نرم افزار ها و سیستمهای توزیع شده(Distributed Softwares)، به عنوان زیر ساختی برای محاسبات تورین و سریع (High Performance and Grid Computing) محسوب می شوند. به همین دلیل تعداد زیادی پروژه با همین موضوع در ازمایشگاهها و پژوهشکده های نرم افزار در دنیا در حال اجرا می باشد. کلاسترهای محاسباتی مبتنی بر CPU و GPU به کمک این سیستمها آمده و توان پردازشی بسیار بالایی را برای محاسبات علمی و شبیه سازی های رایانه ای ایجاد می کند.
در ادامه لیستی از پروژه های فعال در این حوزه معرفی می شود.
Active projects
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Project |
Launched |
Home |
Category |
Research focus |
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2006-11-21[2] |
Mathematical Institute ofLeiden University, Kennislink[3][4] |
Find triples related to the ABC conjecture, one of the greatest open problems in mathematics[4] |
12.333 (Feb 2012)[5] |
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Asteroids@home |
2012-06-20 [6] |
Charles University in Prague, Czech |
To significantly enlarge our knowledge of the physical properties of asteroids[7] |
135.065 (Jan 2014)[6] |
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Albert@home |
Testing project for Einstein@home[8] |
2.207 (Feb 2012)[9] |
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Background Pi |
Computes decimal digits of pi using digit extraction method[10] |
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2004-06-17[11] |
0.198 (Feb 2012)[13] |
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CAS@home |
2010-01[14] |
Physics,biochemistry, and others |
Encourage Chinese scientists to use volunteer computing for their research[14] |
1.319 (Feb 2012)[15] |
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Chess960@home |
2006-03-20[16] |
Private[3] |
Game-playing |
0.012 (Feb 2012)[18] |
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2003-12-09[19] |
Climate study |
Analyse ways to improve climate prediction models[20] |
34.925 (Feb 2012)[21] |
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Collatz Conjecture |
2009-01-06[22] |
Private[3] |
Study the Collatz conjecture, an unsolved conjecture in mathematics[23] |
623.444 (Feb 2012)[24] |
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Constellation |
Students at the University of Stuttgart, Germany[25] |
Various aerospace-related science and engineering problems[25] |
2.150 (Feb 2012)[26] |
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Correlizer |
EpiGenSys Consortium and EraSysBio+, part of the Seventh Framework Programof the European Union[27] |
The sequential organization of genomes, and its connection to their 3D architectural organization[28] |
1.607 (Feb 2012)[29] |
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Find the most accurate models that best describe the universe[30] |
9.119 (Feb 2012)[31] |
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Distributed Data Mining |
Research in the various fields of data analysisand machine learning, such as stock market prediction and analysis of medical data[34] |
0.968 (Feb 2012)[35] |
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1997-01-28[36] |
Private[37] |
Crack the RC5-72 cipher, find optimal Golomb rulers of length 27[38] |
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2008-01-12[41] |
Private[3] |
Analysis of hash strength for password security by developing rainbow tables[42] |
270.150 (Feb 2012)[43] |
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DNA@home |
discover what regulates the genes in DNAusing statistical algorithms[44] |
0 (Feb 2012)[45] |
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2006-11-09[46] |
Simulate the docking of ligands to proteins for pharmaceutical research[47] |
16.390 (Feb 2012)[48] |
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DrugDiscovery@home |
Private[49] |
In silico drug design of chemical compoundsfor medicines in the fields of cancer andneurodegenerative diseases.[49] |
0 (Feb 2012)[50] |
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2005-02-19[51] |
Search for pulsars using radio signals and gravitational wave data[52] |
1,138 (Aug 2013)[53] |
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1999 |
Art |
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Enigma@home |
2007-09-09[54] |
Private[3] |
Decode three unbroken Enigma messages from World War II[55] |
7.175 (Feb 2012)[56] |
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Calculate the evolution of an atomic-scale system over time, such as a chemical reaction or diffusion[57] |
3.526 (Feb 2012)[58] |
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Evolution@home |
Uses evolutionary algorithms to optimize theparameters of different kinds of machine learning algorithms[59] |
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2000-10-01[60] |
Understand protein folding, misfolding, and related diseases, with a minor emphasis inprotein structure prediction[61][62][63] |
8,588 (Feb 2012)[66] |
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2006[67] |
Private[3] |
Compute essential information for software which seeks to imitate human conversation[67] |
14.019 (Feb 2012)[68] |
