List of distributed computing projects

This is a list of distributed computing and grid computing projects. For each project, donors volunteer computing time from personal computers to a specific cause. This donated computing power comes typically from CPUs and GPUs. Folding@home once also harnessed the power of PlayStation 3s.[1] Each project seeks to solve a problem which is difficult or infeasible to tackle using other methods.

Distributed computing projects

Active projects

Project Launched Home Category Research focus BOINC based Active processing units Performance in TeraFLOPS
Albert@home University of Wisconsin–Milwaukee, Max Planck Institute[2] Astrophysics Testing project for Einstein@home[2] Yes 773 (Jan 2016)[3] 6.980 (Jan 2016)[3]
Asteroids@home 2012-06-20 [4] Charles University in Prague, Czech Astrophysics To significantly enlarge our knowledge of the physical properties of asteroids[5] Yes 21,093 (Jan 2016) 220.189 (Jan 2016)[6]
ATLAS@Home 2014-06-19[7] CERN[8] Physics ATLAS@Home is a research project that uses volunteer computing to run simulations of the ATLAS experiment at CERN.[7] Yes 2,146 (Nov 2015) 2.783 (Nov 2015)[9]
BURP 2004-06-17[10] Art Rendering of 3D animations[11] Yes 516 (Nov 2015) 0.780 (Nov 2015)[12]
CAS@home 2010-01[13] Chinese Academy of Sciences[8] Physics, biochemistry, and others Encourage Chinese scientists to use volunteer computing for their research[13] Yes 1,749 (Nov 2015) 0.890 (Nov 2015)[14]
Climate Prediction 2003-12-09[15] Oxford University[8] Climate study Analyse ways to improve climate prediction models[16] Yes 13,911 (Jan 2016)[17] 25.399 (Jan 2016)[18]
Collatz Conjecture 2009-01-06[19] Private[8] Mathematics Study the Collatz conjecture, an unsolved conjecture in mathematics[20] Yes 26,572 (Nov 2015) 2,344.149 (Nov 2015)[21]
Comcute 2010 Gdańsk University of Technology, Faculty of Electronics, Telecommunications and Informatics Mathematics, Artificial intelligence, Physics Genetic positioning of fire stations,[22] image processing techniques,[23] Mersenne-number finding,[24] and distributed detection of selected features in data streams No
Compute for Humanity 2015-08[25] Private[25] Cryptocurrencies, Charitable Organizations Generating cryptocurrencies to sell for money to be donated to charities. No 25 (Oct 2015)[26]
Cosmology@Home University of Illinois at Urbana-Champaign[27] Astronomy Find the most accurate models that best describe the universe[27] Yes 7,370 (Nov 2015) 12.119 (Nov 2015)[28]
DENIS@Home 2015-04-08 San Jorge University[29] Medicine and Biology Research in Cardiac Electrophysiology[30] Yes 46.517 (Nov 2015)[31]
DistributedDataMining 2010-02-mid[32][33] Data analysis, machine learning Research in the various fields of data analysis and machine learning, such as stock market prediction and analysis of medical data[34] Yes 1,358 (Jan 2016)[35] 5.186 (Jan 2016)[36]
Distributed.net 1997-01-28[37] Private[38] Cryptography, Mathematics Crack the RC5-72 cipher, find optimal Golomb rulers of length 28[39] No[40] 2,474 (Feb 2012)[41]
DreamLab 2015-09-11 [42][43] Garvan Institute of Medical Research, Australia Cancer research Breast, ovarian, prostate and pancreatic cancer.[42] No
Einstein@Home 2005-02-19[44] University of Wisconsin–Milwaukee, Max Planck Institute[8] Astrophysics Search for pulsars using radio signals and gravitational wave data[45] Yes 2,761,797 (Nov 2015) 904.293 (Nov 2015)[46]
Electric Sheep 1999 Art No 450,000
Enigma@Home 2007-09-09[47] Private[8] Cryptography Decode three unbroken Enigma messages from World War II[48] Yes 9,746 (Jan 2016)[49] 36.969 (Jan 2016)[50]
Evolution@home Uses evolutionary algorithms to optimize the parameters of different kinds of machine learning algorithms[51] No
