BOINC projects: Difference between revisions

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This is a comprehensive and continually updating List of All [https://boinc.berkeley.edu/projects.php BOINC projects]
{{#seo:
|title=All BOINC projects
|description=All BOINC Projects. A complete list of all active, private, and completed BOINC volunteer computing projects.
|keywords=BOINC, volunteer computing, distributed computing, BOINC project list, BOINC projects
|image=Boinc-projects-seo.png
}}
{| align="center"
  | __TOC__
  |}
[[File:Boinc-projects-seo.png|right|frameless|200x200px]]This is a comprehensive and continually updating List of All [https://boinc.berkeley.edu/projects.php BOINC projects]


'''''Q - What is a BOINC project?'''''
'''''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]]
'''''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.
{| align="center"
====Active BOINC Projects====
  | __TOC__
 
  |}
{| class="wikitable sortable" style="font-size: 80%;"
====38 Active BOINC Projects====
<div style="overflow-x:auto;">
{| class="wikitable sortable" style="font-size: 80%; word-break: break-word; overflow-wrap: anywhere;"
|-
|-
!Project Name
!Project Name
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!Operating System
!Operating System
!GPU App
!GPU App
!Vbox
!Requires
!Screen saver
!Screen saver
!Sponsor
!Sponsor
Line 41: Line 47:
| 2023-02-04
| 2023-02-04
|
|
| {{No}}t yet
| {{No}}
| {{No}}t yet
| {{Yes}}, BUDA
|
|
| University of California, Berkeley
| University of California, Berkeley
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| [https://lhcathome.cern.ch/lhcathome/apps.php Windows, Linux, ARM, MacOS, Free BSD, Android]
| [https://lhcathome.cern.ch/lhcathome/apps.php Windows, Linux, ARM, MacOS, Free BSD, Android]
| {{No}}
| {{No}}
| {{Yes}}, Both
| {{Yes}}, BUDA
| [https://youtu.be/0qbLDbsNO3w view]
| [https://youtu.be/0qbLDbsNO3w view]
| CERN
| CERN
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| [https://lhcathomedev.cern.ch/lhcathome-dev/apps.php Windows, Linux, ARM, MacOS, Free BSD, Android]
| [https://lhcathomedev.cern.ch/lhcathome-dev/apps.php Windows, Linux, ARM, MacOS, Free BSD, Android]
| {{No}}
| {{No}}
| {{Yes}}, Both
| {{Yes}}, BUDA
|
|
| CERN
| CERN
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| [https://boinc.thesonntags.com/collatz/apps.php Windows, Linux, ARM, MacOS]
| [https://boinc.thesonntags.com/collatz/apps.php Windows, Linux, ARM, MacOS]
| {{No}}
| {{No}}
| {{No}}
| {{Yes}}, git
|
|
| Independent
| Independent
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| [http://radioactiveathome.org/boinc/apps.php Windows, Linux]
| [http://radioactiveathome.org/boinc/apps.php Windows, Linux]
| {{No}}
| {{No}}
| {{No}}
| {{Yes}}, Sensor
|
|
| Independent
| Independent
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| [https://podcasts.apple.com/us/podcast/rakesearch/id1492837872?i=1000496377228 Listen]
| [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...]]
| 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://rnma.xyz/boinc/ Ramanujan Machine]
| [https://boinc.berkeley.edu/pubs.php#Ramanujan 2]
| 2021-10-14
| [https://rnma.xyz/boinc/apps.php Windows, Linux]
| {{No}}
| {{No}}
|
| Independent
| Mathematics
| [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...]]


|-
|-
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| [https://boinc.bakerlab.org/rosetta/apps.php Windows, Linux, ARM, macOS, Android]
| [https://boinc.bakerlab.org/rosetta/apps.php Windows, Linux, ARM, macOS, Android]
| {{No}}
| {{No}}
| {{Yes}}, Both
| {{No}}
| [https://youtu.be/6o5yBfG_vss view]
| [https://youtu.be/6o5yBfG_vss view]
| University of Washington
| University of Washington
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| [https://uspex-at-home.ru/prediction/apps.php Windows, Linux, macOS]
| [https://uspex-at-home.ru/prediction/apps.php Windows, Linux, macOS]
| {{No}}
| {{No}}
| {{Yes}}, Both
| {{Yes}}, Vbox
|
|
| [https://uspex-team.org/en uspex-team.org]
| [https://uspex-team.org/en uspex-team.org]
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| 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...]]
| 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...]]
|}
|}
</div>


