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Active - These projects are up and running, and issuing work to BOINC clients. More information about the projects can be found on the project's homepage.


[email protected]
(Homepage)
Aim: The goal of this project is to solve inverse problems in underwater acoustics.

[email protected]
(Homepage)
Aim: Help us test features or fixes that may later be transferred to [email protected]
Supports AMD GPUs
Supports Nvidia GPUs
Supports Android on ARM

• Amicable Numbers
(Homepage)
Aim: Collect all amicable numbers up to a very large limit, which can assist in various areas of theoritcal mathematics.
Supports AMD GPUs
Supports Nvidia GPUs

[email protected]
(Homepage)
Aim: Significantly enlarge our knowledge of physical properties of asteroids by using photometric measurements of asteroids observed by professional big all-sky surveys as well as backyard astronomers.
Supports Nvidia GPUs
Supports Android on ARM

• BOINC Alpha Test
(Homepage)
Aim: Testing new versions of BOINC software, thereby increasing the reliability of software released to the public. BOINC Alpha Test is not a scirntific application. It is a group of BOINC users who test new clients for PC and Android before they are released to the public.

• BURP | RenderFarming.net
(Homepage)
Aim: Develop a publicly distributed system for rendering 3D animations.

[email protected]
(Homepage)
Aim: To encourage and assist scientists in China to adopt the technologies of volunteer computing and volunteer thinking for their research.

• Citizen Science Grid
(Homepage)
Aim: The CSG is dedicated to supporting a wide range of research and educational projects. The currently running sub-projects are [email protected] and Convolutional Neural Network.

• Climateprediction.net
(Homepage)
Aim: To produce predictions of the Earth's climate up to 2100 and to test the accuracy of climate models.

• Collatz Conjecture
(Homepage)
Aim: Research in mathematics, specifically testing the Collatz Conjecture, also known as 3x+1 or HOTPO (half or triple plus one).
Supports AMD GPUs
Supports Nvidia GPUs
Supports intel iGPUs
Supports Android on ARM

[email protected]
(Homepage)
Aim: To search for the model that best describes our Universe, and to find the range of models that agree with the available astronomical and particle physics data.
VirtualBox Required for Some Applications

[email protected]
(Homepage)
Aim: DENIS is a research project that uses volunteers to do research in cardiac electrophysiology.

• Distributed Hardware Evolution Project
(Homepage)
Aim: DHEP is a distributed computing project that is using Genetic Algorithms to inprove the design of self-checking circuits.

[email protected]
(Homepage)
Aim: To search for spinning neutron stars (also called pulsars). It also searches for radio pulsars in binary systems.
Supports AMD GPUs
Supports Nvidia GPUs
Supports intel iGPUs
Supports Android on ARM

[email protected]
(Homepage)
Aim: An effort to break 3 original Enigma messages with the help of distributed computing. The signals were intercepted in the North Atlantic in 1942 and are believed to be unbroken.
Supports AMD GPUs
Supports Nvidia GPUs
Supports Android on ARM

[email protected]
(Homepage)
Aim: The project uses Internet-connected computers to do research in discrete mathematics and logic control. The current goal: testing and comparison of heuristic methods for getting separations of parallel algorithms working in the CAD system for designing logic control systems.
Supports Nvidia GPUs

[email protected]
(Homepage)
Aim: This projects is working on various aspects of the Infinite Monkey Theorem.
Non-compute Intensive Tasks
Supports Android on ARM

• GPUGrid.net
(Homepage)
Aim: To deliver high-performance all-atom bio-molecular simulations.
Supports Nvidia GPUs

[email protected]
(Homepage)
Aim: To help physicists develop and exploit particle accelerators, such as CERN's Large Hadron Collider.
VirtualBox Required for Some Applications

[email protected]
(Homepage)
Aim: To create a highly accurate three dimensional model of the Milky Way galaxy using data gathered by the Sloan Digital Sky Survey.
Supports AMD GPUs
Supports Nvidia GPUs

[email protected] (Beta)
(Homepage)
Aim: Advancement of cognitive science by utilizing computational cognitive process modeling to better understands the human mind.