Fishtest 2013-02-13 Private[52] Software testing, game-playing Validates patches to the Stockfish chess engine by playing thousands of chess games at fast time controls between different versions of the engine[52] No 191 (Oct 2014)[53]
Folding@home 2000-10-01[54] Stanford University[54] Molecular biology[54] Understand protein folding, misfolding, and related diseases, with a minor emphasis in protein structure prediction[55][56][57] No[58][59] 170,755 (Sep 2014)[60] 39,673 (Sep 2014)[60]
Galaxy Zoo Classifies galaxy types from the Sloan Digital Sky Survey. No
Gerasim@Home 2007-02-10[61] Russia[61][62] Mathematics Researched in discrete mathematics and logic control systems[62] Yes 207 (Nov 2015) 3.134 (Nov 2015)[63]
Goldbach's Conjecture Tests Goldbach's weak conjecture.[64]
Great Internet Mersenne Prime Search (GIMPS) 1996-01-early[65][66] Private[65][67] Mathematics Searches for Mersenne primes of world record size[67] No[68] 1,256,427 (Feb 2014)[67] 174 (Feb 2014)[67]
Hydrogen@home Searches for the most efficient method of hydrogen production[69]
IBERCIVIS Spanish universities and research centers[8] Various Spanish projects Research in physics, material medicine, and biomedicine[70] Yes 2 (Jan 2016)[71] 0.000 (Jan 2016)[71]
Leiden Classical 2005-05-12[72] Leiden University, the Netherlands[8] Chemistry General classical mechanics for students or scientists[73] Yes 3,365 (Jan 2016)[74] 1.853 (Jan 2016)[75]
LHC@home
Sixtrack
2004-01-09[76] CERN[8] Physics Improve the design of the Large Hadron Collider and its detectors[77] Yes 13,565 (Nov 2015) 4.122 (Nov 2015)[78]
LHC@home
Virtual LHC@Home
2011-08-01 [79] CERN[80] Physics[80] Run virtual simulations of high-energy particle collisions in a computational search for new fundamental particles for the Large Hadron Collider at CERN[80][81] Yes 3,337 (Nov 2015) 4.608 (Nov 2015)[82]
M4 Project Decrypts Enigma messages from World War II[83]
Malaria Control 2006-12-19[84] Swiss Tropical Institute[8] Epidemiology Simulate the transmission dynamics and health effects of malaria[85] Yes 18,456 (Jan 2016)[86] 6.156 (Jan 2016)[87]
Milkyway@Home 2007-07-07[88] Rensselaer Polytechnic Institute[8] Astronomy Create a highly accurate three-dimensional model of the Milky Way galaxy using data collected from the Sloan Digital Sky Survey[89] Yes 27,408(Nov 2015) 401.561 (Nov 2015)[90]
MindModeling@Home 2007-03-17[91] University of Dayton Research Institute and Wright State University[92] Cognitive science[92] Builds cognitive models of the human mind[92] Yes 3,554 (Nov 2015) 1.800 (Nov 2015)[93]
MoneyBee Finance
Moo! Wrapper 2011-02-05[94] Private[94] Cryptography Combines BOINC with distributed.net to try to break the RC5 cipher[95] Yes[95] 16,325 (Nov 2015) 208.158 (Nov 2015)[96]
Muon1 Distributed Particle Accelerator Design Physics Simulate and design parts of the Neutrino Factory particle accelerator[97][98] No[97]
NFS@Home 2009-09-05[99] California State University Fullerton[8] Integer factorization Performs parts of the Number Field Sieve in the factorization of large integers[100] Yes 102,946 (Nov 2015) 18.604 (Nov 2015)[101]
NNGenerator 2014-10-20[102] Private Mathematics, finance, and artificial neural networks Distributed system based on neural networks for analysis and forecasting time series No 10 (Oct 2014) 0.001 (Oct 2014)
NumberFields@Home 2011-08-12[103] Arizona State University's School of Mathematics[104] Number theory Search for number fields with special properties to assist with the formulation of mathematical conjectures[104] Yes 2,080 (Nov 2015) 7.754 (Nov 2015)[105]
POEM@Home 2007-13-11[106] University of Karlsruhe, Germany[8] Molecular biology Protein structure prediction, cellular signaling, protein aggregation, and drug design[107] Yes 42,469 (Nov 2015) 534.039 (Nov 2015)[108]
