
 |-
+| [http://isaac.ssl.berkeley.edu/sleeper/ Sleeper]
+|
+| 2007-03
+|
 |
-| [https://web.archive.org/web/20061206015653/http://biology.polytechnique.fr/proteinsathome/ proteins@home]
 |
-|2006-09-15
-| WinXP
 |
+| University of California, Berkeley
 |
 |
-|A large-scale [[Protein structure prediction]] project to contribute to a better understanding of many diseases and pathologies, and to progress in both [[Medicine]] and [[Technology]]
+| Test project for BOINC Alpha Test.
 |-
+| [https://web.archive.org/web/20080901231107/http://www.init1.net:80/pPotTables/ pPot Tables]
 |
-|[https://web.archive.org/web/20080517170329/http://www.depspid.net:80/ DepSpid]
+| 2008
+| &nbsp;
 |
-|2007
-| WinXP-98
 |
 |
+| Independent
 |
-|Every DepSpid task is processed in two phases:
+|
-''Networking phase (Phase One)''
+| Computing relative hand strength and 1-card lookahead positive potential for all possible flop, turn and hole card combinations for 2 to 10 players in Texas hold 'em.
-During this non-cpu intensive phase the DepSpid spider will scan a set of web pages and store the results in a temporary database for later processing during Phase Two.
-A DepSpid task consists of multiple jobs. The exact number of jobs per task may vary but usually will be between 10 and 50. A job normally is a domain, subdomain or a directory under a domain. During Phase One the DepSpid spider cycles through the jobs of a task to limit the load it makes on the visited servers.
-Every job will start downloading the main page of the domain/subdomain and the corresponding robots.txt (if available). The downloaded page will then be scanned for links (and some other parts). Each of this links will be validated with a HTTP HEAD request. The dependency between the page and its links will be stored into a temporary database. The spider will follow each link that belongs to the domain where it started and will these pages like the main page if they are not excluded by the robots.txt. Links that would leave the original domain will be marked as external links and will not be processed further by this job.
-A job will end when there is no more link to visit or when one of the predefined limits is reached. Current limits are the level (deepness), the number of visited links and the amount of bytes transferred.
-Phase One is non-cpuintensive but will use more or less of your network bandwidth. If the internet connection is closed the network phase will be suspended until the internet connection is available again. Normally, Phase One will take only a few seconds or minutes for each job but may run over a few hours or days depending on the speed of your internet connection and the response times of the visited server.
-''Computational phase (Phase Two)''
-This phase doesn't require an internet connection but will use more cpu time. As BOINC doesn't allow switching between non-cpuintensive phases and normal processing phases, this phase will be processed as it would be non-cpuintensive. This means that it will run permanently and not toggle as normal BOINC projects would do. However, DepSpid will respect your ressource share settings. It calculates the relation between the cpu time and the wall clock time and will fall into sleep if the value is higher than the preferred ressource share.
-Please note: Respecting your ressource share only works this way with BOINC version 5.5.6 and higher. Older clients will be able to participate until one of the new client versions leaves the development state but will use a fixed resource share which may be far away from your true settings.
-Phase Two uses the data collected during Phase One and calculates the dependencies between all pages..
-After all dependencies have been calculated, the dependencies to external links that meet a predefined threshold will be reported to the project server and merged into its main database.
 |-
+| [https://web.archive.org/web/20121205084825/http://www.malariacontrol.net/ Malariacontrol.net]
+| [https://boinc.berkeley.edu/pubs.php#Malariacontrol.net 26]
+| 2006-03-01
+| WinXP-98, Linux
 |
-| [https://web.archive.org/http://bob.myisland.as/tsp/ Traveling Salesman Problem (TSP)]
 |
-|2007
+| [https://youtu.be/4GAYKw5SakQ view]
-| WinXP, Linux
 |
 |
 |
-|The [[Travelling salesman problem]] (TSP); for a given set of cites, visit each city once (once and only once) and minimize the distance you travel. This deceptively simple problem is trivial given a small set of cities, however, as you add more cities the number of possible paths goes through the roof.
+| A project with an application that makes use of network computing for stochastic modelling of the clinical epidemiology and natural history of Plasmodium falciparum malaria.
 |-
+| [https://web.archive.org/web/20061206015653/http://biology.polytechnique.fr/proteinsathome/ proteins@home]
+| [https://boinc.berkeley.edu/pubs.php#Proteins@home 4]
+| 2006-09-15
+| WinXP
 |
-|[http://xw01.lri.fr:4320/ XtremLab]
 |
-|[[2004|2005]]
+| [https://youtu.be/aM6kiaM228Y view]
-| WinXP, Linux
 |
 |
 |
-|Measuring the free resources available on personal computers involved in large-scale distributed computing
+| A large-scale Protein structure prediction project to contribute to a better understanding of many diseases and pathologies, and to progress in both Medicine and Technology.
 |-
+| [https://web.archive.org/web/20080517170329/http://www.depspid.net:80/ DepSpid]
 |
-| [https://web.archive.org/web/20060903103622/http://bbc.cpdn.org/ BBC Climate Change Experiment]
+| 2007
+| WinXP-98
 |
 |
-| WinXP, Linux
 |
 |
 |
 |
+| Every DepSpid task is processed in two phases: a networking phase (Phase One) in which the DepSpid spider scans a set of web pages and stores results in a temporary database; and a computational phase (Phase Two) which uses the collected data to calculate dependencies between all pages.
 |-
+| [https://web.archive.org/http://bob.myisland.as/tsp/ Traveling Salesman Problem (TSP)]
 |
-| [https://web.archive.org/web/20090107014341/http://allprojectstats.com/collatz/ 3x+1@home]
+| 2007
+| WinXP, Linux
 |
-|2008-02-18
-| &nbsp;
 |
 |
 |
-|A non-profit project trying to find high 3x+1 conjecture stopping times. The 3x+1 conjecture is also known as Collatz conjecture
-|-
 |
-| [https://web.archive.org/http://edges-local-devbnc-srv.ceta-ciemat.es/appexample/ Uppercase Application]
 |
-|2008
+| The Travelling salesman problem (TSP): for a given set of cities, visit each city once and only once and minimize the distance you travel.
-| &nbsp;
-|
-|
-|
-|XXX is a research project that uses Internet-connected computers to do research in XXX
 |-
+| [https://web.archive.org/web/20060412015807/http://xw01.lri.fr:4320/ XtremLab]
 |
-| [http://193.144.240.190/nnsimu/ NNSIMU Project]
+| 2005
+| WinXP, Linux
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Measuring the free resources available on personal computers involved in large-scale distributed computing.
 |-
+| [https://web.archive.org/web/20060903103622/http://bbc.cpdn.org/ BBC Climate Change Experiment]
 |
-| [https://web.archive.org/web/20090528015437/http://boinc.isa.ru:80/russiadg/ Russian Desktop Grid]
 |
-|2009
+| WinXP, Linux
-| &nbsp;
 |
 |
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX
-|-
 |
-| [https://web.archive.org/web/20110801221116/http://falua.cesfelipesegundo.com/VRS/ Virus Respiratorio Sincitial (VRS)]
 |
-|2010
-| &nbsp;
 |
 |
+|-
+| [https://web.archive.org/web/20090107014341/http://allprojectstats.com/collatz/ 3x+1@home]
 |
-|VRS (from the Spanish Virus Respiratorio Sincitial) is a BOINC-based project which main aim is to simulate the behaviour of the human Respiratory Syncytial Virus (RSV)
+| 2008-02-18
-|-
+| &nbsp;
 |
-| [https://web.archive.org/web/20081004231715/http://cels-at-home-dev.dyndns.org:80/test2/ <nowiki>Cels@Home [Second] Test Project</nowiki>]
 |
 |
-| &nbsp;
 |
 |
 |
-|Research in [[Cell adhesion]]
+| A non-profit project trying to find high 3x+1 conjecture stopping times. The 3x+1 conjecture is also known as the Collatz conjecture.
 |-
+| [https://web.archive.org/http://edges-local-devbnc-srv.ceta-ciemat.es/appexample/ Uppercase Application]
 |
-| [https://web.archive.org/web/20090925001717/http://boinc.vanderbilt.edu:80/test_setup Test Setup Project]
+| 2008
+| &nbsp;
 |
 |
-| &nbsp;
 |
-|Vanderbilt
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX
-|-
 |
-| [https://web.archive.org/http://grid.ncssm.edu/ncssm_grid/ NCSSM Grid Computing Project]
 |
-|2007-04-04
+| A research project that uses Internet-connected computers to do research in XXX.
-| &nbsp;
+|-
+| [http://193.144.240.190/nnsimu/ NNSIMU Project]
 |
 |
+| &nbsp;
 |
 |
-|-
-|
-| Cell Computing
 |
 |
-| &nbsp;
 |
 |
 |
-|Original project URL [https://web.archive.org/http://www.cellcomputing.net/simple/ http://www.cellcomputing.net/simple/] is now unrelated to the project
 |-
+| [https://web.archive.org/web/20090204215407/http://boinc.unex.es/extremadurathome/ Extremadura@Home]
 |
-| [https://web.archive.org/http://arcoboinc.unex.es/rnd/ RND@home]
 |
-|2007
-| WinXP, Linux
 |
 |
 |
-|Radio Network Design (RND) is a telecommunication problem which consists in covering a geographic area with radio signal using the fewer number of transmitters that cover the maximum area. PBIL (Population-Based Incremental Learning) algorithm is used here, and we hope to get good results with it. PBIL is based on genetic algorithms and competitive learning (typical in neural networks).
-|-
 |
-| [https://web.archive.org/http://edges-local-testbnc-srv.ceta-ciemat.es/localtest EDGeS Local Test]
 |
-|2007
-| &nbsp;
 |
 |
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX
 |-
+| [https://web.archive.org/web/20090528015437/http://boinc.isa.ru:80/russiadg/ Russian Desktop Grid]
+|
+| 2009
+| &nbsp;
 |
-| [https://web.archive.org/http://sat.math.umu.se/sat/ Satisfaction@Home]
 |
-|2007
-| WinXP, Linux
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [https://web.archive.org/web/20110801221116/http://falua.cesfelipesegundo.com/VRS/ Virus Respiratorio Sincitial (VRS)]
+| [https://linkinghub.elsevier.com/retrieve/pii/S0895717710005595 1]
+| 2010
+| &nbsp;
+|
 |
-|[https://web.archive.org/web/20070505234056/http://www.nanohive-1.org:80/atHome/ NanoHive@Home]
 |
 |
-| WinXP
 |
-|Nanorex, Inc.
 |
-|NanoHive-1 is a modular simulator used for modeling the physical world at a nanometer scale. The intended purpose of the simulator is to act as a tool for the study, experimentation, and development of nanotech entities.
+| VRS (from the Spanish Virus Respiratorio Sincitial) is a BOINC-based project which main aim is to simulate the behaviour of the human Respiratory Syncytial Virus (RSV).
 |-
+| [https://web.archive.org/web/20081004231715/http://cels-at-home-dev.dyndns.org:80/test2/ <nowiki>Cels@Home [Second] Test Project</nowiki>]
 |
-| [https://web.archive.org/web/20080711074723/http://boinc.iaik.tugraz.at:80/sha1_coll_search SHA 1 Collision Search Graz]
 |
-|2007-08-08
+| &nbsp;
-| WinXP-98, Linux
 |
-|[[Graz University of Technology]]
 |
-|A research project that uses Internet-connected computers to do research in cryptanalysis
-|-
 |
-|[https://web.archive.org/http://dist2.ist.tugraz.at/sudoku/ Project Sudoku]
 |
-|2007-08-27
-| [http://dist2.ist.tugraz.at/sudoku/apps.php WinXP-98, Linux, MacOS]
 |
-|[[Graz University of Technology]]
 |
-|A research project that uses Internet-connected computers to search for the smallest possible start configuration of Sudoku
+| Research in cell adhesion.
 |-
+| [https://web.archive.org/web/20090925001717/http://boinc.vanderbilt.edu:80/test_setup Test Setup Project]
 |
-|[http://www.apsathome.org/ APS@Home]
 |
-|[[2007|2007-08-30]]
+| &nbsp;
-| WinXP-98, Linux
 |
-|[[University of Manchester]]
 |
-|The effects that atmospheric dispersion has on the measurements used in climate prediction
-|-
 |
-| [https://web.archive.org/http://dawn.ynet.sk/test1/ Reversi]
+| Vanderbilt
 |
-|2008-05-16
-| &nbsp;
 |
-|Independent
+| A research project that uses Internet-connected computers to do research in XXX.
-|
-|To determine who wins in [[Reversi]] game - first player, second player or if the game is tied
 |-
+| [https://web.archive.org/http://grid.ncssm.edu/ncssm_grid/ NCSSM Grid Computing Project]
 |
-|[https://web.archive.org/http://www.ramseyathome.com/ramsey/ Ramsey@Home]
+| 2007-04-04
-|
-|2008-06-14
 | &nbsp;
 |
-|Nick Peterson
 |
-|A distributed computing project designed to find new lower bounds for various [[Ramsey numbers]] using a host of different techniques. It was inspired by the research of Dr. David Furcy, Dr. Thomas Naps, Dr. Linda Eroh, and Nick Peterson during the 2008 spring and summer semester at the University of Wisconsin-Oshkosh.
-|-
 |
-| [http://canis.csc.ncsu.edu:8005/anansi/ Anansi]
-|
-|2008
-| &nbsp;
 |
 |
 |
 |
 |-
+| [https://web.archive.org/web/20051226054712/http://www.cellcomputing.net/simple/ Cell Computing]
 |
-| [https://web.archive.org/http://eaps-at-home-alpha.gotdns.org/eaps/ EAPS@HOME]
 |
-|2008
 | &nbsp;
 |
 |
 |
-|A research project that uses Internet-connected computers to do research in Artificial Intelligence
-|-
 |
-|[https://web.archive.org/web/20080703141019/http://boinc.vanderbilt.edu/CSB/ CSB@Home]
-[https://web.archive.org/web/20080703141019/http://boinc.vanderbilt.edu/CSB/ BCL@Home]
 |
-|[[2008|2008-06-05]]
-| &nbsp;
 |
 |
-|
-|A research project that uses Internet-connected computers to do research in computational structural biochemistry.