• Moo! Wrapper
(Homepage)
Aim: Moo! Wrapper brings together BOINC volunteer computing network resources and the Distributed.net projects. It allows a BOINC Client to participate in the RC5-72 challenge.
Supports AMD GPUs
Supports Nvidia GPUs
Supports Android on ARM

[email protected]
(Homepage)
Aim: To do the lattice sieving step in the Number Field Sieve factorization of large integers into prime numbers.

[email protected]
(Homepage)
Aim: Searches for fields with special properties that could lead to a deeper understanding of the profound properties of numbers.

• ODLK
(Homepage)
Aim: Mathematical project that is searching for Orthogonal Latin squares.

• ODLK1
(Homepage)
Aim: A continuation of the ODLK project.

• Primaboinca
(Homepage)
Aim: A research project that searches for a counterexample to some conjectures.

• PrimeGrid
(Homepage)
Aim: Prime numbers play a vital role in number theory and cryptography, and with a variety of Prime finding applications, PrimeGrid enables users to participate in the search for new primes.
Supports AMD GPUs
Supports Nvidia GPUs

• Quake-Catcher Network
(Homepage)
Aim: Develop the world's largest low-cost strong-motion seismic network by utilizing sensors in and attached to Internet-connected computers.
Supports Android on ARM
Requires Additional Hardware Sensor

[email protected]
(Homepage)
Aim: To create a free and constantly updated map of radiation available for all people, by gathering information about gamma radiation using sensors connected to volunteer's computers.
Requires Additional Hardware Sensor

• Rakesearch
(Homepage)
Aim: Mathematics project that searches for structures, that can be created by relationships of orthogonality between diagonal Latin squares of rank 9.

• RNA World (Beta)
(Homepage)
Aim: A distributed supercomputer used to advance RNA-related research.
VirtualBox Required

[email protected]
(Homepage)
Aim: To determine the 3-dimensional shapes of proteins in research that may ultimately lead to finding cures for some major human diseases such as HIV, Malaria, Cancer, and Alzheimer's.
Supports Android on ARM

[email protected]
(Homepage)
Aim: To detect intelligent life outside of Earth. One approach, known as radio SETI, uses radio telescopes to listen for narrow-bandwidth radio signals from space.
Supports AMD GPUs
Supports Nvidia GPUs
Supports intel iGPUs
Supports Android on ARM

[email protected] Beta
(Homepage)
Aim: Tests new applications and work units for the [email protected] project.
Supports AMD GPUs
Supports Nvidia GPUs
Supports intel iGPUs
Supports Android on ARM

• SRBase
(Homepage)
Aim: SRBase is a mathematical research project that uses Internet-connected computers to solve Sierpinski/Riesel Bases up to 1030. The project is in collabaration with the Mersenne CRUS project.

• TN-Grid
(Homepage)
Aim: This project is used as a platform for various scientific applications. The current application, [email protected], is studying GRN expansion on the plant Arabidopsis Thaliana.

[email protected]
(Homepage)
Aim: The main goal of the project is to create a database based on simulations of stars and galaxies from their inception to their evolutionary end. Database will serve as a source of information for astronomers, astrophysicists, and teachers.

• VGTU [email protected]
(Homepage)
Aim: Research in the field of cryptography. Current application is studying ehancements in visual cryptography.

• WEP-M+2 Project
(Homepage)
Aim: Research in number theory using the WEP algorithm to find Mersenneplustwo numbers.