Primaboinca RheinMain University of Applied Sciences[8] Mathematics Search for counterexamples to Agrawal's conjecture and Popovych's conjecture, which relate to the identification of prime numbers[109] Yes 971 (Jan 2016) 5.306 (Jan 2016)[110]
QMC@home 2006-03-03[111] University of Muenster, Germany[8] Chemistry Study the structure and reactivity of molecules using quantum chemistry and Monte Carlo techniques[112] Yes 7,472 (Feb 2012) 12.460 (Feb 2012)
Quake Catcher Network 2008-02-03[113] Stanford University[114][115] Seismology[114][115] Uses accelerometers connected to personal computers to detect earthquakes and to educate about seismology[114][115] Yes 1,919 (Nov 2015) N/A
Radioactive@home Poland[116] Physics Real-time radioactivity monitoring, detected by gamma sensors connected to volunteer computers[116] Yes 321 (Nov 2015) N/A
RALPH@home 2006-02-15[117] University of Washington[118] Software testing Test project for Rosetta@home[118] Yes 242 (Jan 2016)[119] 0.258 (Jan 2016)[110]
RNA World 2009-05-21[120] Private research group in Marburg, Germany[121] Molecular biology Uses bioinformatics software to study RNA structure[121] Yes 214 (Nov 2015) 0.201 (Nov 2015)[122]
Rosetta@home 2005-10-06[123] University of Washington[8] Molecular biology Protein structure prediction for disease research[124] Yes 1,622,168 (Jan 2016) 123.532 (Jan 2016)[125]
SAT@home 2011-09-29 Russian Academy of Sciences Cryptanalysis, Mathematics Various applications related to the boolean satisfiability problem, inversion of specific stream cipher functions[126] Yes 2,905 (Jan 2016) 8.257 (Jan 2016)[127]
Second Computing Assesses biopolymer dynamics, and models the behavior of clonal colonies in a prairie ecosystem[128]
SETI@home 1999-05-17[129][130][131] University of California, Berkeley[8] Astrobiology Search for extraterrestrial life by analyzing specific radio frequencies emanating from space[132] Yes over 5,000,000 (Jan 2016) 821.773 (Jan 2016)[133]
SETI@home Beta University of California, Berkeley[134] Software testing Test project of SETI@home[134] Yes 1,876 (Nov 2015) 3.202 (Nov 2015)[135]
Stardust@home 2006-08-01[136] University of California, Berkeley, NASA, The Planetary Society Astronomy Scans/analyzes the collection grid from the NASA Stardust mission to capture particles from the coma of comet Wild 2[137][138] No
theSkyNet POGS 2011-09-13[139] International Centre for Radio Astronomy Research[140] Astronomy Analysis of radio astronomy data from telescopes such as the Australian Square Kilometre Array Pathfinder and The Square Kilometre Array[141][142] Yes 14,328 (Nov 2015) 47.111 (Nov 2015)[143]
Twin Prime Search 2006-04-13[144][145] Mathematics Searches for large twin primes[144][145] No
Volpex University of Houston[146] Various Develop distributed computing methods, run the inCell@home application which focuses on simulating protein functions in cellular environments which has implications in drug design[146] Yes 0 (Jan 2016) 0.000 (Jan 2016)[147]
WEP-M+2 Project 2006-05-12[148] London, England, United Kingdom[149] Mathematics Investigates the factorization of Mersenneplustwo prime numbers[149] Yes 367 (Nov 2015) 0.758 (Nov 2015)[150]
Wieferich@Home 2007-12-29[151] Mathematics Searches for new Wieferich primes[152] No[153][154] 1,509 (Feb 2012)[155]
WUProp@Home 2010-03-27[156] Private[157] Statistics Collect various statistics about other BOINC projects[158] Yes 9,491 (Nov 2015)[159] N/A
YAFU Software testing, Mathematics Test BOINC server software, integer factorization[160] Yes 633 (Nov 2015) 0.884 (Nov 2015)[161]
yoyo@home 2007-07-19[162] Private[8] Mathematics, physics, and 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 27[163] Yes 10,715 (Jan 2016) 12.115 (Jan 2016)[164]
Project Launched Home Category Research focus BOINC based Active processing units Performance in TeraFLOPS