-Research in our laboratory seeks to fuse computational and experimental efforts to investigate proteins, the fundamental molecules of biology, and their interactions with small molecule substrates, therapeutics, or probes.
 |-
+| [https://web.archive.org/http://arcoboinc.unex.es/rnd/ RND@home]
 |
-| [https://web.archive.org/web/20080908061532/http://genlife.is-a-geek.org:80/genlife/ Genetic Life]
+| 2007
+| WinXP, Linux
 |
-|[[2008|2008-]]06-18
-| &nbsp;
 |
 |
 |
-|A not-for-profit research project that uses Internet-connected computers to do research into Genetic Algorithms
-|-
 |
-|[https://web.archive.org/web/20090506112112/http://africangridlab.net/ African Grid Lab ALPHA]
 |
-|2008-10-05
+| Radio Network Design (RND) is a telecommunication problem which consists in covering a geographic area with radio signal using the fewer number of transmitters that cover the maximum area.
+|-
+| [https://web.archive.org/http://edges-local-testbnc-srv.ceta-ciemat.es/localtest EDGeS Local Test]
 |
+| 2007
+| &nbsp;
 |
 |
 |
-|An incubation laboratory environment for African based BOINC projects
-|-
 |
-|[http://maxwell.dhcp.umsl.edu/brats/ BRaTS@Home]
 |
-|2007-06-05
-| WinXP-98, Linux, MacOS
 |
-|
+| A research project that uses Internet-connected computers to do research in XXX.
-|
-|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''.
 |-
+| [https://web.archive.org/http://sat.math.umu.se/sat/ Satisfaction@Home]
 |
-|[https://web.archive.org/web/20090425124851/http://www.intelligencerealm.com/aisystem/system.php Intelligence Realm]
+| 2007
+| WinXP, Linux
 |
-|2007-09-05
-| &nbsp;
 |
 |
 |
-|The neural network simulator is an application that simulates neurons. Each downloaded work unit generates 500,000 biophysical neurons.
-|-
 |
-|[https://web.archive.org/web/20070618005522/http://biology.polytechnique.fr/proteinsathome proteins@home]
 |
-|[[2004|2006]]-09-15
-| &nbsp;
 |
+|-
+| [https://web.archive.org/web/20070505234056/http://www.nanohive-1.org:80/atHome/ NanoHive@Home]
+| [http://openurl.ingenta.com/content/xref?genre=article&issn=1546-1955&volume=8&issue=7&spage=1139 1]
 |
+| WinXP
 |
-|Protein structure prediction research
-|-
 |
-|[http://dynaping.com/ DynaPing]
 |
-|2009
+| Nanorex, Inc.
-| &nbsp;
 |
 |
+| NanoHive-1 is a modular simulator used for modeling the physical world at a nanometer scale. The intended purpose of the simulator is to act as a tool for the study, experimentation, and development of nanotech entities.
+|-
+| [https://web.archive.org/web/20080711074723/http://boinc.iaik.tugraz.at:80/sha1_coll_search SHA 1 Collision Search Graz]
+|
+| 2007-08-08
+| WinXP-98, Linux
 |
-|Ensure highest availability of your web services. DynaPing uses computers around the world to monitor your web service availability and alerts you of any downtime.
-We provide uptime and response time reports and warn you through email and text messages when there is a problem with your website.
-Our checks are done utilizing the power and infrastructure of the BOINC distributed computing network. This means that your website can be checked from any geographical location of the world. We're not limited to a few datacenter locations!
-|-
 |
-| [https://web.archive.org/web/20091130024643/http://nqueens.ing.udec.cl/ NQueens@Home]
 |
-|2007-08-10
+| Graz University of Technology
-| Windows
 |
-|[[University of Concepción]]
 |
-|This project uses Internet-connected computers to solve the [[Nqueens|N Queens]] problem
+| A research project that uses Internet-connected computers to do research in cryptanalysis.
 |-
+| [https://web.archive.org/http://dist2.ist.tugraz.at/sudoku/ Project Sudoku]
+|
+| 2007-08-27
+| [https://web.archive.org/web/20080307034907/http://dist2.ist.tugraz.at/sudoku/apps.php WinXP-98, Linux, MacOS]
 |
-| [https://web.archive.org/web/20141009194330/http://registro.ibercivis.es/ Ibercivis]
 |
-|2007-11
-| &nbsp;
 |
+| Graz University of Technology
 |
 |
-|Ibercivis is a research project that uses Internet-connected computers to do research in physics, material science and biomedicines and is based at several institutes and universities; Zaragoza, CETA-CIEMAT, CSIC, Coimbra
+| A research project that uses Internet-connected computers to search for the smallest possible start configuration of Sudoku.
 |-
+| [https://web.archive.org/web/20071005080915/http://www.apsathome.org:80/ APS@Home]
 |
-|[https://web.archive.org/web/20201213215515/https://boinc.ibercivis.es/ibercivis/ Ibercivis BOINC]
+| 2007-08-30
+| WinXP-98, Linux
 |
-|2020-10
-|&nbsp;
 |
 |
+| University of Manchester
 |
-|The Biophym Group of the CSIC Institute for the Structure of Matter has proposed to carry out simulations of the interaction of drugs used against Ebola, HIV infection, influenza or hepatitis B with the genome replication machinery of the SARS-Co-V virus
+|
+| The effects that atmospheric dispersion has on the measurements used in climate prediction.
 |-
+| [https://web.archive.org/web/20080806072857/http://dawn.ynet.sk:80/test1/ Reversi]
+|
+| 2008-05-16
+| &nbsp;
 |
-| [https://web.archive.org/http://evil.podzone.org/decs/ DECS]
 |
-|2007-10-05
-| &nbsp;
 |
+| Independent
 |
 |
-|The Generic Distributed Exact Cover Solver (DECS) project uses Internet-connected computers to solve [[exact cover]] problems. Exact cover is a general type of problem which can be used to solve problems including, but not limited to, n-queens, Latin Square puzzles, Sudoku, polyomino tiling, set packing and set partitioning. A modified version of Donald Knuth's [[Dancing Links]] algorithm is used.
+| Determine who wins in Reversi game - first player, second player or if the game is tied.
 |-
+| [https://web.archive.org/http://www.ramseyathome.com/ramsey/ Ramsey@Home]
+|
+| 2008-06-14
+| &nbsp;
 |
-| [https://web.archive.org/http://boincsrv01.cern.ch/atlfast/ LHC Atlas Test]
 |
-|2007-08-14
-| &nbsp;
 |
+| Nick Peterson
 |
 |
-|Test project for [[LHC@home]]
+| A volunteer computing project designed to find new lower bounds for various Ramsey numbers using a host of different techniques.
 |-
+| [http://canis.csc.ncsu.edu:8005/anansi/ Anansi]
 |
-| [https://web.archive.org/web/20070209051807/http://boinc.berkeley.edu/cplan/ cplan]
+| 2008
-|
-|2007
 | &nbsp;
 |
 |
 |
-|This project was being used to test account creation. You can delete an account by logging in to it, then visiting http://isaac.ssl.berkeley.edu/cplan/delete_account.php
-|-
-|
-| [http://pcschmiede.pc.funpic.de/teah/html/user/ Test Project Christian Beer]
 |
-|2007
-| &nbsp;
 |
 |
-|[[Software testing]]
 |
 |-
+| [https://web.archive.org/http://eaps-at-home-alpha.gotdns.org/eaps/ EAPS@HOME]
 |
-| [https://web.archive.org/web/20110207203930/http://mapthegap.com/ MAPtheGAP]
+| 2008
-|
-|{{No}}
 | &nbsp;
 |
 |
 |
-|Eliminating racial disparities in health
-|-
 |
-| [https://web.archive.org/http://dnahome.cs.rpi.edu/dna/ DNA@Home]
 |
-|2010-04-14
-| &nbsp;
 |
+| A research project that uses Internet-connected computers to do research in Artificial Intelligence.
+|-
+| [https://web.archive.org/web/20080703141019/http://boinc.vanderbilt.edu/CSB/ CSB@Home] / [https://web.archive.org/web/20080703141019/http://boinc.vanderbilt.edu/CSB/ BCL@Home]
 |
+| 2008-06-05 / 2008
+| &nbsp;
 |
-|The new versions allow for different motif types which basically different models for how a binding site could look like. One is palindromic, where the nucleotides in the beginning of the model have their complement at the end of the model, so for example: ATACGCGTAT is palindromic (in DNA, A binds to T, and C binds to G). One reason for using this model is a palindromic binding site could be attached to by a protein from either direction and from either side of the DNA.
-The other model type is reverse complement, which doesn't assume the model to be palindromic, but looks for either the forward version of the model or the reverse version of the model (so in fact it's really looking for two models), for example:
-AAAATTTCCG
-CGGAAATTTT
-are the reverse complement of each other.
-|-
-|
-|[https://web.archive.org/http://edges-local-devbnc-srv.ceta-ciemat.es/3gbp 3g Bridge Project]
 |
-|2009
 |
 |
 |
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX. You can participate by downloading and running a free program on your computer.
+| A research project that uses Internet-connected computers to do research in '''Computational Structural Biochemistry'''.
 |-
+| [https://web.archive.org/web/20080908061532/http://genlife.is-a-geek.org:80/genlife/ Genetic Life]
 |
-| [https://web.archive.org/web/20071220210249/http://boincsrv01.cern.ch:80/lhcathome/ LHC@Home Experimental]
+| 2008-06-18
-|
-|2007
 | &nbsp;
 |
 |
-|[[Software testing]]
-|For internal testing only; any workunits issued are for testing and do not yet have any scientific value. Please remain attached to the official LHC@Home server!
-|-
 |
-| [https://web.archive.org/http://cbl-link02.cs.technion.ac.il/cplan/ Superlink@EGEE queue]
 |
-|{{No}}
-| &nbsp;
 |
 |
+| A not-for-profit research project that uses Internet-connected computers to do research into Genetic Algorithms.
+|-
+| [https://web.archive.org/web/20090506112112/http://africangridlab.net/ African Grid Lab ALPHA]
 |
+| 2008-10-05
 |
-|-
 |
-| [https://web.archive.org/web/20100324075245/http://boinc.cs.uct.ac.za:80/malaria/ UCT:malariacontrol.net]
 |
-|2008-03-31
-| &nbsp;
 |
 |
-|[[Software testing]]
-|A test project in collaboration with MalariaControl.net in Switzerland that aims to test the correct operation of our server for future BOINC-based projects. MalariaControl.net is an application that makes use of network computing for stochastic modelling of the clinical epidemiology and natural history of ''Plasmodium falciparum malaria.''
-|-
 |
-|[https://web.archive.org/http://dist.ist.tugraz.at/cape5/ Rectilinear Crossing Number]
-|
-|2006-06-30
-| WinXP, Linux
 |
+| An incubation laboratory environment for African based BOINC projects.
+|-
+| [https://web.archive.org/web/20090322190553/http://maxwell.dhcp.umsl.edu/brats/ BRaTS@Home]
+| [https://boinc.berkeley.edu/pubs.php#BRaTS@Home 2]
+| 2007-06-05
+| WinXP-98, Linux, MacOS
 |
 |
-|The main goal of the current project is to use sophisticated mathematical methods (abstract extension of order types) to determine the rectilinear crossing number for small values of n. So far we have been successful for n <= 17. From very recent (not even published yet) mathematical considerations the rectilinear crossing numbers for n=19 and n=21 are also known. So the most tantalizing problem now is to determine the true value for n=18, which is the main focus of this project.
-An updated list for the best point sets known so far can be found at http://www.ist.tugraz.at/staff/aichholzer/crossings.html.
-|-
 |
-|[http://boinc.vtu.lt/vtuathome/ VTU@home], [http://boinc.vgtu.lt/vtuathome/ VGTU@home]
 |
-|2006-04-13
-| WinXP, Linux
 |
-|[[Vilnius Gediminas Technical University]]
 |
-|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 VGTU
+| 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''.
-* Prof. Raimondas Čiegis, VGTU Department of Mathematical Modelling,
-* Dr. Vadimas Starikovičius ([email protected]), VGTU Laboratory of Parallel Computing.
-Our goal is to persuade scientists to use this kind of computations in their research and to assist them in preparing BOINC applications. We hope that scientific applications from various fields will be attractive to many current and future BOINC community volunteers and this will allow us to accumulate enough computing resources to achieve significant (unachievable otherwise) results.
 |-
+| [https://web.archive.org/web/20090425124851/http://www.intelligencerealm.com/aisystem/system.php Artificial Intelligence System]
+|
+| 2007-09-05
+| &nbsp;
 |
-| [http://aqua.dwavesys.com/ AQUA@home]
 |
 |
-| &nbsp;
 |
-|dwavesys
 |
 |
+| The neural network simulator is an application that simulates neurons. Each downloaded work unit generates 500,000 biophysical neurons.
 |-
+| [https://web.archive.org/web/20090927062104/http://dynaping.com/ DynaPing]
 |
-|[https://web.archive.org/web/20060702175205/http://www.ufluids.net/ μFluids]
+| 2009
+| &nbsp;
 |
-|2005-09-19
-| WinXP-98
 |
 |
 |
-|study fluid behavior in microgravity to design satellite propellant management devices
-|-
 |
-| [https://web.archive.org/http://boinc.run.montefiore.ulg.ac.be/evo/ Evo@home]
 |
-|2010-11-22
+| Ensure highest availability of your web services. DynaPing uses computers around the world to monitor your web service availability and alerts you of any downtime.
-| &nbsp;
+|-
+| [https://web.archive.org/web/20091130024643/http://nqueens.ing.udec.cl/ NQueens@Home]
 |
-|[[University of Liège]]
+| 2007-08-10
+| Windows
 |
-|A research project that uses Internet-connected computers to do research in [[Machine learning|Machine Learning]]. This project uses [[Evolutionary algorithm|Evolutionary Algorithms]] to optimize the parameters of different kind of machine learning algorithms.
-Currently the project is used to tune the parameters of a learner used for the prediction of the three-dimensional structure of a protein from its sequence of amino acid residues.
-|-
 |
-| [https://web.archive.org/web/20101025171952/http://project.czechnationalteam.cz/cplan/ Czech National Team project]
 |
+| University of Concepción
 |
-| &nbsp;
 |
-|Czech National Team
+| This project uses Internet-connected computers to solve the N Queens problem.
-|[[Software testing]]
-|A test project for our new BOINC server helping us to find and fix some bugs and create a new project which is being prepared
 |-
+| [https://web.archive.org/web/20141009194330/http://registro.ibercivis.es/ Ibercivis]
+| [https://boinc.berkeley.edu/pubs.php#Ibercivis 18]
+| 2007-11
+| &nbsp;
 |
-| [https://web.archive.org/http://boinc.math.ucalgary.ca/sheti/ SHETI]
 |
-|2009-01-08
+| [https://youtu.be/RRPMDKPGt3A view]
-| &nbsp;
 |
 |
 |
-|Sheti is a research project that uses Internet-connected computers to solve the [http://www.certicom.com/index.php/the-certicom-ecc-challenge 131-bit Certicom ECC Challenge].