==== 6 Private BOINC Projects====
==== Private BOINC Projects====
<div style="overflow-x:auto;">
 
{| class="wikitable sortable" style="font-size: 80%; word-break: break-word; overflow-wrap: anywhere;"
{| class="wikitable sortable" style="font-size: 80%;"
|-
|-
!Project Name
!Project Name
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!Operating System
!Operating System
!GPU App
!GPU App
!Vbox
!Requires
!Screen saver
!Screen saver
!Sponsor
!Sponsor
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| Teach parallel and distributed programming to undergraduate and graduate students of Samara National Research University.
| Teach parallel and distributed programming to undergraduate and graduate students of Samara National Research University.
|}
|}
</div>


====290 Completed BOINC Projects ====
====Completed BOINC Projects ====
<div style="overflow-x:auto;">
 
{| class="wikitable sortable" style="font-size: 80%; word-break: break-word; overflow-wrap: anywhere;"
{| class="wikitable sortable" style="font-size: 80%;"
|-
|-
!Project Name
!Project Name
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!Operating System
!Operating System
!GPU App
!GPU App
!Vbox
!Requires
!Screen saver
!Screen saver
!Sponsor
!Sponsor
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| Astronomy
| 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]
| [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.
| 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|See more...]]


|-
|-
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|
|
|
|
| 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.
| 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. [[Predictor@home|See more...]]


|-
|-
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| Software testing
| Software testing
| [https://www.youtube.com/live/qr-n6FziUeo?feature=share Watch]
| [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.
| 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. [[Pirates@Home|See more...]]


|-
|-
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|
|
|
|
| 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.
| searched for MD5 and SHA-1 hash collisions, culminating in the 2008 rogue certificate authority attack. [[HashClash|See more...]]


|-
|-
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|
|
|
|
| Analyzed protein structure prediction.
| Used a Brownian dynamics method to study protein folding. [[TANPAKU|See more...]]


|-
|-
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|
|
|
|
| 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.
| Condor and PBS clusters through the Globus Toolkit, chiefly supporting phylogenetic analysis with the GARLI software. [[The Lattice Project|See more...]]


|-
|-
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|-
|-
| [https://web.archive.org/web/20121205084825/http://www.malariacontrol.net/ Malariacontrol.net]
| [https://web.archive.org/web/20121205084825/http://www.malariacontrol.net/ malariacontrol.net]
| [https://boinc.berkeley.edu/pubs.php#Malariacontrol.net 26]
| [https://boinc.berkeley.edu/pubs.php#Malariacontrol.net 26]
| 2006-03-01
| 2006-03-01
2016-06-21
| WinXP-98, Linux
| WinXP-98, Linux
|
|
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|
|
|
|
| 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.
| 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. [[Malariacontrol.net|See more...]]


|-
|-
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|
|
|
|
| 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.
| 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. [[Proteins@home|See more...]]


|-
|-
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| [https://boinc.berkeley.edu/pubs.php#Ibercivis 18]
| [https://boinc.berkeley.edu/pubs.php#Ibercivis 18]
| 2007-11
| 2007-11
2020-08-01
| &nbsp;
| &nbsp;
|
|
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|
|
|
|
| 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.
| Research in physics, material science and biomedicines and is based at several institutes and universities; Zaragoza, CETA-CIEMAT, CSIC, Coimbra. [[Ibercivis|See more...]]


|-
|-
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|
|
|
|
| Use sophisticated mathematical methods to determine the rectilinear crossing number for small values of n.
| Use sophisticated mathematical methods to determine the rectilinear crossing number for small values of n. [[Rectilinear Crossing Number Project|See more...]]