Inactive projects

Project Launched Terminated Home Category Research focus BOINC based
ABC@home 2006-11-21[165] 2014-06-01[166] Mathematical Institute of Leiden University, Kennislink[8][167] Mathematics Find triples related to the ABC conjecture, one of the greatest open problems in mathematics[167] Yes
AlmereGrid Grid 2006-09-27[168] Almere, the Netherlands[168] A number of applications from local researchers[169] Yes
AlmereGrid TestGrid 2008-02-24[170] Test of the AlmereGrid project[171] Yes
AndrOINC Private[172] Cryptography Broke Motorola's 1024-bit RSA key used to sign the boot and recovery partition partitions on the Motorola Milestone smartphone[172] Yes
AQUA@home 2008-12-10 D-Wave Systems, Canada[173] Quantum computing Used Quantum Monte Carlo to predict the performance of superconducting adiabatic quantum computers on a variety of problems[174][175] Yes[174][176]
Background Pi Computes decimal digits of pi using digit extraction method[177] No
Biochemical Library Vanderbilt University[178] Molecular biology Performed research using the Biochemical Algorithms Library into proteins and their interactions with small molecules for disease research[172][178] Yes
Chess960@home 2006-03-20[179] Private[8] Game-playing Analysis of chess 960[180] Yes
Constellation Students at the University of Stuttgart, Germany[181] Aerospace, Engineering[181] Various aerospace-related science and engineering problems[181] Yes
Correlizer EpiGenSys Consortium and EraSysBio+, part of the Seventh Framework Program of the European Union[182] Genetics[183] The sequential organization of genomes, and its connection to their 3D architectural organization[183] Yes
DistrRTgen 2008-01-12[184] Private[8] Cryptography Analysis of hash strength for password security by developing rainbow tables[185] Yes
DNA@home Rensselaer Polytechnic Institute[186] Discovered what regulates the genes in DNA using statistical algorithms[186] Yes
DrugDiscovery@home Private[187] Drug design Supported in silico drug design of chemical compounds for medicines in the fields of cancer and neurodegenerative diseases[187] Yes
eOn University of Texas at Austin[8] Chemistry Calculated the evolution of an atomic-scale system over time, such as a chemical reaction or diffusion[188] Yes
FreeHAL 2006[189] 2012[190] Private[8] Artificial intelligence Compute essential information for software which seeks to imitate human conversation[189] Yes
Genome@home 2001-02-01 Stanford University Molecular biology Designed new genes that can form working proteins in the cell that have not been found in nature. No
Ideologias@home 2011-05-19[191] Complutense University of Madrid, Spain[192] Society Used social networking mathematical models to study the ideological evolution of a group of people over time[192] Yes
Magnetism@home 2008-06-09[193] Donetsk Institute for Physics and Technology, Ukraine[194] Magnetism, nanotechnology Explored magnetization patterns[194] Yes
Mersenne@home 2012 Private[8] Mathematics Searched for Mersenne primes;[195] shutdown because the creator lacked time to administer it[196] Yes
Najmanovich Research Group Université de Sherbrooke[197] Molecular biology[197] Research in molecular recognition[197] Yes
Neurona@home 2011-06-14[198] Complutense University of Madrid, Spain[199] Neural network Simulating the behavior of a large and complex network of cellular automata neurons[199] Yes
NFSNET 2010 Integer factorization Used the general number field sieve to factor increasingly large integers; shutdown and replaced by NFS@Home[200] No
Optima@home Institute for Systems Analysis of Russian Academy of Sciences[201] Optimization[201] Solve various large-scale optimization problems, currently finding molecular conformations which have minimal potential energy[201] Yes
Orbit@home 2008-04-03[202] Planetary Science Institute[8] Astronomy Monitored and studied the hazards posed by near-earth asteroids[203] Yes
Pi Segment 2006 Independent project Mathematics Looked for specific digits (in binary) of Pi and make volunteer computing more popular in China[204] No
Pirates@home 2004-02-06[205] Spy Hill Research[205] Software testing Test of BOINC, no current scientific computation[206] Yes
Renderfarm.fi 2009-summer[207] Private (Finnish)[208][209] Art 2D and 3D rendering for animation artists[210] Yes
RSA Lattice Siever 2009[211] 2012-08 Integer factorization Assisted other factoring projects achieve their academic goals;[212] merged into NFS@Home because its server was outdated[213] Yes
SIMAP 2006-04-26[214] University of Vienna[8] Molecular biology Calculated similarities between proteins[215] Yes
SLinCA G.V.Kurdyumov Institute for Metal Physics of the National Academy of Sciences of Ukraine[216] Materials science[216] Studies scaling laws in cluster aggregation[216] Yes
Spinhenge@home 2006-05-19[217] Bielefeld University of Applied Sciences[8] Nanotechnology Studied nano-magnetic molecules for research into localized tumor chemotherapy and micro-memory[218] Yes
Superlink@Technion 2007-05-03[219] Technion – Israel Institute of Technology[8] Genetic linkage analysis Uses genetic linkage analysis to help find disease-provoking genes[220] Yes
Tiles@home Rendered osmarender maps from OpenStreetMap data[221][222]
µFluids@home 2005-09-19[223] Purdue University[8] Physics, Aeronautics Simulated microfluidics problems and two-phase flows in microgravity[224] Yes
Virtual Prairie 2008[225] University of Houston[8] Botanical ecosystems Provided ecological guidelines on the design of prairies with the best potential for water purification[226] Yes
VTU@home Vilnius Gediminas Technical University and Kaunas University of Technology[8] Software testing[8] Supported various research projects at Vilnius Gediminas Technical University[227] Yes[228]