+| Ibercivis is a research project that uses Internet-connected computers to do research in physics, material science and biomedicines and is based at several institutes and universities; Zaragoza, CETA-CIEMAT, CSIC, Coimbra.
 |-
+| [https://web.archive.org/web/20201213215515/https://boinc.ibercivis.es/ibercivis/ Ibercivis BOINC]
 |
-| [https://web.archive.org/web/20090331215945/http://mothershipathome.org/ Mothership@Home]
+| 2020-10
-|
-|[[2009|2008]]
 | &nbsp;
 |
 |
 |
-|Mothership@Home is dedicated in loving memory of my mother Patricia Horner (1942-1987), my husband Joshua Resnick (1965-1999) and all others who have passed away prematurely due to medical conditions. May the convergence of e-citizen researchers and medical informatics benefit those who remain.
-- Melissa Resnick, 2008
-|-
 |
-|[https://web.archive.org/http://dart.cs.georgefox.edu/mcpi/ Monte Carlo Pi]
 |
-|[[2009|2008]]
 |
+| The Biophym Group of the CSIC Institute for the Structure of Matter has proposed to carry out simulations of the interaction of drugs used against Ebola, HIV infection, influenza or hepatitis B with the genome replication machinery of the SARS-Co-V virus.
+|-
+| [https://web.archive.org/http://evil.podzone.org/decs/ DECS]
 |
-|[[George Fox University]]
+| 2007-10-05
+| &nbsp;
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX
-|-
 |
-| [https://web.archive.org/web/20130823010101/http://www.fpgaathome.org/ FPGA@Home]
 |
-|{{No}}
-| &nbsp;
 |
 |
 |
-|This is an open collaboration for porting Berkeley Open Infrastructure for Network Computing (BOINC) based volunteer computing projects on Field Programmable Gate Arrays (FPGAs)
+| The Generic Distributed Exact Cover Solver (DECS) project uses Internet-connected computers to solve exact cover problems. Exact cover is a general type of problem which can be used to solve problems including n-queens, Latin Square puzzles, Sudoku, polyomino tiling, set packing and set partitioning.
 |-
+| [https://web.archive.org/http://boincsrv01.cern.ch/atlfast/ LHC Atlas Test]
+|
+| 2007-08-14
+| &nbsp;
+|
 |
-| [https://web.archive.org/web/20130528155906/http://boinc.hpc.utp.edu.my:80/utpdg/ UTP Desktop Grid]
 |
 |
-| &nbsp;
 |
-|[[Universiti Teknologi Petronas]]
 |
-|The mission of the HPC Service Center is to develop, promote and facilitate the use of HPC environments in Universiti Teknologi PETRONAS (UTP) to address problems in the engineering and physical sciences fields.
+| Test project for LHC@home.
-The objectives are to:
-* Encourage the use of cutting edge computational techniques in engineering research.
-* Develop expertise and facilities for developing HPC-based solutions to engineering problems that could not otherwise be resolved.
-* Work together with UTP's Mission-Oriented Research (MOR) in acquiring fund to ensure a continual upgrade of HPC-related facilities.
-UTP Desktop Grid (UTPDG) is a research project that uses Internet-connected computers to do research in various areas of parallel computational problems.
 |-
+| [https://web.archive.org/web/20070209051807/http://boinc.berkeley.edu/cplan/ Cunning Plan]
 |
-| [https://web.archive.org/web/20130302052041/http://boinc.ucd.ie/fmah/ FightMalaria@Home]
+| 2007
-|
-|2012-07-20
 | &nbsp;
 |
-|Dr Anthony Chubb
 |
-|A research project that uses donated CPU time to perform docking simulations on malaria proteins
-|-
 |
-| [https://web.archive.org/http://107.21.228.163/VBOINC V-BOINC]
 |
 |
+|
+| Was being used to test account creation.
+|-
+| [http://pcschmiede.pc.funpic.de/teah/html/user/ Test Project Christian Beer]
+|
+| 2007
 | &nbsp;
 |
 |
 |
-| The VBOINC project is the first attempt to use virtual machines with BOINC
-VBOINC is located at [https://web.archive.org/web/20120908053351/http://homepages.inf.ed.ac.uk/s0678915/vboinc.html http://garymcgilvary.co.uk/vboinc.html]
-|-
 |
-| [https://web.archive.org/web/20130501160927/http://oproject.info/ OProject@Home]
+| Software testing
 |
-|2012-08-13
-| &nbsp;
 |
+|-
+| [https://web.archive.org/web/20110207203930/http://mapthegap.com/ MAPtheGAP]
 |
+| {{No}}
+| &nbsp;
 |
-|Algorithm analysis.
-OProject@Home based at [[Olin Library (Rollins College)]]. The library is open and available in the [[Code.google.com]] SVN repository.
-|-
 |
-| Climate@Home
 |
 |
-| &nbsp;
 |
-|NSF I/UCRC for Spatiotemporal Thinking, Computing, and Applications, George Mason University, NASA
 |
-|<nowiki>https://climateathome.info/climateathome/</nowiki>
+| Eliminating racial disparities in health.
-A research project that uses Internet-connected computers to do research for spatiotemporal computing and climate predictions. We aimed to use Cloud Computing, Volunteer Computing and Spatiotemporal technologies to provide a stable system for scientists to deploy, validate and run their models.
 |-
+| [https://web.archive.org/http://dnahome.cs.rpi.edu/dna/ DNA@Home]
+| [https://boinc.berkeley.edu/pubs.php#DNA@Home 2]
+| 2010-04-14
+| &nbsp;
 |
-| [https://web.archive.org/web/20130701032038/http://bigdata.ihep.ac.cn/bigdata/stats.php BigData@home]
 |
 |
-| [https://web.archive.org/http://bigdata.ihep.ac.cn/bigdata/ Windows, Linux]
 |
 |
 |
-|Crawl Internet New Media Information
+| The new versions allow for different motif types which are different models for how a binding site could look. One is palindromic, where the nucleotides in the beginning of the model have their complement at the end of the model. The other model type is reverse complement, which doesn't assume the model to be palindromic, but looks for either the forward or reverse version of the model.
 |-
+| [https://web.archive.org/http://edges-local-devbnc-srv.ceta-ciemat.es/3gbp 3g Bridge Project]
 |
-| [https://web.archive.org/http://qcn.emsc-csem.org/sensor/ Quake-Catcher Network EMSC / CSEM]
+| 2009
 |
 |
-| &nbsp;
 |
 |
 |
-|The Quake Catcher Network (QCN) is a research project that uses Internet-connected computers to do research, education, and outreach in seismology
-|-
 |
-|[http://mersenneathome.net/ Mersenne@home]
 |
+| A research project that uses Internet-connected computers to do research in XXX.
+|-
+| [https://web.archive.org/web/20071220210249/http://boincsrv01.cern.ch:80/lhcathome/ LHC@Home Experimental]
 |
+| 2007
 | &nbsp;
 |
@@ Line 1,609: / Line 1,705: @@
 |
 |
+| Software testing
+|
+| For internal testing only; any workunits issued are for testing and do not yet have any scientific value. Please remain attached to the official LHC@Home server!
 |-
+| [https://web.archive.org/http://cbl-link02.cs.technion.ac.il/cplan/ Superlink@EGEE queue]
 |
-| [http://b25.interix.jp/b25/ B25@Home]
+| {{No}}
-|
-|
 | &nbsp;
 |
@@ Line 1,619: / Line 1,718: @@
 |
 |
-|-
 |
-|[http://boinc.ryanteck.org.uk/boincPi/ boincPi]
 |
 |
+|-
+| [https://web.archive.org/web/20100324075245/http://boinc.cs.uct.ac.za:80/malaria/ UCT:malariacontrol.net]
+|
+| 2008-03-31
 | &nbsp;
 |
@@ Line 1,629: / Line 1,731: @@
 |
 |
+| Software testing
+|
+| A test project in collaboration with MalariaControl.net in Switzerland that aims to test the correct operation of our server for future BOINC-based projects.
 |-
+| [https://web.archive.org/http://dist.ist.tugraz.at/cape5/ Rectilinear Crossing Number]
 |
-|[http://surveill.dei.uc.pt/surveill/ Surveill@home]
+| 2006-06-30
+| WinXP, Linux
 |
 |
-| &nbsp;
+| [https://youtu.be/d03IUeQrDLQ view]
+|
 |
-|[[University of Coimbra]]
 |
-|A research project that uses Internet-connected computers to conduct end-to-end fine-grained monitoring of web sites.
+| Use sophisticated mathematical methods to determine the rectilinear crossing number for small values of n.
-The aim of the project is to deploy a large infrastructure to support thousands of probes monitoring the Internet.
-Each probe repeatedly performs a pre-defined set of web transactions on web-sites, accessing each site about 4 times per hour.
-The proposed approach allows us to obtain important results on end-user visible failures and performance statics, from several thousands view points spread throughout the Internet.
 |-
+| [https://web.archive.org/web/20091124095534/http://boinc.vtu.lt:80/vtuathome VTU@home], [https://web.archive.org/web/20090412025420/http://boinc.vgtu.lt/vtuathome/ VGTU@home]
+| [https://boinc.berkeley.edu/pubs.php#VGTU@home 2]
+| 2006-04-13
+| WinXP, Linux
 |
-|[https://www.chess960athome.org/alpha/ Chess960athome]
 |
-|2006-03-20
-| &nbsp;
 |
+| Vilnius Gediminas Technical University
 |
 |
-|[[Chess960]] is a young innovative chess variant. In [[Chess960]], just before the start of every game, the initial configuration of the chess pieces is determined randomly, that means that the king, the queen, the rook, the bishop and the knight are not necessarily placed on the same home squares as in classical chess. Since a few years there are World Championships taking place in "Chess Classic Mainz" event in August every year. GM Peter Svidler is the current Champion. In this project we try to combine [[Chess960]] and the idea of distributed computing. With the BOINC software framework from the University of Berkeley exists a platform we want to use in this project to perform these computing intensive tasks. With it we want to give this chess variant some basics in theory of this game. We know the fascination of this chess variant is the incredible amount of variations. That will not change with this project but some guidelines seems to be useful in each starting position.
+| The aim of this project is to provide a powerful distributed computing platform for scientists of Vilnius Gediminas Technical University (VGTU) as well as other Lithuanian academic institutions.
 |-
+| [https://web.archive.org/web/20090309055929/http://aqua.dwavesys.com/ AQUA@home]
+| [https://boinc.berkeley.edu/pubs.php#AQUA@home 4]
 |
-|[http://www.freehal.net/freehal_at_home/ FreeHAL]
+| &nbsp;
+| {{Yes}}
 |
+| [https://youtu.be/VyQgGkj_Rss view]
+| dwavesys
 |
-| &nbsp;
 |
-|Tobias Schulz Powered by SETI.Germany and Planet 3DNow!
 |
-|FreeHAL@home is a research project that uses Internet-connected computers to parse and convert big open source semantic nets for use in FreeHAL.
 |-
+| [https://web.archive.org/web/20060702175205/http://www.ufluids.net/ μFluids]
+| [https://boinc.berkeley.edu/wiki/Publications_by_BOINC_projects#.C2.B5Fluids.40Home 3]
+| 2005-09-19
+| WinXP-98
+|
 |
-| [https://web.archive.org/web/20100430012556/http://goldbach.pl/ Goldbach's Conjecture Project]
 |
-|2009-07-23
-| [https://web.archive.org/web/20100505082120/http://goldbach.pl/apps.php Windows, Linux]
 |
 |
 |
-|Effectively proving [[Goldbach's weak conjecture]]
+| Study fluid behavior in microgravity to design satellite propellant management devices.
 |-
+| [https://web.archive.org/web/20110817075110/http://boinc.run.montefiore.ulg.ac.be:80/evo/ Evo@home]
 |
-| [https://web.archive.org/http://physicsathome.tk/physics/ physics@home]
+| 2010-11-22
-|
-|2013-02-16
 | &nbsp;
 |
-|Vasyl Kuzmenko
 |
-|Research in [[Solid-state physics]], [[Materials science]], [[Optics]] and [[Chemistry]]
-|-
 |
-| [https://web.archive.org/http://vcsc.cs.uh.edu/second-computing/ UH Second Computing]
+| University of Liège
 |
 |
-| &nbsp;
+| A research project that uses Internet-connected computers to do research in Machine Learning. This project uses Evolutionary Algorithms to optimize the parameters of different kind of machine learning algorithms.
-|
-|[[University of Houston College of Technology]]
-|
-|We are in the process to simulate macromolecular interactions in a living cell. Using multi-scaled models we are assessing meaningful biopolymer dynamics that spans several orders of magnitude in time and space.
 |-
+| [http://gmdhgrid.com/mgua/index.php GMDHGrid]
 |
-| [https://web.archive.org/http://eon.raunvis.hi.is/EON2v1/ EON2v1@clusters]
+| 2010
 |
 |
-| &nbsp;
 |
 |
+| Kiev Polytechnic Institute
 |
 |
+| Data mining, knowledge discovery, prediction, complex systems modeling, optimization and pattern recognition.
 |-
-|
+| [https://web.archive.org/web/20101025171952/http://project.czechnationalteam.cz/cplan/ Czech National Team project]
-| [https://web.archive.org/http://sctr.i3a.uclm.es/prob/ Prob]
 |
 |
@@ Line 1,711: / Line 1,821: @@
 |
 |
+| Czech National Team
+| Software testing
 |
+| A test project for our new BOINC server helping us to find and fix some bugs and create a new project which is being prepared.
 |-
+| [https://web.archive.org/http://boinc.math.ucalgary.ca/sheti/ SHETI]
 |
-| [http://140.110.240.195/bioinfo/ Bioinfo@Home]
+| 2009-01-08
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Sheti is a research project that uses Internet-connected computers to solve the [http://www.certicom.com/index.php/the-certicom-ecc-challenge 131-bit Certicom ECC Challenge].
 |-
+| [https://web.archive.org/web/20090331215945/http://mothershipathome.org/ Mothership@Home]
 |
-| [https://web.archive.org/https://boinc.freerainbowtables.com/distrrtgen/ DistrRTgen]
+| 2008
-|
-|
 | &nbsp;
 |
 |
 |
-|By distributing the generation of rainbow chains, we can generate HUGE rainbow tables that are able to crack longer passwords than ever seen before.