|-
|-
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| [https://web.archive.org/web/20090309055929/http://aqua.dwavesys.com/ AQUA@home]
| [https://web.archive.org/web/20090309055929/http://aqua.dwavesys.com/ AQUA@home]
| [https://boinc.berkeley.edu/pubs.php#AQUA@home 4]
| [https://boinc.berkeley.edu/pubs.php#AQUA@home 4]
|
|2008-12-08
2011-08-01
| &nbsp;
| &nbsp;
| {{Yes}}
|
|
| {{Yes}}, Vbox
| [https://youtu.be/VyQgGkj_Rss view]
| [https://youtu.be/VyQgGkj_Rss view]
| dwavesys
| dwavesys
|Quantum Computing
|
|
|
|Model the performance of superconducting adiabatic quantum computers. [[AQUA@home|See more...]]
|


|-
|-
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|
|
|
|
| Perform scientific calculations that aid in the creation of new and improved medicines to help cure diseases such as HIV.
| CHARMM-based protein-ligand docking simulations to search for new pharmaceutical drugs. [[Docking@Home|See more...]]


|-
|-
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| 2017
| 2017
| &nbsp;
| &nbsp;
| {{Yes}}
|
|
| {{Yes}}, Vbox
|
|
| Matrosov Institute for System Dynamics and Control Theory
| Matrosov Institute for System Dynamics and Control Theory
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| [https://web.archive.org/web/20081008031648/http://cels-at-home-dev.dyndns.org:80/cels/ Cels@Home]
| [https://web.archive.org/web/20081008031648/http://cels-at-home-dev.dyndns.org:80/cels/ Cels@Home]
|
|
|
|2008-06-23
2009-09-01
| &nbsp;
| &nbsp;
|
|
|
|
| [https://youtu.be/mzp2QBwvb2U view]
| [https://youtu.be/mzp2QBwvb2U view]
|University of Texas in Austin
|
|
|
|
|
| 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. [[Cels@Home|See more...]]
| 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.


|-
|-
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|
|
|
|
| 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.
| 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. [[Spinhenge@home|See more...]]


|-
|-
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| Multiple applications
| Multiple applications
|
|
| Run legacy science applications: Phylogenetic Analysis (GARLI), Protein Sequence Comparison (HMMPfam), Conservation Reserve Network Design (MARXAN).
| Condor and PBS clusters through the Globus Toolkit, chiefly supporting phylogenetic analysis with the GARLI software. [[The Lattice Project|See more...]]


|-
|-
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|
|
|
|
|Technical University of Munich, the Helmholtz Zentrum München and the University of Vienna
|
|
|
|
|
| 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. [[SIMAP|See more...]]
| 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.


|-
|-
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|
|
|
|
| Dedicated to general Classical Dynamics for any scientist or science student.
| Dedicated to general Classical Dynamics for any scientist or science student. [[Leiden Classical|See more...]]


|-
|-
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| [https://boinc.berkeley.edu/pubs.php#SZTAKI 5]
| [https://boinc.berkeley.edu/pubs.php#SZTAKI 5]
| 2005-05-26
| 2005-05-26
2018-05-31
| WinXP-98, Linux, MacOS X (Not Intel), Solaris
| WinXP-98, Linux, MacOS X (Not Intel), Solaris
|
|
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| Multiple Applications
| 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 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. [[SZTAKI Desktop Grid|See more...]]


|-
|-
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|
|
|
|
|Russian Academy of Sciences (Siberian Branch)
|Mathematics
|
|
|
| Solve hard and practically important problems (discrete functions inversion problems, discrete optimization, bioinformatics, etc) that can be effectively reduced to Boolean satisfiability problem. [[SAT@home|See more...]]
|
| Solve hard and practically important problems (discrete functions inversion problems, discrete optimization, bioinformatics, etc) that can be effectively reduced to Boolean satisfiability problem.


|-
|-
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|
|
|
|
| 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.
| Used island-based coevolutionary genetic algorithm to synthesize self-checking digital hardware circuits. [[Distributed Hardware Evolution Project|See more...]]


|-
|-
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| Multiple applications
| 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.
| 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. [[QMC@Home|See more...]]


|-
|-
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| [https://web.archive.org/http://casathome.ihep.ac.cn/ CAS@home]
| [https://web.archive.org/http://casathome.ihep.ac.cn/ CAS@home]
|
|
|
|2010-09-30
2020-04-27
| &nbsp;
| &nbsp;
|
|
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|
|
|
|
| The main application is the TreeThreader which predicts protein structure.
| The main application is the TreeThreader which predicts protein structure. [[CAS@home|See more...]]


|-
|-
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| Cognitive science
| Cognitive science
|
|
| Computational cognitive process modeling to better understand the human mind.
| Computational cognitive process modeling to better understand the human mind. [[MindModeling@Home|See more...]]