• World Community Grid
(Homepage)
Aim: To create the world's largest public computing grid, made available only to public and not-for-profit organizations to use for humanitarian research.
Supports AMD GPUs
Supports Nvidia GPUs
Supports Android on ARM

[email protected]
(Homepage)
Aim: This project is collecting workunit properties of BOINC projects such as computation time, memory requirements, checkpointing interval or report limit, and then publish those results. The results are then placed in a database that can be searched to see the properties of various BOINC projects.
Non-compute Intensive Tasks
Supports Android on ARM

• XANSONS for COD
(Homepage)
Aim: To 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).
Supports AMD GPUs
Supports Nvidia GPUs
Supports intel iGPUs

• YAFU
(Homepage)
Aim: To test the latest BOINC server code, and also to factor numbers from the factordb in the range of 10-110.

[email protected]
(Homepage)
Aim: Currently running the following projects: number theory project searching for odd weird numbers, Elliptic Curve Factorization, simulating and designing parts of a particle accelerator, and others.
Supports Android on ARM


Intermittent - These projects frequently have long delays (up to several months) between the issuance of new work.

[email protected]*
(Homepage)
Aim: Have fun testing BOINC

[email protected]
(Homepage)
Aim: Official alpha test project for [email protected] to test new application versions, work units, and updates



On Hold - These projects are currently not issuing work, but plan to resume at some point in the future



Inactive - These projects are currently inactive, and there are either no plans for future work or the plans for future work are unknown.

• AlmereGrid Boinc Grid
Aim: Enables people and businesses knowing a helping hand by unused computing capacity for scientific range, this in turn.

• AlmereGrid Test Grid
Aim: Tests projects and BOINC versions for the AlmereGrid BOINC Grid.

• Anderson Attack
Aim: Implement the "Anderson Attck" on a A5/1 GSM stream cipher. The Anderson Attack is a brute-force used to extract a secret key.
Supports Nvidia GPUs

• Bitcoin Utopia
Aim: Bitcoin Utopia is a commercial platform for crowd-donations that uses Internet-connected computers to mine cryptocurrencies for incentive awards and science projects.
Supports Bitcoin ASIC Miners

[email protected]
Aim: The purpose of this project is to construct a chess winning position classifier (or score estimator) based on some simple features (e.g. the number of pieces of each kind, number of squares controlled by a given side, numbers of checks that you can give in a position and so on).

[email protected]
Aim: V2 of the [email protected] project. The project aims to use Cloud Computing, Volunteer Computing and Spatiotemporal technologies to provide a stable system for scientists to deploy, validate and run their models.
VirtualBox Required

• Constellation
Aim: Platform for research projects that use Internet-connected computers to do research in various aerospace related sciences and engineering

• Correlizer
Aim: Revealing the Mysteries of Genome Organization

• DistributedDataMining
Aim: Uses Internet-connected computers to perform research in the various fields of Data Analysis and Machine Learning.

• DistrRTgen
Aim: Improving the rainbow table technology, making them even smaller and faster than rainbow tables found elsewhere, and the best thing is, those tables are freely available to download from our site by anyone!
Supports AMD GPUs
Supports Nvidia GPUs

[email protected]
Aim: Putra Desktop Grid is the UPM implementation of a DesktopGrid network, consisting of computers at the UPM lab and local volunteers. The project is fully supported by the International Desktop Grid Federation (IDGF).

[email protected]
Aim: To model the behavior of leading compounds that could be developed into new medicines.

• Duchamp Sourcefinder
Aim: Project to test the performance of the Duchamp Sourcefinding application which is used in radio astronomy.

[email protected]
Aim: To support the execution of Integrator of Stochastic Differential Equations in Plasmas, and several other applications.

[email protected]
Aim: Using a "whole genome docking" approach to find new drugs to combat various diseases such as malaria and tuberculosis.

• Ibercivis
Aim: Ibercivis includes a growing number of research projects such as molceular simulation of confined fluids, simulation of quantum wires, simulation of magnetic systems, Docking, and fusion.

[email protected]
Aim: iGEM is an international student competition in Synthetic Biology. Volunteers will help to model the students ideas for new ways to implement artificial functions into organisms.

• The Lattice Project
Aim: The Lattice Project supplies computing power to scientists at the University of Maryland studying evolutionary relationships based on DNA sequence data; bacterial, plasmid, and virus protein sequences; and biological diversity in nature reserves.