-Furthermore, we are also improving the rainbow table technology, making them even smaller and faster than rainbow tables found elsewhere, and the best thing is, those tables [https://www.freerainbowtables.com/tables2 are freely available to download here]
-|-
-|
-| [https://web.archive.org/http://cah.tcm.phy.cam.ac.uk/ QuantumFIRE alpha]
 |
-|2010
-| &nbsp;
 |
-|[[University of Cambridge]]
 |
-|[[Quantum foundations]] and [[Solid-state physics]] research
+| Mothership@Home is dedicated in loving memory of my mother Patricia Horner (1942-1987), my husband Joshua Resnick (1965-1999) and all others who have passed away prematurely due to medical conditions.
 |-
+| [https://web.archive.org/http://dart.cs.georgefox.edu/mcpi/ Monte Carlo Pi]
 |
-| [https://web.archive.org/http://boinctest.codeq.pl/boinctest/ Replace With Project Name]
+| 2008
 |
-|2013
-| &nbsp;
 |
 |
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX.
+| George Fox University
-|-
 |
-| [https://web.archive.org/http://chess.qugate.org/ Chess@Home]
 |
-|2014-01-05
+| A research project that uses Internet-connected computers to do research in XXX.
-| &nbsp;
-|
-|Michal Stanislaw Wojcik
-|
-|The purpose of this project is to construct a chess wining position classifier (or score estimator) based on some simple features (e.g. the number of pieces of each kind, number of squares controlled by given side, numbers of checks that you can give in a position and so on) The first goal of the project is to establish how far we can get with relatively cheap methods of position evaluation and simple data mining methods (e.g. logistic regression, k-nearest neighbors, SVM, decision trees). The second goal is to use more advance machine learning techniques for recognition of winning position to emulate human behaviour of various levels of chess proficiency.
 |-
+| [http://cancergrid.lpds.sztaki.hu/cancergrid/ CancerGrid]
 |
-| [https://web.archive.org/http://perft.computers-chess.com/ computers-chess]
+| 2008
 |
-|2013
-| &nbsp;
 |
 |
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX.
-|-
 |
-| [http://cleanenergy.harvard.edu/ The Clean Energy Project]
 |
 |
-| &nbsp;
 |
-|[[Harvard University]]
-|
-|Merged into [[World Community Grid]]
 |-
+| [http://stuff.povaddict.com.ar:8080/boinctest/ Silly Pi Calculation]
 |
-| [https://web.archive.org/http://eon.ices.utexas.edu/eon2/ eOn2]
+| 2008
 |
 |
-| &nbsp;
 |
 |
+| Nicolas
 |
-|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. Generally the events of interest are quite rare (many orders of magnitude slower than the vibrational movements of the atoms), and therefore direct simulations, tracking every movement of the atoms, would take thousands of years of computer calculations on the fastest present day computer before a single event of interest can be expected to occur, hence the name eon, which is an indefinitely long period of time.
-Our research group is interested in calculating the long time dynamics of systems.
-|-
 |
-|[https://web.archive.org/http://mmgboinc.unimi.it/ SimOne@home]
 |
+|-
+| [https://web.archive.org/web/20130823010101/http://www.fpgaathome.org/ FPGA@Home]
 |
+| {{No}}
 | &nbsp;
 |
 |
 |
-|The project focuses on the osmoprotection phenomenon. In nature there are small molecules that are able to protect proteins, for example by thermal stress. Thanks to these molecules in nature we can find plants able to survive without water, or bacteria able to survive in extreme environmental conditions. And how is this possible? Answering this question could have a major impact in agriculture, e.g. developing plants that require less water intake. The project uses the most advanced modeling techniques to study, at molecular level, the action of osmoprotectants.
-|-
 |
-|[[Docking@Home]]
 |
 |
-| &nbsp;
+| This is an open collaboration for porting Berkeley Open Infrastructure for Network Computing (BOINC) based volunteer computing projects on Field Programmable Gate Arrays (FPGAs).
-|
-|[[University of Delaware]]
-|
-|A project that modeled [[protein]]-[[Ligand (biochemistry)|ligand]] [[Docking (molecular)|docking]] using the [[CHARMM]] program. The ultimate aim was the development of new [[pharmaceutical drug]]s.
 |-
+| [https://web.archive.org/web/20130528155906/http://boinc.hpc.utp.edu.my:80/utpdg/ UTP Desktop Grid]
 |
-| [http://boinc01.cern.ch/test4theory/ LHC Test4Theory]
 |
-|2011
 | &nbsp;
 |
 |
 |
+| Universiti Teknologi Petronas
 |
+|
+| UTP Desktop Grid (UTPDG) is a research project that uses Internet-connected computers to do research in various areas of parallel computational problems.
 |-
+| [https://web.archive.org/web/20130302052041/http://boinc.ucd.ie/fmah/ FightMalaria@Home]
 |
-|[https://web.archive.org/web/20150731163559/http://lhcathome2.cern.ch/vLHCathome/ vLHCathome]
+| 2012-07-20
+| &nbsp;
 |
-|2011
 |
 |
+| Dr Anthony Chubb
 |
 |
-|This is a project that utilizes the CERN-developed CernVM virtual machine and the BOINC virtualization layer to harness volunteer cloud computing power for full-fledged LHC event physics simulation on volunteer computers.
+| Perform docking simulations on malaria proteins.
-The theory simulations that have been running as '''Test4Theory''' since 2011, were the first of a series of physics applications running on the LHC@home platform. Soon the theory simulations will be followed by more simulations from the LHC experiment collaborations. These applications exploit virtual machine technology, enabling volunteers to contribute to the huge computational task of searching for new fundamental particles and physics at CERN's LHC.
 |-
+| [https://web.archive.org/http://107.21.228.163/VBOINC V-BOINC]
+|
+|
+| &nbsp;
 |
-| [https://web.archive.org/web/20130511025233/http://falua.cesfelipesegundo.com/Ideologias/ Ideologias@Home]
 |
 |
-| &nbsp;
 |
 |
 |
-|To study how people in a certain region evolve ideologically over time with respect to an idea
+| The VBOINC project is the first attempt to use virtual machines with BOINC.
 |-
+| [https://web.archive.org/web/20130501160927/http://oproject.info/ OProject@Home]
+| [https://arxiv.org/abs/1210.1593 1]
+| 2012-08-13
+| &nbsp;
+|
 |
-| [https://web.archive.org/web/20120302132650/http://alfa-bridge.ibercivis.es/puente/ alfa_puente]
 |
-|2012
-| &nbsp;
 |
 |
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX
+| Algorithm analysis. OProject@Home based at Olin Library (Rollins College).
 |-
+| [https://web.archive.org/https://climateathome.info/climateathome/ Climate@Home]
 |
-| [https://web.archive.org/http://qcn.stanford.edu/continual/ QCN Continual Sensor Monitoring]
 |
-|2012-04-18
 | &nbsp;
 |
 |
 |
-|The Quake Catcher Network (QCN) is a research project that uses Internet-connected computers to do research, education, and outreach in seismology
+| George Mason University, NASA
-|-
 |
-| [https://web.archive.org/http://qcn.twgrid.org/sensor/ QCN (Taiwan)]
 |
-|2012-04-16
+| Research for spatiotemporal computing and climate predictions.
-| &nbsp;
+|-
+| [https://web.archive.org/web/20130701032038/http://bigdata.ihep.ac.cn/bigdata/stats.php BigData@home]
 |
 |
+| [https://web.archive.org/http://bigdata.ihep.ac.cn/bigdata/ Windows, Linux]
 |
-|The Quake Catcher Network (QCN) is a research project that uses Internet-connected computers to do research, education, and outreach in seismology
-|-
 |
-| [https://web.archive.org/http://bvp6.hpc.iit.bme.hu/w2g/ Web2Grid Development]
 |
-|2012
-| &nbsp;
 |
 |
 |
-|XXX is a research project that uses Internet-connected computers to do research in XXX
+| Crawl Internet New Media Information.
 |-
+| [https://quakecatcher.net/sensor/ Quake-Catcher Network]
+| [https://boinc.berkeley.edu/pubs.php#Quake-Catcher 13]
+| 2007-12-05 / 2023-06-01
 |
-| [http://boinc.rm-hs.de/test/ Replace With Project Name]
-|
-|
-| &nbsp;
 |
 |
+| [https://youtu.be/SCv_W751m64 view]
+| Stanford University, then University of Southern California
 |
 |
+| Research, education, and outreach in seismology.
 |-
+| [https://web.archive.org/http://qcn.emsc-csem.org/sensor/ Quake-Catcher Network EMSC / CSEM]
 |
-| [http://150.186.92.236/boinctest/ boinctest]
 |
+| &nbsp;
 |
-| &nbsp;
 |
+| [https://youtu.be/SCv_W751m64 view]
 |
 |
 |
+| Research, education, and outreach in seismology.
 |-
+| [https://web.archive.org/web/20110723205439/http://mersenneathome.net/ Mersenne@home]
 |
-|[https://web.archive.org/http://nanomodeling.molsim.ru/nanomodeling/ NanoModeling@home]
 |
-|2012-05-03
 | &nbsp;
 |
 |
 |
-|For designing nanostructures and nanorobots. Our goal is molecular modeling of targeted drug delivery systems, nanorobots and related nanostructures.
+|
+|
+|
+|
 |-
+| [http://b25.interix.jp/b25/ B25@Home]
 |
-| [https://web.archive.org/http://www.ras.unam.mx/sensor/ Red Atrapa Sismos]
 |
-|2012-04-16
 | &nbsp;
 |
 |
 |
-|The Quake Catcher Network (QCN) is a research project that uses Internet-connected computers to do research, education, and outreach in seismology
-|-
 |
-| Vboxwrapper Test Project
 |
 |
-| &nbsp;
 |
+|-
+| [http://boinc.ryanteck.org.uk/boincPi/ boincPi]
 |
 |
+| &nbsp;
 |
-|-
 |
-| Attic Proxy Project
 |
-|
-| &nbsp;
 |
 |
 |
 |
 |-
+| [https://web.archive.org/http://surveill.dei.uc.pt/surveill/ Surveill@home]
 |
-| PUCBi Desktop Grid
 |
+| &nbsp;
 |
-| &nbsp;
 |
 |
+| University of Coimbra
 |
 |
+| Conduct end-to-end fine-grained monitoring of web sites.
 |-
+| [https://www.chess960athome.org/alpha/ Chess960athome]
 |
-|[http://boinc.riojascience.com/ Riojascience@home]
+| 2006-03-20
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Chess960 is a young innovative chess variant. In Chess960, just before the start of every game, the initial configuration of the chess pieces is determined randomly. In this project we try to combine Chess960 and the idea of distributed computing to give this chess variant some basics in theory.
 |-
+| [https://web.archive.org/web/20110801052639/http://www.freehal.net/freehal_at_home FreeHAL]
 |
-|[http://igemathome.org/ iGem@home]
 |
+| &nbsp;
 |
-| &nbsp;
 |
 |
+| Tobias Schulz / Powered by SETI.Germany and Planet 3DNow!
 |
 |
+| FreeHAL@home is a research project that uses Internet-connected computers to parse and convert big open source semantic nets for use in FreeHAL.
 |-
+| [https://web.archive.org/web/20100430012556/http://goldbach.pl/ Goldbach's Conjecture Project]
 |
-| Bitcoin Utopia
+| 2009-07-23
+| [https://web.archive.org/web/20100505082120/http://goldbach.pl/apps.php Windows, Linux]
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Effectively proving Goldbach's weak conjecture.
 |-
+| [http://starmageddon.dyndns.org/ninjagrid/ NinjaGrid]
 |
-| Drug@Home
+| 2009
 |
 |
-| &nbsp;
 |
 |
 |
+| Mathematics
 |
+| 3x+1.
 |-
+| [https://web.archive.org/http://physicsathome.tk/physics/ physics@home]
 |
-| Edges Bridge Production
+| 2013-02-16
+| &nbsp;
 |
-|
-| &nbsp;
 |
 |
+| Vasyl Kuzmenko
 |
 |
+| Research in Solid-state physics, Materials science, Optics and Chemistry.
 |-
+| [https://web.archive.org/http://vcsc.cs.uh.edu/second-computing/ UH Second Computing]
 |
-| RSA Lattice Siever(2.0)
 |
+| &nbsp;
 |
-| &nbsp;
 |
 |
+| University of Houston College of Technology
 |
 |
+| We are in the process to simulate macromolecular interactions in a living cell.
 |-
+| [http://babel.boinc.povaddict.com.ar/ Babel]
+|
+|
 |
-| EDGeS@Home
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Testing translations of BOINC server and forum.
 |-
-|
+| [https://web.archive.org/http://eon.raunvis.hi.is/EON2v1/ EON2v1@clusters]
-| Cels@Home
 |
 |
@@ Line 2,035: / Line 2,160: @@
 |
 |
-|-
 |
-| jplan
 |
 |
-| &nbsp;
+|-
+| [https://web.archive.org/http://sctr.i3a.uclm.es/prob/ Prob]
 |
 |
+| &nbsp;
 |
 |
-|-
 |
-| Beauty@LHC
 |
 |
-| &nbsp;
 |
 |
+|-
+| [http://140.110.240.195/bioinfo/ Bioinfo@Home]
 |
 |
-|-
+| &nbsp;
 |
-| Putra Desktop Grid
 |
 |
-| &nbsp;
 |
 |
 |
 |
 |-
-|
+| [https://web.archive.org/https://boinc.freerainbowtables.com/distrrtgen/ DistrRTgen]
-| Replace With Project Name
 |
 |
@@ Line 2,075: / Line 2,199: @@
 |
 |
-|-
 |
-| Virtual Prairie
 |
+| By distributing the generation of rainbow chains, we can generate HUGE rainbow tables that are able to crack longer passwords than ever seen before.
