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<div class="bs-stat-number">334</div>
<div class="bs-stat-number">335</div>
<div class="bs-stat-label">Projects listed</div>
<div class="bs-stat-label">[[BOINC projects|Projects listed]]</div>
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<div class="bs-stat-number">62</div>
<div class="bs-stat-number">77</div>
<div class="bs-stat-label">Projects documented</div>
<div class="bs-stat-label">Projects documented</div>
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| * [[Albert@Home]] developement site for Einstein@Home
| * [[Albert@Home]] developement site for Einstein@Home
| * [[Amicable Numbers]] amicable pair enumeration
| * [[Amicable Numbers]] amicable pair enumeration
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|* [[AQUA@home]] model the performance of superconducting adiabatic quantum computers
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| * [[Axiom Distributed AI]] distributed AI model training
| * [[Axiom Distributed AI]] distributed AI model training
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|* [[Big and Ugly Rendering Project]] distributed video rendering
|* [[Big and Ugly Rendering Project]] distributed video rendering
|* [[Leiden Classical]] submit personal classical mechanics and molecular dynamics simulations
|* [[CAS@home]] hosted by the Chinese Academy of Sciences, best known for running the TreeThreader protein structure
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|* [[CAS@home|Cels@Home]]  hosted by the Chinese Academy of Sciences, best known for running the TreeThreader protein structure
|* [[Collatz Conjecture]] testing the 3x+1 conjecture
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| * [[Cosmology@Home]] astronomical research
| * [[Cosmology@Home]] astronomical research
| * [[Collatz Conjecture]] testing the 3x+1 conjecture
| * [[Distributed Hardware Evolution Project]] synthesize self-checking digital hardware circuits
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| * [[Data freezer]] long-term data archival research
| * [[Data freezer]] long-term data archival research
| * [[GoofyxGrid@Home NCI]] non-covalent interaction analysis
| * [[Docking@Home]] CHARMM-based protein-ligand docking simulations to search for new pharmaceutical drugs
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|* [[GoofyxGrid@Home NCI]] non-covalent interaction analysis
|* [[HashClash]] search for MD5 and SHA-1 hash collisions, culminating in the 2008 rogue certificate authority attack
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|* [[GoofyxGrid@Home NCI|Ibercivis]] simulations in nuclear fusion, protein docking, materials science, and number theory
|* [[Leiden Classical]] submit personal classical mechanics and molecular dynamics simulations
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| * [[nanoHUB@Home]] nanotechnology simulation
| * [[nanoHUB@Home]] nanotechnology simulation
| * [[Parlea]] RNA 3D structure motif analysis
| * [[Parlea]] RNA 3D structure motif analysis
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|* [[Malariacontrol.net]] simulate the transmission dynamics and health effects of malaria
|* [[MindModeling@Home]] computational cognitive modeling to study human performance and learning
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| * [[Predictor@home]] protein folding and the first BOINC project
| * [[Pirates@Home]] help to develop Einstein@Home screensaver and test BOINC software
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| * [[proteins@home]] tackled the inverse protein folding problem
| * [[QMC@Home]] develop and apply Quantum Monte Carlo (QMC) methods for use in quantum chemistry
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|* [[QuChemPedIA@home]] run density functional theory (DFT) quantum chemistry calculations
|* [[Rectilinear Crossing Number Project]] determine the rectilinear crossing number of the complete graph K18
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| * [[RALPH@home]] developement site for Rosetta@home
| * [[RALPH@home]] developement site for Rosetta@home
| * [[Ramanujan Machine]] conjectured mathematical identities
| * [[Ramanujan Machine]] conjectured mathematical identities
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| * [[Universe@Home]] stellar evolution modelling
| * [[WEP-M+2 Project]] mersenne-related prime search
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| * [[RNA World (beta)]] RNA folding and molecular evolution
| * [[RNA World (beta)]] RNA folding and molecular evolution
| * [[SETI@home]] search for extraterrestrial intelligence
| * [[SETI@home]] search for extraterrestrial intelligence
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| * [[Predictor@home]] protein folding and the first BOINC project
|* [[SAT@home]] solve hard instances of the Boolean satisfiability problem
| * [[Pirates@Home]] help to develop Einstein@Home screensaver and test BOINC software
|* [[SIMAP]] pre-calculated protein sequence similarities for a database used by bioinformaticians
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|* [[Spinhenge@home]] simulating spin dynamics in nanoscale molecular magnets
|* [[SZTAKI Desktop Grid]] MTA SZTAKI in Budapest, running mathematics, physics, and digital humanities applications
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| * [[Proteins@home]] tackled the inverse protein folding problem
|* [[TANPAKU]] used a Brownian dynamics method to study protein folding
| * [[QMC@Home]] develop and apply Quantum Monte Carlo (QMC) methods for use in quantum chemistry
|* [[Proteins@home|T.Brada Experimental Grid]] the PADLS Total subproject aimed to find new pseudo-associative DLS
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|* [[QuChemPedIA@home]] run density functional theory (DFT) quantum chemistry calculations
|* [[The Lattice Project]] Condor and PBS clusters, chiefly supporting phylogenetic analysis with the GARLI software
|* [[Spinhenge@home]] simulating spin dynamics in nanoscale molecular magnets
|* [[MLC@Home]] understanding and interpreting complex machine learning models
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|* [[Proteins@home|T.Brada Experimental Grid]] the PADLS Total subproject aimed to find new pseudo-associative DLS
| * [[Universe@Home]] stellar evolution modelling
|* [[MLC@Home]] understanding and interpreting complex machine learning models
| * [[WEP-M+2 Project]] mersenne-related prime search
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<div class="bs-group-footer">''See the [[BOINC projects|master BOINC projects table]] for definitive active/inactive status on all documented projects.''</div>
<div class="bs-group-footer">''See the [[BOINC projects|master BOINC projects table]] for definitive active/inactive status on all documented projects.''</div>