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Classifies galaxy types from the Sloan Digital Sky Survey.[citation needed] |
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Gerasim@home |
2007-02-10[69] |
Research in discrete mathematics and logic control systems[70] |
0 (Feb 2012)[71] |
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Goldbach's Conjecture |
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Searches for Mersenne primes of world record size[75] |
95.1 (Nov 2012)[75] |
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Hydrogen@home |
Searches for the most efficient method ofhydrogen production[77] |
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Spanish universities and research centers[3] |
Various Spanish projects |
Research in physics, material medicine, and biomedicine[78] |
3.022 (Feb 2012)[79] |
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Ideologias@home |
2011-05-19[80] |
Society |
Uses social networking mathematical models to study the ideological evolution of a group of people over time[81] |
0 (Feb 2012)[82] |
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2005-05-12[83] |
Leiden University, the Netherlands[3] |
General classical mechanics for students or scientists[84] |
1.644 (Feb 2012)[85] |
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LHC@home |
2011-08-01 [86] |
Run virtual simulations of high-energy particle collisions in a computational search for new fundamental particles for the Large Hadron Collider at CERN[87][88] |
2.420 (Feb 2012)[89] |
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LHC@home |
2004-01-09[90] |
Improve the design of the Large Hadron Collider and its detectors[91] |
0.281 (Feb 2012)[92] |
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M4 Project |
Decrypts Enigma messages from World War II[93] |
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Magnetism@home |
2008-06-09[94] |
Explores magnetization patterns[95] |
0 (Feb 2012)[96] |
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Malariacontrol.net |
2006-12-19[97] |
Simulate the transmission dynamics and health effects of malaria[98] |
14.197 (Feb 2012)[99] |
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2007-07-07[100] |
Create a highly accurate three-dimensional model of the Milky Way galaxy using data collected from the Sloan Digital Sky Survey[101] |
1,175 (Aug 2013)[102] |
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2007-03-17[103] |
University of Dayton Research Institute and Wright State University[104] |
Builds cognitive models of the human mind[104] |
0.006 (Feb 2012)[105] |
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2011-02-05[106] |
Private[106] |
Combines BOINC with distributed.net to try to break the RC5 cipher[107] |
807.208 (Feb 2012)[108] |
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MQL5 Cloud Network |
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Muon1 Distributed Particle Accelerator Design |
Simulate and design parts of the Neutrino Factory particle accelerator[110][111] |
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Najmanovich Research Group |
Research in molecular recognition[112] |
0.390 (Feb 2012)[113] |
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Neurona@home |
2011-06-14[114] |
Simulating the behavior of a large and complex network of cellular automata neurons[115] |
0.157 (Feb 2012)[116] |
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NFS@home |
2009-09-05[117] |
Performs parts of the Number Field Sieve in the factorization of large integers[118] |
3.106 (Feb 2012)[119] |
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NumberFields@home |
2011-08-12[120] |
Arizona State University's School of Mathematics[121] |
Search for number fields with special properties to assist with the formulation of mathematical conjectures[121] |
3.130 (Feb 2012)[122] |
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Optima@home |
Institute for Systems Analysis of Russian Academy of Sciences[123] |
Solve various large-scale optimization problems, currently finding molecular conformations which have minimal potential energy[123] |
0.241 (Feb 2012)[124] |
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2008-04-03[125] |
Monitor and study the hazards posed by near-earth asteroids[126] |
0 (Feb 2012)[127] |
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Pirates@home |
2004-02-06[128] |
Spy Hill Research[128] |
Test of BOINC, no current scientific computation[129] |
0.007 (Feb 2012)[130] |
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2007-13-11[131] |
University of Karlsruhe, Germany[3] |
Protein structure prediction, cellular signaling,protein aggregation, and drug design[132] |
107.756 (Feb 2012)[133] |
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Primaboinca |
Search for counterexamples to Agrawal's conjecture and Popovych's conjecture, which relate to the identification of prime numbers[134] |
5.544 (Feb 2012)[135] |
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2006-03-03[136] |
University of Muenster, Germany[3] |
Study the structure and reactivity of molecules using quantum chemistry and Monte Carlo techniques[137] |