• Leiden Classical
Aim: To enable scientists and science students to submit their own test simulations of various molecules and atoms in a classical mechanics environment.

• Malariacontrol.net
Aim: An application that makes use of network computing for stochastic modeling of the clinical epidemiology and natural history of malaria.

• Najmanovich Research Group
Aim: Research molecular recognition and computational biology.

[email protected]
Aim: Solve challenging large-scale optimization problems.

[email protected]
Aim: Using the Orbit Reconstruction, Simulation and Analysis framework to optimize the search strategies that are used to find Near-Earth objects.

[email protected]
Project cannot find a reliable hosting company. Currently the site is being redirected to a possibly malicious ad-ware site.

[email protected]e
Aim: To use distributed computers to search for potential plagiarism in Internet resources.

[email protected]
Aim: To predict the biologically active structure of proteins, understand the signal-processing mechanisms when the proteins interact with one another and understand diseases related to protein malfunction.

[email protected]
Aim: [email protected] offers multiple projects for their volunteers, the main project [email protected] is using quantum mechanics based approaches to aid in the development of computational drug design. With the Clean Mobility Now project, QMC allows users to help find safer alternatives for electric vehicle batteries.

• Renderfarm.fi*
Aim: To provide a free distributed rendering farm for complex 3d animations.

• Rioja Science
Aim: Studying the dynamics of gas phase chemical reactions. Results are hoped to be used in the development of new drugs to combat diseases like Hepatitis C.

[email protected]
Aim: Solve hard and practically important problems (such as discrete functions inversion problems, discrete optimization, bioinformatics, etc) that can be effectively reduced into Boolean Satisfiability problem.

[email protected]
Aim: Project focuses on the osmoprotection phenomenon. In molecular biology small molecules are able to protect proteins from environmental stresses. Understanding of this phenomenon could lead to advancements in agricultural productivity.

• theSkyNet POGS
Aim: Combine spectral coverage of GALEX, Pan-STARRS1, and WISE to generate a multi-wavelength UV-optical-NIR galaxy atlas for the nearby Universe.
Supports Android on ARM

[email protected]
Aim: Research in the field of materials science.

• Spatiotemporal Quality of Service
Aim: To perform distributed web service evaluation so that more accurate service quality information can be delivered to end users.

[email protected]
Aim: The research of nano-magnetic molecules. In the future, these molecules will be used in localized tumor chemotherapy and to develop tiny memory-modules.

[email protected]
Aim: This project is searching for symmetric tuples of consecutive primes.

• SZTAKI Desktop Grid
Aim: To serve as a platform for a variety of scientific research projects. The currently running project is locating as many large values of the zeta function as possible. Analyzing these values can then be used to reveal new behavior of the distribution of prime numbers.

• Virtual Prairie
Aim: There are 3 major steps: Elaborating an Individual-Based Model for simulating one plant, a prairie which can be considered as interactions of plant populations, and a coupling of the prairie model with a model simulating water nitrate or pesticides in the soil.

• Volpex
Aim: Researching effective parallel computing on multiple volatile nodes. The currently running application i [email protected]; which simulates how proteins behave in a real cell-like environment which can then be applied in biological drug design.
 

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GAH! I was working on doing the same thing, and I thought "watch someone else post one before I finish"..."I better check...". Sure enough....

Nice list though.
 

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Quote:

Originally Posted by kurt1288 View Post
GAH! I was working on doing the same thing, and I thought "watch someone else post one before I finish"..."I better check...". Sure enough....

Nice list though.
Sorry.


If I knew that, I would have gone and done a Folding guide instead.
 

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Cool; I'll add something for that too.
 

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Need to add MooWrapper! too, the new BOINC Distributed.net Client.
 

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[email protected] is running on a BOINC platform and requires a detector (designed by us) to be attached to the USB port and working. Currently there is no alternative for this detector. However all the information needed to build the detector are published on the site.
 
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