|-
|-
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| [http://burp.renderfarming.net/ Big and Ugly Rendering Project (BURP)]
| [http://burp.renderfarming.net/ Big and Ugly Rendering Project (BURP)]
| [https://boinc.berkeley.edu/pubs.php#Big 2]
| [https://boinc.berkeley.edu/pubs.php#Big 2]
|
|2004-06-17
2020
| Windows, Linux, Mac OS
| Windows, Linux, Mac OS
|
|
|
|
|
|
|Janus Kristensen
|3D rendering
|
|
|
| Render animated videos including [http://bbb3d.renderfarming.net/download.html Big Buck Bunny]. [[Big and Ugly Rendering Project|See more...]]
|
| Render animated videos including [http://bbb3d.renderfarming.net/download.html Big Buck Bunny].


|-
|-
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| Cognitive science
| Cognitive science
| [https://podcasts.apple.com/us/podcast/mlc-home/id1492837872?i=1000499605038 Listen]
| [https://podcasts.apple.com/us/podcast/mlc-home/id1492837872?i=1000499605038 Listen]
| Understanding and interpreting complex machine learning models.
| Understanding and interpreting complex machine learning models. [[MLC@Home|See more...]]


|-
|-
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| Mathematics
| Mathematics
|
|
| The PADLS Total subproject aims to find new pseudo-associative DLS.
| The PADLS Total subproject aims to find new pseudo-associative DLS. [[T.Brada Experimental Grid|See more...]]


|-
|-
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| Molecular Chemistry
| Molecular Chemistry
| [https://podcasts.apple.com/us/podcast/quchempedia/id1492837872?i=1000484760287 Listen]
| [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.
| 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. [[QuChemPedIA@home|See more...]]


|-
|-
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| Mathematics
| Mathematics
|
|
| Study the Collatz conjecture, an unsolved conjecture in mathematics.
| Study the Collatz conjecture, an unsolved conjecture in mathematics.   [[Collatz Conjecture|See more...]]


|-
|-
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| [http://www.cosmologyathome.org/apps.php Windows, Linux, MacOS, Android]
| [http://www.cosmologyathome.org/apps.php Windows, Linux, MacOS, Android]
| {{No}}
| {{No}}
| {{Yes}}, Both
| {{Yes}}, Vbox
|
|
| Institut d'Astrophysique de Paris
| Institut d'Astrophysique de Paris
| Astronomy
| Astronomy
| [https://podcasts.apple.com/us/podcast/comology-home/id1492837872?i=1000521601975 Listen]
| [https://podcasts.apple.com/us/podcast/comology-home/id1492837872?i=1000521601975 Listen]
| Find the most accurate models that best describe the universe.
| Find the most accurate models that best describe the universe. [[Cosmology@Home|See more...]]


|-
|-
Line 4,355: Line 4,353:
| [https://ralph.bakerlab.org/apps.php Windows, Linux, ARM, macOS, Android]
| [https://ralph.bakerlab.org/apps.php Windows, Linux, ARM, macOS, Android]
| {{No}}
| {{No}}
| {{Yes}}, Both
| {{Yes}}, Vbox
| [https://youtu.be/W9fC5lv76T0 view]
| [https://youtu.be/W9fC5lv76T0 view]
| University of Washington
| University of Washington
Line 4,400: Line 4,398:
|
|
| Computational astrophysics, computer simulation of stars, galaxies and the Universe. [[Universe@Home|See more...]]
| Computational astrophysics, computer simulation of stars, galaxies and the Universe. [[Universe@Home|See more...]]
|-
|[https://axiom.heliex.net/ Axiom Distributed AI]
|
|2026-01-30
2026-03-20
|[https://web.archive.org/web/20260319085629/https://axiom.heliex.net/apps.php Windows, Linux, Mac]
| {{No}}
| {{No}}
|
|Axiom Project 2026
|Artificial Intelligence
|
|Distributed neural-network learning techniques influenced by Hebbian learning [[Axiom Distributed AI|See more...]]
|-
| [https://rnma.xyz/boinc/ Ramanujan Machine]
| [https://boinc.berkeley.edu/pubs.php#Ramanujan 2]
| 2021-10-14
| [https://rnma.xyz/boinc/apps.php Windows, Linux]
| {{No}}
| {{No}}
|
| Independent
| Mathematics
| [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...]]
|}
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