Grid computing projects

While distributed computing functions by dividing a complex problem among diverse and independent computer systems and then combine the result, grid computing works by utilizing a network of large pools of high-powered computing resources.[229] These are typically "umbrella" projects that have a number of sub-projects underneath them, with multiple research areas.

Project Launched Home Category Research focus BOINC based Active processing units Performance in TeraFLOPS
EDGeS@Home 2009-10[230] MTA SZTAKI Laboratory of Parallel and Distributed Systems, Hungary[8] European research Support the execution of selected scientific applications developed by the EGEE and EDGeS community[231] Yes 285 (Jan 2016) 0.010 (Jan 2016)[232]
GPUGRID 2007-12-05[233] Barcelona Biomedical Research Park[8] Molecular biology Perform full-atom molecular simulations of proteins on Nvidia GPUs for biomedical research[234] Yes 2,992 (Jan 2016) 1,645.079 (Jan 2016)[235]
PrimeGrid 2005-06-12[236] Private[8] 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.[237]

Yes 11,110 (Jan 2016) 1,227.034 (Jan 2016)[238]
SZTAKI Desktop Grid 2005-05-26[239] MTA SZTAKI Laboratory of Parallel and Distributed Systems, Hungary[8] Mathematics Search for multilingual plagiarism across Wikipedia, find all the generalized binary number systems (in which bases are matrices and digits are vectors) up to dimension 11, understand basic universality classes of nonequilibrium system[240] Yes 2,270 (Jan 2016) 0.797 (Jan 2016)[241]
The Lattice Project 2003-late[242][243] University of Maryland Center for Bioinformatics and Computational Biology[8] Life science Various scientific analysis projects[244][245] Yes 2,016 (Jan 2016) 0.616 (Jan 2016)[246]
World Community Grid 2004-11-16[247] IBM Corporate Community Relations[8] Humanitarian research on disease, natural disasters, and hunger 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.[248] Yes 195,649 (Jan 2016) 471.639 (Jan 2016)[249]

Grid computing infrastructure

Related projects

Project Status Launched Home Category Research focus BOINC based Active processing units
DIMES Maps the structure and evolution of the Internet infrastructure, letting users see how the Internet looks from their home
Majestic-12 Uses a distributed web crawler program to index web sites for a distributed search engine[256]
NESSI-GRID Aims to provide a unified view for European research in service architectures and software infrastructures that will define technologies, strategies and deployment policies fostering new, open, industrial solutions and societal applications that enhance the safety, security and well-being of citizens[257]
OMII-UK Provides free open source software and support to enable a sustained future for the UK e-research community
Storage@home Distributed storage infrastructure developed to solve the problem of backing up and sharing petabytes of scientific results using a distributed model of volunteer managed hosts. Data is maintained by a mixture of replication and monitoring, with repairs done as needed.
StrataGenie Searches for trading strategies in intraday stock market data and distributes trading signals to subscribers[258]
Surveill@Home Active, Alpha[259] University of Coimbra, Portugal[8] Web performance Monitor and test websites for failure rates and overall performance (minimal CPU work)[260] Yes 1,657 (Feb 2012)[261]

Physical infrastructure projects

These projects attempt to make large physical computation infrastructures available for researchers to use:

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