+|-
+| [https://web.archive.org/web/20100526004243/http://boinc.picevolvr.com:80/ Picevolvr]
 |
+| 2010
 | &nbsp;
 |
 |
 |
+| [http://cullen-online.com/ Michael Cullen]
 |
+|
+| Uses Internet-connected computers to generate artwork completely automatically.
 |-
+| [https://web.archive.org/http://cah.tcm.phy.cam.ac.uk/ QuantumFIRE alpha]
 |
-| QuantumFIRE alpha
+| 2010
+| &nbsp;
 |
-|
-| &nbsp;
 |
 |
+| University of Cambridge
 |
 |
+| Quantum foundations and Solid-state physics research.
 |-
+| [https://web.archive.org/http://boinctest.codeq.pl/boinctest/ Replace With Project Name]
 |
-| Najmanovich Research Group
+| 2013
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| http://boinctest.codeq.pl/boinctest/
 |-
+| [http://web.archive.org/web/20131229164437/http://plagiarism.boincpolska.org/plagiarism/ Plagiarism@Home]
 |
-| Sustainable Grid
+| 2013
 |
 |
-| &nbsp;
 |
 |
+| Krzysztof Piszczek
 |
 |
+| Search given text for potential plagiarism in Internet resources.
 |-
+| [http://boinc.comcute.com/SIM/ Comcute emBOINC]
+|
+| 2012
+|
 |
-| Ciência Em Sua Casa
 |
 |
-| &nbsp;
 |
 |
 |
 |
 |-
+| [http://boinc.comcute.com/cc_boinc/ Comcute Boinc]
 |
-| Donate@Home
+| 2013
 |
 |
-| &nbsp;
 |
 |
 |
 |
-|-
 |
-| Charity Engine
 |
+|-
+| [https://web.archive.org/http://chess.qugate.org/ Chess@Home]
 |
+| 2014-01-05
 | &nbsp;
 |
 |
+|
+| Michal Stanislaw Wojcik
 |
 |
+| Construct a chess winning position classifier based on simple features. The first goal is to establish how far we can get with relatively cheap methods of position evaluation. The second goal is to use more advanced machine learning techniques to emulate human behaviour of various levels of chess proficiency.
 |-
+| [https://web.archive.org/http://perft.computers-chess.com/ computers-chess]
 |
-| DG@Putra
+| 2013
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [http://151.97.53.109/synchronised/ Synchronised]
 |
-| EDGI Demo Project
+| 2013 / 2014
 |
-|
-| &nbsp;
 |
 |
 |
+| University of Catania
+| Molecular Modelling
 |
+| Pharmaceutical chemistry research.
 |-
-|
+| [https://web.archive.org/web/20090402124145/http://cleanenergy.harvard.edu/ The Clean Energy Project]
-| AtticFS Proxy Application Project
 |
 |
@@ Line 2,174: / Line 2,328: @@
 |
 |
+| Harvard University
 |
+|
+| Merged into World Community Grid.
 |-
+| [https://web.archive.org/web/20150522195526/http://www.universeathometest.info/universe/ Universe@Home test project]
+|
 |
-| SubsetSum@Home
 |
 |
-| &nbsp;
 |
 |
+| University of Warsaw
 |
 |
+| Test project for Universe@Home.
 |-
+| [https://web.archive.org/http://eon.ices.utexas.edu/eon2/ eOn2]
+| [https://boinc.berkeley.edu/pubs.php#EOn 6]
 |
-| DistributedDataMining
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| 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 chemical reactions and/or diffusion occur.
 |-
+| [https://web.archive.org/http://mmgboinc.unimi.it/ SimOne@home]
+| [https://www.sciencedirect.com/science/article/pii/S000926141300763X 1]
 |
-| DNETC@HOME
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| The project focuses on the osmoprotection phenomenon. In nature there are small molecules that are able to protect proteins from thermal stress. Answering this question could have a major impact in agriculture, e.g. developing plants that require less water intake.
 |-
+| [http://docking.cis.udel.edu/ Docking@Home]
+| [https://boinc.berkeley.edu/pubs.php#Docking@home 20]
+| 2006-09-11 / 2014-05-23
+| WinXP-98, Linux, MacOS X/Intel
 |
-| SLinCA
 |
+| [https://youtu.be/gC_2zu2efY4 view]
+| University of Delaware
 |
-| &nbsp;
 |
+| Perform scientific calculations that aid in the creation of new and improved medicines to help cure diseases such as HIV.
+|-
+| [http://boinc01.cern.ch/test4theory/ LHC Test4Theory]
 |
+| 2011
+| &nbsp;
 |
 |
-|-
 |
-| [https://web.archive.org/web/20090925073458/http://mishra.lpds.sztaki.hu/szdgr/ SZTAKI Desktop Grid Research Facility]
 |
 |
-| WinXP-98, Linux, MacOS X
 |
-|[[Hungarian Academy of Sciences]]
 |
-|This project is the test & research facility for [http://szdg.lpds.sztaki.hu/szdg/ SZTAKI Desktop Grid]
 |-
+| [https://web.archive.org/web/20150731163559/http://lhcathome2.cern.ch/vLHCathome/ vLHCathome]
 |
-|[http://hydrogenathome.org/ Hydrogen@home]
+| 2011
+| &nbsp;
 |
 |
-| WinXP-98, Linux, MacOS X (Not Intel)
 |
 |
 |
 |
+| This is a project that utilizes the CERN-developed CernVM virtual machine and the BOINC virtualization layer to harness volunteer cloud computing power for full-fledged LHC event physics simulation on volunteer computers.
 |-
+| [https://web.archive.org/web/20120102114135/http://ui.hpc.iit.bme.hu/wc/ Web Computing]
+|
+| 2011
 |
-|[http://convector.fsv.cvut.cz/ convector@home]
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [https://web.archive.org/web/20130511025233/http://falua.cesfelipesegundo.com/Ideologias/ Ideologias@Home]
 |
-|[http://spin.fh-bielefeld.de/ Spinhenge@home]
+|
+| &nbsp;
 |
 |
-| WinXP-98
 |
 |
 |
 |
+| Study how people in a certain region evolve ideologically over time with respect to an idea.
 |-
+| [https://web.archive.org/web/20120302132650/http://alfa-bridge.ibercivis.es/puente/ alfa_puente]
 |
-| Beal@Home
+| 2012
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [https://web.archive.org/web/20121207151627/http://boinc.biruni.upm.my/putra/ DG@Putra]
 |
-|[http://cbl-link02.cs.technion.ac.il/superlinkattechnion/ Superlink@Technion]
+| 2012-02-23
+| &nbsp;
 |
-|
-| WinXP-98, Linux
 |
 |
+| Universiti Putra Malaysia
 |
 |
+| Putra Desktop Grid is UPM's implementation of a DesktopGrid network. The project is fully supported by the International Desktop Grid Federation (IDGF).
 |-
+| [https://web.archive.org/http://qcn.stanford.edu/continual/ QCN Continual Sensor Monitoring]
 |
-|[http://www.malariacontrol.net/ Africa@home]
+| 2012-04-18
-|
+| &nbsp;
 |
-| &nbsp;
 |
+| [https://youtu.be/SCv_W751m64 view]
 |
 |
 |
+| Research, education, and outreach in seismology.
 |-
+| [https://web.archive.org/http://qcn.twgrid.org/sensor/ QCN Taiwan]
 |
-| Biochemical Library
+| 2012-04-16
+| &nbsp;
 |
 |
-| &nbsp;
+| [https://youtu.be/SCv_W751m64 view]
-|
 |
 |
 |
+| Research, education, and outreach in seismology.
 |-
+| [https://web.archive.org/http://www.ras.unam.mx/sensor/ QCN Red Atrapa Sismos]
 |
-| Jarifa
 |
+| &nbsp;
 |
-| &nbsp;
 |
+| [https://youtu.be/SCv_W751m64 view]
 |
 |
 |
+| Research, education, and outreach in seismology.
 |-
+| [https://web.archive.org/http://bvp6.hpc.iit.bme.hu/w2g/ Web2Grid Development]
 |
-| eOn
+| 2012
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [http://bacalhau.lsd.ufcg.edu.br/table_transcriber/ TABLE TRANSCRIBER]
+|
+| 2012
+|
 |
-| NetMax Project
 |
 |
-| &nbsp;
 |
 |
 |
 |
 |-
+| [http://boinc.rm-hs.de/test/ Replace With Project Name]
+|
 |
-| ihep.ac.cn/ATLAS
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| http://boinc.rm-hs.de/test/
 |-
+| [http://150.186.92.236/boinctest/ boinctest]
 |
-| LHC+@Home
 |
+| &nbsp;
 |
-| &nbsp;
 |
 |
 |
 |
-|-
 |
-| Replace With Project Name
 |
+|-
+| [https://web.archive.org/http://nanomodeling.molsim.ru/nanomodeling/ NanoModeling@home]
 |
+| 2012-05-03
 | &nbsp;
 |
@@ Line 2,355: / Line 2,563: @@
 |
 |
+|
+|
+| For designing nanostructures and nanorobots. Our goal is molecular modeling of targeted drug delivery systems, nanorobots and related nanostructures.
 |-
+| [https://web.archive.org/web/20120120081734/http://boinc.berkeley.edu:80/vbox/ CERNVM/Vboxwrapper Test Project]
 |
-| BOINC@Fiit
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [https://web.archive.org/http://mishra.lpds.sztaki.hu/atticproxy/ Attic Proxy Project]
+|
 |
-| v8boinc
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [http://95.56.231.137/norlist/view_profile.php?userid=806 NORLIST@HOME]
 |
-| GA@home
+| 2014
 |
 |
-| &nbsp;
 |
 |
+| Kazakhstan National Scientific Laboratory
 |
 |
+| Kazakh speech recognition.
 |-
+| [https://web.archive.org/http://boinc.biruni.upm.my/pucbi/ PUCBi Desktop Grid]
 |
-| Luxrenderfarm@home
+| 2015
+| &nbsp;
 |
-|
-| &nbsp;
 |
 |
+| Perdana University Centre for Bioinformatics (PU-CBi)
 |
 |
+| Provide education and training to support the development and continuity of in-house programmes, in particular to advance the translational bioinformatics skills of the next generation doctors and clinician scientists.
 |-
+| [https://web.archive.org/web/20160315063057/http://finance.gridcoin.us/finance/show_user.php?userid=885357 Gridcoin Finance]
 |
-| sudoku@vtaiwan
+| 2015
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| [https://wiki.bc-team.org/index.php?title=Gridcoin_Finance/en The project performs financial simulations, analysis of the block chain, consolidate humanitarian reports, calculate marketing strategies, perform stock option analysis, harvest business intelligence, and assimilate top level results for the crowdsourced web pages.]
 |-
+| [https://web.archive.org/web/20160831173736/http://nanosurf.kr.ua/nanos/ nanosurf]
 |
-| MilestoneRSA
+| 2016-06-16
+| &nbsp;
 |
-|
-| &nbsp;
 |
 |
+| Oleg Schevchenko
 |
 |
+| Researching surface physics. In particular, the development of optical devices. Theoretical modeling of surface quantum dots makes it possible to provide recommendations to a group of experimenters.
 |-
+| [https://www.boincstats.com/stats/167/project/detail/ BMG@Home]
 |
-| ILS-ESP-2014
+| 2016-02-25
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
+| Chemistry
 |
 |
 |-
+| [https://web.archive.org/web/20170514021753/http://parlea.ru:80/andersonattack AndersonAttack@home]
+| [https://www.degruyter.com/document/doi/10.1515/eng-2018-0002/html 1]
+| 2017
+| &nbsp;
+| {{Yes}}
+|
+|
+| Matrosov Institute for System Dynamics and Control Theory
 |
-| Russian Words Compatibility
 |
+| Implement Anderson's attack on A5/1 GSM stream cipher.
+|-
+| [https://web.archive.org/web/20171114233820/http://stop.inferia.ru:80/ Stop@home]
 |
+| 2017-09-17
 | &nbsp;
 |
 |
+|
+| 256Ghz
 |
 |
+| Today we can't imagine our life without internet and its services. Our team wants to use distributed computing to solve mathematical tasks and improve algorithms.
 |-
-|
+| [https://web.archive.org/web/20130605030952/http://boinc.riojascience.com/ Riojascience@home]
-| Neurona@Home
 |
 |
@@ Line 2,444: / Line 2,692: @@
 |
 |
+| Knet Communications and the University of La Rioja
 |
+|
+| A platform for biomedical research.
 |-
+| [https://web.archive.org/web/20141117215322/http://igemathome.org/ iGem@home]
+|
+| {{No}}
+| &nbsp;
 |
-| OPTIMA@HOME
 |
 |
-| &nbsp;
 |
 |
 |
 |
 |-
+| [https://web.archive.org/web/20160629234412/http://www.bitcoinutopia.net/bitcoinutopia/ Bitcoin Utopia]
 |
-| Correlizer
+| 2013-06-05
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Mine cryptocurrencies for incentive awards and science projects.
 |-
+| [https://web.archive.org/http://59.78.96.61:8082/dhome/ Drug@Home]
 |
-| Taiwan Desktop Grid
 |
+| &nbsp;
 |
-| &nbsp;
 |
 |
+| School of Pharmacy, Ecust China University of Science & Technology
 |
 |
+| This study applied an efficient virtual screening strategy integrating molecular docking with MM-GBSA rescoring to identify diverse human dihydroorotate dehydrogenase (hDHODH) inhibitors.
 |-
-|
+| [http://edges-ext-dg.ceta-ciemat.es/3gbp/ Edges Bridge Production]
-| AndrOINC
 |
 |
@@ Line 2,485: / Line 2,745: @@
 |
 |
-|-
 |
-| [https://web.archive.org/web/20141216004540/http://findah.ucd.ie/ FiND@Home]
 |
-|2012-07-20
+| A research project that uses Internet-connected computers to do research in XXX.
-| &nbsp;
-|
-|Dr Anthony Chubb
-|
-|A research project that uses donated CPU time to perform docking simulations on malaria proteins
 |-
+| [https://web.archive.org/web/20140913231024/http://boinc.unsads.com/rsals/ RSA Lattice Siever(2.0)]
 |
-|[http://www.primaboinca.com/ Primaboinca]
+| 2009-12-24 / 2012
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Help other factoring projects such as mersenneforum or XYYXf achieve their academic goals. Merged into [[NFS@Home]].
 |-
+| [https://web.archive.org/web/20120329124047/http://home.edges-grid.eu/home/ EDGeS@Home]
+| [https://boinc.berkeley.edu/pubs.php#EDGeS@Home 12]
+| 2009-10-28
+| &nbsp;
 |
-| Seasonal Attribution Project
 |
-|
-| WinXP, Linux
 |
 |
 |
 |
+| To support the execution of selected and validated scientific applications developed by the EGEE and EDGeS community.
 |-
+| [https://web.archive.org/web/20081008031648/http://cels-at-home-dev.dyndns.org:80/cels/ Cels@Home]
 |
-|[http://shasta.chem.uh.edu/SolarAtHome/ Solar@home]
 |
+| &nbsp;
 |
-| &nbsp;
 |
+| [https://youtu.be/mzp2QBwvb2U view]
 |
 |
 |
+| 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 is a critical event that makes the disease much harder to treat.
 |-
+| [http://77.48.48.82/jplan/ jplan]
+|
+|
+| &nbsp;
 |
-| Magnetism@home
 |
 |
-| &nbsp;
 |
 |
 |
 |
 |-
-|
+| [https://web.archive.org/http://lhcbathome.cern.ch/Beauty/ Beauty@LHC]
-| HIAST@HOME
 |
 |
@@ Line 2,545: / Line 2,810: @@
 |
 |
-|-
 |
-| DNA@Home
+|
+| Based at CERN and is a project of the LHCb experiment.