12.460 (Feb 2012)[138] |
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2008-02-03[139] |
Uses accelerometers connected to personal computers to detect earthquakes and to perform education about seismology[140][141] |
0.141 (Feb 2012)[142] |
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Radioactive@home |
Poland[143] |
Real-time radioactivity monitoring, detected by gamma sensors connected to volunteer computers[143] |
0.172 (Oct 2013)[144] |
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2006-02-15[145] |
Test project for Rosetta@home[146] |
0.040 (Feb 2012)[147] |
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2009-summer[148] |
0.357 (Feb 2012)[152] |
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2009-05-21[153] |
Private research group inMarburg, Germany[154] |
Uses bioinformatics software to study RNA structure[154] |
4.117 (Feb 2012)[155] |
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2005-10-06[156] |
Protein structure prediction for disease research[157] |
58.031 (Feb 2012)[158] |
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SAT@home |
2011-09-29 |
Various applications related to the boolean satisfiability problem, inversion of specificstream cipher functions[159] |
1.453 (Feb 2012)[160] |
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Second Computing |
Assesses biopolymer dynamics, and models the behavior of clonal colonies in a prairieecosystem[161] |
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Search for extraterrestrial life by analyzing specific radio frequencies emanating from space[165] |
593.650 (Feb 2012)[166] |
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SETI@home Beta |
Test project of SETI@home[167] |
1.403 (Feb 2012)[168] |
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2006-04-26[169] |
Calculate similarities between proteins[170] |
5.891 (Feb 2012)[171] |
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SLinCA |
G.V.Kurdyumov Institute for Metal Physics of the National Academy of Sciences of Ukraine[172] |
Studies scaling laws in cluster aggregation[172] |
0.053 (Feb 2012)[173] |
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2006-05-19[174] |
Study nano-magnetic molecules for research into localized tumor chemotherapy and micro-memory[175] |
0 (Feb 2012)[176] |
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2006-08-01[177] |
University of California, Berkeley, NASA, The Planetary Society |
Scans/analyzes the collection grid from the NASA Stardust mission to capture particles from the coma of comet Wild 2[178][179] |
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Sudoku@vtaiwan |
2011-10-21[180] |
Determine whether unique-solution sudokupuzzles with only 16 clues exist[181] |
1.926 (Feb 2012)[182] |
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Superlink@Technion |
2007-05-03[183] |
Genetic linkage analysis |
Uses genetic linkage analysis to help find disease-provoking genes[184] |
1.084 (Feb 2012)[185] |
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theSkyNet |
2011-09-13[186] |
Analysis of radio astronomy data from telescopes such as the Australian Square Kilometre Array Pathfinder and The Square Kilometre Array[188][189] |
46.1 (Jan 2014)[191][not in citation given] |
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Searches for large twin primes[192][193] |
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µFluids@home |
2005-09-19[194] |
Simulate microfluidics problems and two-phase flows in microgravity[195] |
0 (Feb 2012)[196] |
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Virtual Prairie |
2008[197] |
Botanical ecosystems |
Provide ecological guidelines on the design of prairies with the best potential for water purification[198] |
0 (Feb 2012)[199] |
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Volpex@UH |
Various |
Develop distributed computing methods, run the inCell@home application which focuses on simulating protein functions in cellularenvironments which has implications in drug design[200] |
0.002 (Feb 2012)[201] |
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WEP-M+2 Project |
2006-05-12[202] |
Investigates the factorization of Mersenneplustwo prime numbers[203] |
0.289 (Feb 2012)[204] |
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Wieferich@Home |
2007-12-29[205] |
Searches for new Wieferich primes[206] |
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WUProp@home |
2010-03-27[210] |
Private[211] |
Collect various statistics about other BOINC projects[212] |
1.136 (Feb 2012)[213] |
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YAFU |
Test BOINC server software, integer factorization[214] |
0.333 (Feb 2012)[215] |
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2007-07-19[216] |
Private[3] |
Data structure analysis to help prove a conjecture, elliptic curve factorization, pioncreation in a particle accelerator, evolution research, find the shortest optimal Golomb ruler of length 27[217] |
12.998 (Feb 2012)[218] |
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Project |
Launched |
Home |
Category |
Research focus |
TeraFLOPS |