+|-
+| [https://web.archive.org/web/20140209200706/http://boinc.biruni.upm.my/putra/ Putra Desktop Grid]
 |
 |
@@ Line 2,555: / Line 2,823: @@
 |
 |
-|-
 |
-| Red Atrapa Sismos (QCN)
 |
+| A research project that uses Internet-connected computers to do research in XXX.
+|-
+| [https://web.archive.org/http://vcsc.cs.uh.edu/virtual-prairie/ Virtual Prairie]
+| [https://linkinghub.elsevier.com/retrieve/pii/S0304380010005557 1]
 |
 | &nbsp;
 |
 |
+|
+| University of Houston
 |
 |
+| Take into account plant vegetative reproduction e.g. the ability of each perennial grass to colonize space through cloning.
 |-
+| [https://web.archive.org/http://boinc.med.usherbrooke.ca/nrg/ Najmanovich Research Group]
+| [https://boinc.berkeley.edu/pubs.php#Najmanovich 3]
 |
-|[http://boinc.umiacs.umd.edu/ The Lattice Project]
+| &nbsp;
 |
 |
-| WinXP, Linux, Mac
 |
 |
 |
 |
+| Research in molecular recognition and computer-aided drug design.
 |-
+| [https://web.archive.org/http://www.sustainablegrid.org/ Sustainable Grid]
 |
-|[http://boinc.fzk.de/poem/ POEM@HOME]
+| 2012-01-11
+| &nbsp;
 |
 |
-| &nbsp;
 |
+| Enterprise Application Development Group at the University of Applied Sciences Zittau/Goerlitz
 |
 |
+| Bundles hardware resources of the university and provides this computational power to the scientists for their research purposes.
+|-
+| [https://web.archive.org/web/20120312215655/http://mamarreis.lsd.ufcg.edu.br/ciencia-em-sua-casa/ Ciência Em Sua Casa]
 |
-|-
 |
-|[http://int-boinctest.int.kit.edu/poem/ POEM@TEST]
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Science in Your Home. Search for Wilson prime numbers and DNA sequencing.
 |-
+| [https://web.archive.org/web/20120705003101/http://donateathome.org/ Donate@Home]
 |
-| Spatiotemporal Quality of Service
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Allows participants to donate towards funding by using their GPU to mine for BitCoins.
 |-
+| [https://web.archive.org/http://edges-local-devbnc-srv.ceta-ciemat.es/student01/ Student01]
 |
-| RieselSieve
+|
+| &nbsp;
 |
 |
-| WinXP
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [https://web.archive.org/http://edges-local-devbnc-srv.ceta-ciemat.es/student02/ Student02]
 |
-| mopac@home
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [http://gf45.mp.tudelft.nl/psdm/ BIoS]
 |
-| Wildlife@Home
 |
 |
-| &nbsp;
 |
 |
 |
+| TU Delft
 |
-|-
 |
-|[http://volpexathome.cs.uh.edu/VolPEx volpex@home]
+|
+|-
+| [https://web.archive.org/http://mishra.lpds.sztaki.hu/edgidemo/ EDGI Demo Project]
 |
 |
@@ Line 2,645: / Line 2,940: @@
 |
 |
+|
+|
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [https://web.archive.org/http://voldemort.cs.cf.ac.uk/attic_proxy/ AtticFS Proxy Application Project on BOINC]
 |
-| MindModeling@Home (Palm)
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| The AtticFS Proxy application acts as a translation layer between HTTP and the AtticFS. This allows BOINC Projects to utilise AtticFS easily.
 |-
+| [https://web.archive.org/web/20130526001435/http://volunteer.cs.und.edu/subset_sum/ SubsetSum@Home]
+| [http://ieeexplore.ieee.org/document/7255176/ 1]
 |
-|[http://mindmodeling.org/beta/ MindModeling@Home (Beta)]
+| &nbsp;
 |
-|
-|&nbsp;
 |
 |
+| Computer Science Department of the University of North Dakota
 |
 |
+| See how far we can extend the empirical evidence of the Subset Sum problem. Find better ways to apply volunteer computing to combinatorial problems.
 |-
+| [https://web.archive.org/web/20100313233251/http://www.nicoschlitter.de/DistributedDataMining distributedDataMining]
 |
-|[http://boinc.almeregrid.nl/ AlmereGrid]
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Research in the various fields of Data Analysis and Machine Learning.
 |-
+| [https://web.archive.org/web/20101201205418/http://dnetc.net/ DNETC@HOME]
+|
 |
-| AlmereGrid TestGrid
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| A wrapper between BOINC and distributed.net.
 |-
+| [https://web.archive.org/http://dg.imp.kiev.ua/slinca/ SLinCA]
 |
-| DBN Upper Bound
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| SLinCA (Scaling Laws in Cluster Aggregation) is involved with research in the field of materials science.
 |-
+| [https://web.archive.org/web/20110803231551/http://mishra.lpds.sztaki.hu:80/szdgr/ SZTAKI Desktop Grid Research Facility]
 |
-| ABC Lattices @Home
 |
+| WinXP-98, Linux, MacOS X
 |
-| &nbsp;
 |
 |
+| Hungarian Academy of Sciences
 |
 |
+| This project is the test & research facility for SZTAKI Desktop Grid.
 |-
+| [https://web.archive.org/web/20081224080150/http://hydrogenathome.org/ Hydrogen@home]
 |
-| AlmereGrid Boinc testGrid
+|
+| [https://web.archive.org/web/20120111114110/http://hydrogenathome.org/apps.php WinXP-98, Linux, MacOS X (Not Intel)]
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Enhance clean energy technology by improving hydrogen production and storage.
 |-
+| [https://web.archive.org/http://convector.fsv.cvut.cz/ convector@home]
+|
 |
-|[http://abcathome.com/ ABC@home]
+| &nbsp;
 |
 |
-| WinXP-98, Linux
 |
 |
 |
 |
+| Calculate global optimum of 52 bar truss.
 |-
+| [https://web.archive.org/web/20070202002920/http://spin.fh-bielefeld.de/ Spinhenge@home]
+| [https://boinc.berkeley.edu/pubs.php#Spinhenge@home 3]
 |
-| ABC@home beta
+| WinXP-98
 |
 |
-| WinXP-98, Linux
+| [https://youtu.be/d-fafmtqE74 view]
-|
 |
 |
 |
+| Support the research of nano-magnetic molecules. In the future these molecules will be used in the local tumor chemotherapy and to develop tiny memory-modules.
 |-
+| [https://web.archive.org/web/20140413155515/http://bealathome.com/ Beal@Home]
 |
-| CPDN Beta
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Beal's conjecture is a conjecture in number theory: where A, B, C, x, y, and z are positive integers with x, y, z > 2, then A, B, and C have a common prime factor. Beal initially offered a prize of US $5,000 in 1997, raising it to US $1,000,000.
 |-
+| [https://web.archive.org/web/20150816053811/http://bealf.pl/bealf BealF@Home]
+|
 |
-|[http://atlasathome.cern.ch/ Atlas@home]
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Part of the Master Thesis: '''''Testing Beal conjecture using supercomputers and distributed computing platform BOINC'''''. The predecessor of the project was ''Beal@Home''.
 |-
+| [https://web.archive.org/http://cbl-link02.cs.technion.ac.il/superlinkattechnion/ Superlink@Technion]
+| [https://boinc.berkeley.edu/pubs.php#Superlink@Technion 4]
 |
-|[http://boincsimap.org/ SIMAP]
+| WinXP-98, Linux
 |
 |
-| WinXP, Linux, Mac OS, Other
 |
 |
 |
 |
+| Helps geneticists all over the world find disease-provoking genes causing some types of diabetes, hypertension (high blood pressure), cancer, schizophrenia and many others.
 |-
+| [https://web.archive.org/web/20110720105948/http://boinc.vanderbilt.edu/bcl/ Biochemical Library]
 |
-|[http://boinc.gorlaeus.net/ Leiden Classical]
+| 2011
+| &nbsp;
 |
 |
-| WinXP-98, Linux, MacOS X (Not Intel)
 |
 |
 |
 |
+| Research in Biochemical Library.
 |-
+| [http://falua.cesfelipesegundo.com/jarifa/ Jarifa]
 |
-|[http://szdg.lpds.sztaki.hu/szdg/ SZTAKI Desktop Grid]
-|2005-05-26
 |
-| WinXP-98, Linux, MacOS X (Not Intel), Solaris
+| &nbsp;
 |
 |
-|Multiple Applications
-|The SZTAKI Desktop Grid and its applications are partly supported by the DEGISCO and the EDGI projects. The work leading to these results has received funding from the '''European Union Seventh Framework Programme''' (FP7/2007-2013) under grant agreements n° RI-261561 and n° RI-261556. The experts of the [https://web.archive.org/web/20130805152458/http://desktopgridfederation.org/ International Desktop Grid Federation] provide further support for the SZTAKI Desktop Grid infrastructure, its applications, and its integration into the DEGISCO infrastructure.
-|-
 |
-|[http://orbit.psi.edu/oah/ Orbit@home]
 |
 |
-| Linux
 |
 |
+|-
+| [https://web.archive.org/http://netmax.isa.ru/netmax/ NetMax@home]
 |
 |
-|-
+| &nbsp;
 |
-|[http://pogs.theskynet.org/pogs/ SkyNet POGS]
 |
 |
-| &nbsp;
 |
 |
 |
+| Research in dynamic routing at telecommunication networks.
+|-
+| [https://web.archive.org/web/20140804215459/http://gilda117.ihep.ac.cn/ATLAS/ Replace With Project Name]
 |
-|-
 |
-|[https://sourcefinder.theskynet.org/duchamp/ SkyNet Sourcefinder]
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| https://web.archive.org/web/20140903030559/http://gilda117.ihep.ac.cn/ATLAS
 |-
-|
+| [http://cvmathome.cern.ch/test4theory/ LHC+@Home]
-| Nickeycat
 |
 |
@@ Line 2,825: / Line 3,161: @@
 |
 |
-|-
 |
-| XANSONS for COD
 |
 |
-| &nbsp;
+|-
+| [http://isaac.ssl.berkeley.edu/test2/ Replace With Project Name]
 |
 |
+| &nbsp;
 |
 |
-|-
-|
-|[http://aerospaceresearch.net/constellation/ Constellation]
-|
-|
-| &nbsp;
 |
 |
 |
 |
+| http://isaac.ssl.berkeley.edu/test2/
 |-
+| [https://web.archive.org/http://boinc.fiit.stuba.sk/ BOINC@Fiit]
 |
-|[http://www.acousticsathome.ru/boinc/ Acoustics@home]
 |
+| &nbsp;
 |
-| &nbsp;
 |
 |
+| Slovak University of Technology, Bratislava
 |
 |
+| TBA.
 |-
-|
+| [https://web.archive.org/https://v8boinc.fer.hr/v8boinc/ v8boinc]
-|[http://boinc.drugdiscoveryathome.com/ Drug Discovery@home]
 |
 |
@@ Line 2,865: / Line 3,200: @@
 |
 |
-|-
 |
-|[http://sat.isa.ru/pdsat/ SAT@home]
 |
 |
-| &nbsp;
+|-
+| [https://web.archive.org/web/20101203122655/http://glife.is-a-geek.org:80/ga/view_profile.php?userid=120 GA@home]
 |
 |
+| &nbsp;
 |
 |
-|-
 |
-|[https://www.dhep.ga/boinc/ dhep]
 |
 |
-| &nbsp;
 |
 |
+|-
+| [https://web.archive.org/web/20101109123610/http://www.luxrenderfarm.de/luxfarm Luxrenderfarm@home]
 |
 |
-|-
+| &nbsp;
 |
-|[http://uspex-at-home.ru/prediction/ uspex@home]
 |
-|
-| &nbsp;
 |
 |
 |
 |
+| Renderfarm for Luxrender.net.
 |-
+| [https://web.archive.org/web/20130819173713/http://sudoku.nctu.edu.tw/joomla/ sudoku@vtaiwan]
 |
-| SETI@CAMRAS
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Develop new techniques and use them to modify the program [https://web.archive.org/web/20130819173713/http://www.math.ie/checker.html Checker] (written by Gary McGuire).
 |-
+| [https://web.archive.org/http://poseidon.shacknet.nu:8080/MilestoneRSA/ MilestoneRSA]
 |
-| [http://cpu.goofyxgridathome.net/ GoofyxGrid@Home CPU]
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Break a 1024 bit RSA key used by Motorola to sign the boot and recovery partitions on the Motorola Milestone.
 |-
-|[https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/ZGVjMDlhNDAtZWIzNi00NjI5LTk2ZWEtY2ZiYWVmOGRlZTJm Listen]
+| [https://web.archive.org/http://boinc01.uoc.edu/ILS-ESP-2014/ ILS-ESP-2014]
-| [http://nci.goofyxgridathome.net/ GoofyxGrid@Home NCI]
 |
 |
@@ Line 2,925: / Line 3,265: @@
 |
 |
+|
+|
+| Research for solving the permutation FLOW-SHOP problem.
 |-
-|
+| [https://web.archive.org/http://wordcompatibility.com/words_compatibility/ Russian Words Compatibility]
-|[http://usproteins-at-home.ru/usproteins/ usproteins@home]
 |
 |
@@ Line 2,935: / Line 3,278: @@
 |
 |
-|-
 |
-|[http://qmcathome.org/ QMC@home]
+|
+| Research in Russian computational linguistics.
+|-
+| [https://web.archive.org/web/20110816010257/http://falua.cesfelipesegundo.com/Neurona/ Neurona@Home]
+| [https://boinc.berkeley.edu/pubs.php#Neurona@Home 2]
+|
+| &nbsp;
 |
 |
-| Windows, Linux
 |
 |
 |
 |
+| Simulating the behavior of a large assembly of cellular automata neurons connected in a complex network.
 |-
+| [https://web.archive.org/http://boinc.isa.ru/dcsdg/ OPTIMA@HOME]
+|
 |
-| [http://physiome.lf1.cuni.cz/ident3/physiome/ Physiome@home]
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Solve challenging large-scale optimization problems.
 |-
+| [https://web.archive.org/web/20130525113734/http://svahesrv2.bioquant.uni-heidelberg.de/correlizer/ Correlizer]
+| [https://boinc.berkeley.edu/pubs.php#Correlizer 5]
 |
-|[http://casathome.ihep.ac.cn/ CAS@home]
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Revealing the mysteries of genome organization.
 |-
+| [https://web.archive.org/web/20120825055512/http://vbridge.twgrid.org/asgcdg/ Taiwan Desktop Grid]
+|
 |
-|[http://boinc.scienterprise.cn/ scienterprise]
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| Support the drug discovery, earthquake simulation and climate change applications developing in Asia and also to support the applications developed by IDGF.
 |-
-|
+| [https://web.archive.org/web/20110214000708/http://androinc.net:80/ AndrOINC]
-|[https://brainstormhome.org/ Brainstorm@home]
 |
 |
@@ Line 2,985: / Line 3,343: @@
 |
 |
-|-
 |
-| beef@home
 |
+| To break a 1024 bit RSA key used by Motorola to sign the boot and recovery partitions on the Motorola Milestone.
+|-
+| [https://web.archive.org/web/20141216004540/http://findah.ucd.ie/ FiND@Home]
 |
+| 2012-07-20
 | &nbsp;
 |
 |
+|
+| Dr Anthony Chubb
 |
 |
+| A research project that uses donated CPU time to perform docking simulations on malaria proteins.
 |-
+| [https://web.archive.org/web/20140514143657/http://www.primaboinca.com/ Primaboinca]
 |
-| Citizen Science Grid
+|
+| &nbsp;
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| This project concerns itself with two hypotheses in number theory: Agrawal's Conjecture (the basis for the AKS algorithm) and Popovych's conjecture, which adds a further condition and could reduce the time of a deterministic prime test from O(log N)^6 to O(log N)^3.
 |-
+| [https://web.archive.org/web/20060723185510/http://attribution.cpdn.org/ Seasonal Attribution Project]
+|
 |
-|[https://www.kryptosathome.com/ Kryptos@Home]
+| WinXP, Linux
 |
 |
-| &nbsp;
 |
 |
 |
 |
+| By comparing the results of climate simulations, half of which will include the effects of human-induced climate change, and half of which will not, we will investigate the possible impact of human activity on extreme weather risk.
 |-
+| [https://web.archive.org/http://shasta.chem.uh.edu/SolarAtHome/ Solar@home]
 |
-|[https://web.archive.org/http://boinc-dev.tacc.utexas.edu/boincserver/ BOINC@TACC dev]
 |
+| &nbsp;
 |
-|&nbsp;
 |
-|[[Texas Advanced Computing Center]]
-|[[Software testing]]
-|Test project for [https://boinc.tacc.utexas.edu/ BOINC@TACC]
-|-
 |
-|[https://boinc.berkeley.edu/test/ BOINC Test project]
 |
-|2007-07-24
-|&nbsp;
 |
-|[[University of California, Berkeley]]
+|
-|[[Software testing]]
+| Make more efficient solar cells.
-|A test project for BOINC development
 |-
+| [https://web.archive.org/web/20080828221836/http://kinetic.dnsalias.org/magnetism/ Magnetism@home]
+|
+|
+| &nbsp;
+|
+|
+|
 |
-| [[MindModeling@Home]]
 |
-| 2007-03-17
-|&nbsp;
 |
-| [[University of Dayton Research Institute]] and [[Wright State University]]
+| Explore the equilibrium, metastable and transient magnetization patterns in nano-scale magnetic elements and their arrays.
-| [[Cognitive science]]
-| Builds [[cognitive model]]s of the human mind
 |-
+| [https://web.archive.org/http://desktopgrid.hiast.edu.sy/hiastdg/ HIAST@HOME]
 |
-|[https://www.vdwnumbers.org/vdwnumbers/ Van Der Waerden Numbers]
+| 2013
+| &nbsp;
 |
-|2021-02-02
-|&nbsp;
 |
-|Daniel Monroe
+|
-|[[Mathematics]]
+|
-|Van Der Waerden Numbers is a research project that uses Internet-connected computers to find better lower bounds for these numbers. Another mirror URL for this project: http://www.123numbers.org/
+|
+|
+| A research project that uses Internet-connected computers to do research in XXX.
 |-
+| [https://web.archive.org/web/20140316201231/http://volunteer.cs.und.edu:80/dna/ DNA@Home]
+| [https://boinc.berkeley.edu/pubs.php#DNA@Home 2]
+|
+| &nbsp;
+|
+|
+|
 |
-| [http://burp.renderfarming.net/ Big and Ugly Rendering Project (BURP)]
 |
 |
-| Windows, Linux, Mac OS
+| Discover what regulates the genes in DNA.
+|-
+| [https://web.archive.org/web/20120130113228/http://boinc.umiacs.umd.edu/ The Lattice Project]
+| [https://boinc.berkeley.edu/pubs.php#The 16]
 |
+| WinXP, Linux, Mac
 |
 |
 |
+| University of Maryland
+| Multiple applications
+|
+| Run legacy science applications: Phylogenetic Analysis (GARLI), Protein Sequence Comparison (HMMPfam), Conservation Reserve Network Design (MARXAN).
 |-
+| [https://web.archive.org/http://boinc.fzk.de/poem/ POEM@HOME]
+| [https://boinc.berkeley.edu/pubs.php#POEM@HOME 5]
+|
+| &nbsp;
+|
+|
+|
 |
-|[https://web.archive.org/web/20220711171713/https://boinc.tacc.utexas.edu/ BOINC@TACC]
 |
 |
+| Protein structure prediction has been complemented by other nanoscale molecule simulations. Within the scope of polymer crystallography we are researching conformations of organic hydrocarbons.
+|-
+| [http://int-boinctest.int.kit.edu/poem/ POEM@TEST]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Test project for POEM@HOME.
+|-
+| [https://web.archive.org/http://199.26.254.190/qos/ Spatiotemporal Quality of Service (QoS)]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Perform distributed web service evaluation so that more accurate service quality information can be delivered to end users.
+|-
+| [https://web.archive.org/web/20070128212119/http://boinc.rieselsieve.com/ RieselSieve]
+|
+|
+| WinXP
+|
+|
+|
+|
+| Mathematics
+|
+| k+2n-1 problem, eventually merged with PrimeGrid.
+|-
+| [https://web.archive.org/web/20130806073759/http://mopac.cadaster.eu/ mopac@home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+| Chemistry
+|
+| Research in quantum chemistry.
+|-
+| [https://web.archive.org/web/20140419190153/http://volunteer.cs.und.edu/wildlife/ Wildlife@Home]
+|
+|
+| &nbsp;
+|
+|
+|
+| University of North Dakota
+|
+|
+| Analyze video gathered from various cameras recording wildlife.
+|-
+| [https://web.archive.org/web/20160120043345/http://volpexathome.cs.uh.edu/VolPEx/ Volpex@Home]
+| [https://boinc.berkeley.edu/pubs.php#Volpex@Home 9]
+|
+| &nbsp;
+|
+|
+|
+| University of Houston
+|
+|
+| Research in creating effective parallel computing on multiple volatile nodes.
+|-
+| [https://web.archive.org/http://mindmodeling.org/palm_project/ MindModeling@Home (Palm)]
+|
+|
+| &nbsp;
+|
+|
+|
+| University of Dayton Research Institute and Wright State University
+|
+|
+| Test project for MindModeling@Home.
+|-
+| [https://web.archive.org/web/20080805160334/http://mindmodeling.org:80/beta/ MindModeling@Home (Beta)]
+|
+|
+| &nbsp;
+|
+|
+| [https://youtu.be/3aJmm60Wgl8 view]
+| University of Dayton Research Institute and Wright State University
+|
+|
+| Test project for MindModeling@Home.
+|-
+| [https://web.archive.org/web/20120215132304/http://boinc.almeregrid.nl/ AlmereGrid]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://web.archive.org/web/20090422205514/http://server1.almeregrid.nl/testgrid/ AlmereGrid TestGrid]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Test Grid of AlmereGrid.
+|-
+| [https://web.archive.org/http://server5.almeregrid.nl/almeregrid/ AlmereGrid Boinc testGrid]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| No independent verification that this was a BOINC project.
+|-
+| [https://web.archive.org/web/20181204215217/http://anthgrid.com/dbnupperbound/ DBN Upper Bound]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Polymath project related to the theory of the Riemann zeta function.
+|-
+| [https://web.archive.org/web/20130331200159/http://abcathome.com/ ABC@home]
+| [https://arxiv.org/abs/1409.2974 1]
+|
+| WinXP-98, Linux
+|
+|
+|
+|
+|
+|
+| An educational and non-profit volunteer computing project finding abc-triples related to the ABC conjecture.
+|-
+| [https://web.archive.org/web/20070206065801/http://abcathome.com/beta/ ABC@home beta]
+|
+|
+| WinXP-98, Linux
+|
+|
+|
+|
+|
+|
+| Test project for ABC@home.
+|-
+| [https://web.archive.org/http://boinc2.cs.hs-rm.de/abclll/ ABC Lattices @Home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Searching for good abc-triples. Unlike ABC@Home, this project is not aiming for a thorough search of a certain range of numbers. Instead, we are trying to find good triples with the help of a specialized algorithm in areas beyond 2^100.
+|-
+| [https://web.archive.org/web/20080801101300/http://cpdnbeta.oerc.ox.ac.uk/ CPDN Beta]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Test project for climate''prediction''.net.
+|-
+| [https://web.archive.org/web/20140703145955/http://atlasathome.cern.ch/ Atlas@home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| A research project that uses volunteer computing to run simulations of the ATLAS experiment at CERN.
+|-
+| [https://web.archive.org/web/20130302044909/http://boincsimap.org/boincsimap/ SIMAP]
+| [https://boinc.berkeley.edu/pubs.php#SIMAP 5]
+|
+| WinXP, Linux, Mac OS, Other
+|
+|
+|
+|
+|
+|
+| Many computational methods in biology and medicine are based on protein sequence analysis, e.g. to predict the function and structure of genes and proteins. SIMAP facilitates these methods by providing pre-calculated protein similarities and protein domains.
+|-
+| [https://web.archive.org/web/20120214044716/http://boinc.gorlaeus.net/ Leiden Classical]
+| [https://boinc.berkeley.edu/pubs.php#Leiden 2]
+|
+| WinXP-98, Linux, MacOS X (Not Intel)
+|
+|
+| [https://youtu.be/co2SkwsvyOk view] and [https://youtu.be/ECAQC1mzMiM view]
+|
+|
+|
+| Dedicated to general Classical Dynamics for any scientist or science student.
+|-
+| [https://web.archive.org/web/20171217033707/http://szdg.lpds.sztaki.hu/szdg/ SZTAKI Desktop Grid]
+| [https://boinc.berkeley.edu/pubs.php#SZTAKI 5]
+| 2005-05-26
+| WinXP-98, Linux, MacOS X (Not Intel), Solaris
+|
+|
+|
+|
+| Multiple Applications
+|
+| The SZTAKI Desktop Grid and its applications are partly supported by the DEGISCO and the EDGI projects. The work leading to these results has received funding from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreements n° RI-261561 and n° RI-261556.
+|-
+| [https://web.archive.org/web/20080926101459/http://orbit.psi.edu/oah/ Orbit@home]
+| [https://www.sciencedirect.com/science/article/abs/pii/S0019103516300914 1]
+|
+| Windows, Linux
+|
+|
+|
+|
+|
+|
+| Produce an optimized search strategy for dedicated astronomical surveys to search for near-Earth asteroids.
+|-
+| [https://web.archive.org/web/20130725025029/http://pogs.theskynet.org/pogs/ theSkyNet POGS]
+| [https://boinc.berkeley.edu/pubs.php#TheSkyNet 3]
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Research in astronomy. Combine the spectral coverage of GALEX, Pan-STARRS1, and WISE to generate a multi-wavelength UV-optical-NIR galaxy atlas for the nearby Universe.
+|-
+| [https://web.archive.org/web/20180205194455/https://sourcefinder.theskynet.org/duchamp/ theSkyNet Sourcefinder]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Provide a means to test the effectiveness of various astronomical sourcefinding applications.
+|-
+| [https://nickeycat.net/nic/ Nickeycat]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| No independent verification that this was a BOINC project.
+|-
+| [https://web.archive.org/http://xansons4cod.com/xansons4cod/ XANSONS for COD]
+| [https://boinc.berkeley.edu/pubs.php#XANSONS 2]
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Create an open access database of simulated x-ray and neutron powder diffraction patterns for nanocrystalline phase of the materials presented in the '''Crystallography Open Database (COD)'''.
+|-
+| [https://web.archive.org/http://aerospaceresearch.net/constellation/ Constellation]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Research in various aerospace related sciences and engineering.
+|-
+| [https://web.archive.org/web/20190401042546/http://www.acousticsathome.ru/boinc/ Acoustics@home]
+| [https://boinc.berkeley.edu/pubs.php#Acoustics@home 2]
+|
+| &nbsp;
+|
+|
+|
+| Matrosov Institute for System Dynamics and Control Theory of SB RAS
+|
+|
+| Solving inverse problems in underwater acoustics.
+|-
+| [https://web.archive.org/web/20100427212604/http://boinc.drugdiscoveryathome.com/ Drug Discovery@home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Model the behavior of leading compounds that could be developed into new medicines.
+|-
+| [https://web.archive.org/http://sat.isa.ru/pdsat/ SAT@home]
+| [https://boinc.berkeley.edu/pubs.php#SAT@home 8]
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Solve hard and practically important problems (discrete functions inversion problems, discrete optimization, bioinformatics, etc) that can be effectively reduced to Boolean satisfiability problem.
+|-
+| [https://web.archive.org/web/20190606103241/https://www.dhep.ga/boinc/ Distributed Hardware Evolution Project]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Host an island running a population based metaheuristic stochastic optimisation algorithm in a coevolutionary setting synthesising future super-reliable electronics such as those used in autonomous vehicles, power stations, medical equipment, aerospace.
+|-
+| [https://charon.camras.nl/setiatcamras/ SETI@CAMRAS]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://web.archive.org/web/20180927092346/http://cpu.goofyxgridathome.net/ GoofyxGrid@Home CPU]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://web.archive.org/http://usproteins-at-home.ru/usproteins/ usproteins@home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://web.archive.org/web/20131022042932/http://qmcathome.org/ QMC@home]
+| [https://boinc.berkeley.edu/pubs.php#QMC@Home 7]
+|
+| Windows, Linux
+|
+|
+| [https://youtu.be/fNWUs9jRwSY view]
+|
+| Multiple applications
+|
+| Quantum-mechanical computations on medically relevant biomolecular systems, to help with developing quantum-mechanics-based approaches for computational drug design; and finding safer and greener materials for e-vehicle batteries.
+|-
+| [http://physiome.lf1.cuni.cz/ident3/physiome/ Physiome@home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Research in human physiology.
+|-
+| [https://web.archive.org/http://casathome.ihep.ac.cn/ CAS@home]
+|
+|
+| &nbsp;
+|
+|
+| [https://youtu.be/e-DUArD38Pw view]
+| Chinese Academy of Sciences
+|
+|
+| The main application is the TreeThreader which predicts protein structure.
+|-
+| [https://web.archive.org/web/20210417203758/http://boinc.scienterprise.cn/ scienterprise]
+|
+| 2020
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Enterprises own a lot of idle computing resources in their private cloud, while research projects are restricted by limited computing power. This project aims to decrease this imbalance by building CloudTides, an elastic platform on idle cloud resources.
+|-
+| [http://vath.xicp.cn/test/ volunteer@home]
+|
+| 2021
+|
+|
+|
+| [https://youtu.be/a4nO8ki2qR4 view]
+|
+|
+|
+| Very small test project, no information.
+|-
+| [https://web.archive.org/web/20191018200437/http://brainstormhome.org/ Brainstorm@home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Investigate the molecular basis of brain-related diseases.
+|-
+| [http://hayes.nodium.net:8000/boincserver/ beef@home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Proof of concept temporary test project.
+|-
+| [https://web.archive.org/web/20170509144906/https://csgrid.org/csg/ Citizen Science Grid]
+|
+|
+| &nbsp;
+|
+|
+|
+| UND's Computational Research Center and Information Technology Systems and Services
+| Multiple applications
+|
+| A wide range of research and educational projects using volunteer computing and citizen science, including DNA@Home, SubsetSum@Home, Climate Tweets, and Wildlife@Home.
+|-
+| [https://web.archive.org/web/20210125080541/https://www.kryptosathome.com/ Kryptos@Home]
+|
+|
+| &nbsp;
+|
+|
+|
+|
+|
+|
+| Solving one of the most famous unsolved puzzles - the three-decade old Kryptos sculpture located on the grounds of the Central Intelligence Agency.
+|-
+| [https://web.archive.org/web/20200421212107/https://mindmodeling.org/ MindModeling@Home]
+| [https://boinc.berkeley.edu/wiki/Publications_by_BOINC_projects#MindModeling.40Home 6]
+| 2007-03-17
+| &nbsp;
+|
+|
+| [https://youtu.be/3aJmm60Wgl8 view]
+| University of Dayton Research Institute and Wright State University
+| Cognitive science
+|
+| Computational cognitive process modeling to better understand the human mind.
+|-
+| [https://web.archive.org/web/20210225002054/http://www.vdwnumbers.org/vdwnumbers/ Van Der Waerden Numbers]
+| [https://arxiv.org/abs/1603.03301 1]
+| 2021-02-02
+| &nbsp;
+|
+|
+|
+| Daniel Monroe
+| Mathematics
+|
+| Van Der Waerden Numbers is a research project that uses Internet-connected computers to find better lower bounds for these numbers. Static mirror for this project: https://www.123numbers.org/
+|-
+| [http://burp.renderfarming.net/ Big and Ugly Rendering Project (BURP)]
+| [https://boinc.berkeley.edu/pubs.php#Big 2]
+|
+| Windows, Linux, Mac OS
+|
+|
+|
+|
+|
+|
+| Render animated videos including [http://bbb3d.renderfarming.net/download.html Big Buck Bunny].
+|-
+| [https://boinc.berkeley.edu/test/ BOINC Test project]
+|
+| 2007-07-24
+| &nbsp;
+|
+|
+| [https://youtu.be/e-DUArD38Pw view]
+| University of California, Berkeley
+| Software testing
+|
+| A test project for BOINC development.
+|-
+| [https://web.archive.org/web/20220711171713/https://boinc.tacc.utexas.edu/ BOINC@TACC]
+| [https://boinc.berkeley.edu/pubs.php#BOINC@TACC 3]
+|
+|
+|
+|
+|
+| Texas Advanced Computing Center
+| Multiple applications
+|
+| Aerospace engineering, computational biology, and earthquake engineering.
+|-
+| [https://web.archive.org/http://boinc-dev.tacc.utexas.edu/boincserver/ BOINC@TACC dev]
+|
+|
+| &nbsp;
+|
+|
+|
+| Texas Advanced Computing Center
+| Software testing
+|
+| Test project for BOINC@TACC.
+|-
+| [https://www.mlcathome.org/mlcathome/ MLC@Home]
+| [https://doi.org/10.48550/arXiv.2104.10555 1]
+| 2020-06-30 / 2022-08-02
+| [https://www.mlcathome.org/mlcathome/apps.php Windows, Linux, ARM]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+|
+| University of Maryland, Baltimore County
+| Cognitive science
+| [https://podcasts.apple.com/us/podcast/mlc-home/id1492837872?i=1000499605038 Listen]
+| Understanding and interpreting complex machine learning models.
+|-
+| [https://boinc.tbrada.eu/ T.Brada Experimental Grid]
+|
+| 2019-02-03 / 2022-12-24
+|
+| {{No}}
+| {{No}}
+|
+| Independent
+| Mathematics
+|
+| The PADLS Total subproject aims to find new pseudo-associative DLS.
+|-
+| [https://quchempedia.univ-angers.fr/athome/ QuChemPedIA@home]
+| [https://boinc.berkeley.edu/pubs.php#QuChemPedIA@home 4]
+| 2019-07-01 / 2022-09-29
+| [https://quchempedia.univ-angers.fr/athome/apps.php Windows, Linux, MacOS]
+| {{No}}
+| style="vertical-align:center;text-align:center; background: olive; color: black;" | Vbox only
+|
+| Université Angers
+| Molecular Chemistry
+| [https://podcasts.apple.com/us/podcast/quchempedia/id1492837872?i=1000484760287 Listen]
+| Help chemical researchers around the world by building a unique collection of results and also help our AIs to propose much more new targets for the different applications we are addressing than we could do on our own.
+|-
+| [https://boinc.thesonntags.com/collatz/ Collatz Conjecture]
+| [https://link.springer.com/article/10.1007/s11227-020-03368-x 1]
+| 2009-01-06
+| [https://boinc.thesonntags.com/collatz/apps.php Windows, Linux, MacOS]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+|
+| Independent
+| Mathematics
+|
+| Study the Collatz conjecture, an unsolved conjecture in mathematics.
+|-
+| [http://www.cosmologyathome.org/ Cosmology@Home]
+| [https://boinc.berkeley.edu/pubs.php#Cosmology@Home 5]
+| 2007-06-26 / 2024-01-10
+| [http://www.cosmologyathome.org/apps.php Windows, Linux, MacOS, Android]
+| {{No}}
+| {{Yes}}, Both
+|
+| Institut d'Astrophysique de Paris
+| Astronomy
+| [https://podcasts.apple.com/us/podcast/comology-home/id1492837872?i=1000521601975 Listen]
+| Find the most accurate models that best describe the universe.
+|-
+| [https://web.archive.org/web/20240118183120/http://bearnol.is-a-geek.com/wanless2/ WEP-M+2 Project]
+|
+| 2006-05-12 / 2024-01-18
+| [https://web.archive.org/web/20231126215917/http://bearnol.is-a-geek.com/wanless2/apps.php Linux, macOS]
+| {{No}}
+| {{No}}
+|
+| James Wanless, London, England
+| Mathematics
+| [https://www.youtube.com/live/9QexlknOdb0?feature=share Watch]
+| Factorization of Mersenneplustwo numbers. [[WEP-M+2 Project|See more...]]
+|-
+| [https://boinc.nanohub.org/nanoHUB_at_home/ nanoHUB@Home]
+|
+| 2012-07-26
+| [https://boinc.nanohub.org/nanoHUB_at_home/apps.php Windows, Linux, MacOS]
+| {{No}}
+| style="vertical-align:center;text-align:center; background: olive; color: black;" | Vbox only
+|
+| Purdue University
+| Nanotechnology
+| [https://podcasts.apple.com/us/podcast/nanohub/id1492837872?i=1000488157528 Listen]
+| Research in nanoscience and nanotechnology. [[NanoHUB@Home|See more...]]
+|-
+| [http://link.springer.com/10.1007/978-3-540-30208-7_91 Unknown project]
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|-
+| [http://ieeexplore.ieee.org/document/1488682/ Unknown project]
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://pubs.acs.org/doi/10.1021/jp806269w boinc@duq]
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://www.comsol.com/paper/comsolgrid-a-framework-for-performing-large-scale-parameter-studies-using-comsol-8288 ComsolGrid]
+| [https://boinc.berkeley.edu/pubs.php#ComsolGrid 1]
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://boinc.berkeley.edu/pubs.php#BOINC-MR BOINC-MR]
+| [https://boinc.berkeley.edu/pubs.php#BOINC-MR 2]
+|
+|
+|
+|
+|
+|
+|
+|
+|
+|-
+| [https://frostydata.com/0Kdata Data freezer]
+|
+| 2024-06-11
+| [https://frostydata.com/0Kdata/apps.php Linux]
+| {{No}}
+| {{No}}
+|
+| Independent
+| Storage
+|
+| Build a data warehouse on consumer hardware. [[Data freezer|See more...]]
+|-
+| [https://albertathome.org/ Albert@Home]
+|
+| 2011-12-23
+| [https://albertathome.org/apps.php Windows, Linux, MacOS, Android]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+|
+| University of Wisconsin–Milwaukee, Max Planck Institute
+| Software testing
+|
+| Test project for [[Einstein@Home]]. [[Albert@Home|See more...]]
+|-
+| [https://sech.me/boinc/Amicable/ Amicable Numbers]
+|
+| 2017-01-05
+| [https://sech.me/boinc/Amicable/apps.php Windows, Linux, ARM, MacOS]
+| style="vertical-align:center;text-align:center; background: yellow; color: black;" | GPU CPU
+| {{No}}
+|
+| Independent
+| Mathematics
+| [https://podcasts.apple.com/us/podcast/boinc-radio-project-brief-amicable-numbers/id1492837872?i=1000581365935 Listen]
+| Amicable numbers are pairs where the sum of the proper divisors of each is equal to the other number. The goal of this project is to collect all amicable numbers up to a very large limit. [[Amicable Numbers|See more...]]
+|-
+| [https://blackholesathome.net/ BlackHoles@Home]
+|
+| {{No}}t yet
+|
+|
+|
+|
+| University of Idaho
+| Astrophysics
+| [https://podcasts.apple.com/us/podcast/boinc-radio-project-brief-blackholes-home/id1492837872?i=1000575215408 Listen]
+| Black hole collision simulations to maximize the science gained from gravitational wave observations. [[BlackHoles@Home|See more...]]
+|-
+| [https://team.dodoathome.com/dodo/ dodo@home]
+|
+| 2024-11-07
+| [https://team.dodoathome.com/dodo/apps.php Windows, Linux, MacOS]
+| {{No}}
+| {{No}}
+|
+| Independent
+|
+|
+| We will bring the Dodo back from extinction (well, we will give it a damn good try!). [[Dodo@home|See more...]]
+|-
+| [https://nci.boinc.goofyx.pl/ goofyxGrid@Home NCI]
+|
+| 1) [https://web.archive.org/web/20191023104620/http://nci.goofyxgridathome.net:80/ 2015-11-09] / 2) 2024-06-20
+| [https://nci.boinc.goofyx.pl/apps.php Windows, Linux]
+| {{No}}
+| {{No}}
+|
+| Independent
+|
+| [https://podcasts.apple.com/us/podcast/goofyxgrid/id1492837872?i=1000490909639 Listen]
+| To simulate the infinite monkey theorem which states that a monkey hitting keys at random on a typewriter keyboard for an infinite amount of time will almost surely type any given text, including the complete works of William Shakespeare. [[GoofyxGrid@Home NCI|See more...]]
+|-
+| [http://boinc.llmentor.org/LLMentorGrid/ LLMentorGrid]
+|
+| 2025-01-22
+| [http://boinc.llmentor.org/LLMentorGrid/apps.php Linux]
+|
+|
+|
+| Independent
+|
+|
+|
+|-
+| [http://parlea.ru/boinctest/ Parlea]
+|
+| 2022-12
+| [http://parlea.ru/boinctest/apps.php Windows, Android]
+| {{No}}
+| {{No}}
+|
+|
+| Mathematics
+|
+| Investigate the efficiency and behavior of mobile devices as computing nodes on the BOINC platform for solving the Orthogonal Diagonal Latin Squares (ODLS) search problem. [[Parlea|See more...]]
+|-
+| [https://ralph.bakerlab.org/ RALPH@home]
+|
+| 2006-02-15
+| [https://ralph.bakerlab.org/apps.php Windows, Linux, ARM, macOS, Android]
+| {{No}}
+| {{Yes}}, Both
+| [https://youtu.be/W9fC5lv76T0 view]
+| University of Washington
+| Software testing
+|
+| Test project for [[Rosetta@home]]. [[RALPH@home|See more...]]
+|-
+| RNA World (computing project) | [https://www.rnaworld.de/rnaworld/ RNA World (beta)]
+| [https://boinc.berkeley.edu/pubs.php#RNA 5]
+| 2009-05-21
+| [https://www.rnaworld.de/rnaworld/apps.php Windows, Linux, MacOS]
+| {{No}}
+| style="vertical-align:center;text-align:center; background: olive; color: black;" | Vbox only
+| [https://youtu.be/GHJ4KBdwVew view]
+| Independent research group in Marburg, Germany
+| Molecular biology
+| [https://podcasts.apple.com/us/podcast/rnaworld/id1492837872?i=1000496594043 Listen]
+| Uses bioinformatics software to study RNA structure. [[RNA World (beta)|See more...]]
+|-
+| [https://boinc.termit.me/adsl/ SPT@home]
+|
+| 2023-06-14
+| [https://boinc.termit.me/adsl/ Windows, Linux]
+| {{No}}
+| {{No}}
+|
+|
+| Mathematics
+|
+| The Symmetric Prime Tuples (SPT) project is a continuation of the T. Brada Experimental Grid project. [[SPT|See more...]]
+|-
+| [https://universeathome.pl/universe/ Universe@Home]
+| [https://boinc.berkeley.edu/wiki/Publications_by_BOINC_projects#Universe.40home 14]
+| 2015-02-19
+| [https://universeathome.pl/universe/apps.php Windows, Linux, ARM]
+| {{No}}
+| {{No}}
 |
+| Nicolaus Copernicus Astronomical Center of the Polish Academy of Sciences
+| Astronomy
 |
-|[[Texas Advanced Computing Center]]
+| Computational astrophysics, computer simulation of stars, galaxies and the Universe. [[Universe@Home|See more...]]
-|Multiple applications
-|Aerospace engineering, computational biology, and earthquake engineering
 |}