Enigma@Home
Enigma@Home is a wrapper between BOINC and Stefan Krah's M4 Project. The M4 Project is 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.
BURP
BURP aims to develop a publicly distributed system for rendering 3D animations.
BRaTS@Home
BRaTS@Home is a research project that uses Internet-connected computers to do various calculations in Gravitational Ray Tracing. BRaTS stands for BRaTS Ray Trace Simulator.
World Community Grid - Home
Exciting work is now under way on projects that hold tremendous potential to benefit humanity.
AfricanClimate@Home, discovering Dengue Drugs
Human Proteome Folding
FightAIDS@Home Project
PrimeGrid
Prime Numbers are of great interest to mathematicians for a variety of reasons. Primes also play a central role in the cryptographic systems which are used for computer security. Through the study of Prime Numbers it can be shown how much processing is required to crack an encryption code and thus to determine whether current security schemes are sufficiently secure.
Superlink@Technion
Superlink@Technion helps geneticists all over the world find disease-provoking genes causing some types of diabetes, hypertension (high blood pressure), cancer, schizophrenia and many others.
TANPAKU
TANPAKU is a Japanese project, aiming to predict protein structures with the help of your computational resources.
Neuron
This project aims to provide a trial BOINC environment in which a set of dummy applications will run. The purpose of this being to record, observe and understand BOINC activity and data with a view to developing metrics that will establish or otherwise the quality/reliability/dependability of particular BOINC projects.
Spinhenge@home
Spinhenge@home utilizes the available resources of computers. It is for scientific calculations of nano magnetic molecules.
malariacontrol.net
The malariacontrol.net project is an application that makes use of network computing for stochastic modelling of the clinical epidemiology and natural history of Plasmodium falciparum malaria.
Leiden Classical
Join in and help to build a Desktop Computer Grid dedicated to general Classical Dynamics for any scientist or science student!
RieselSieve
Riesel Sieve is a distributed effort to prove the Riesel conjecture by removing prime candidates for the remaining 68 K from over 11 million k/n pairs.
Seasonal Attribution Project
Recent extreme weather events have prompted the debate about effects of human activity on the world's climate. We invite you to download and run high-resolution model simulations of the world's climate on your own computer. By comparing the results of these simulations, half of which will include the effects of human-induced climate change, and half of which will not, we will investigate the possible impact of human activity on extreme weather risk.
Getting help with BOINC
BOINC Online Help lets you talk one-on-one with experienced BOINC users, who can:
- answer questions about BOINC and volunteer computing;
- walk you through the process of installing and using BOINC;
- troubleshoot any problems you might have.
BOINC Online Help is based on Skype, an Internet-based telephone system. Skype is free (both the software and the calls).
PS3GRID
PS3GRID is a volunteer computing project based on the PlayStation3 and BOINC for full-atom molecular dynamics simulations and other scientific applications specially optimized for the Cell processor in your PlayStation3.
SZTAKI Desktop Grid
SZTAKI Desktop Grid currently searches for generalized binary number systems.
uFluids
μFluids project is a massively distributed computer simulation of two-phase fluid behavior in microgravity and microfluidics problems. Our goal is to design better satellite propellant management devices and address two-phase flow in microchannel and MEMS devices.
BOINCstats
BOINCstats: detailed user, host, team and country statistics for BOINC and all associated projects. BAM!: BOINC Account Manager.
QMC@HOME
Quantum Monte Carlo At Home (QMC@HOME) is a project designed to further develop the Quantum Monte Carlo method for general use in Quantum Chemistry.
NanoHive@Home
The goal of NanoHive@Home is to perform large-scale nanosystems simulation and analysis that is otherwise too intensive to be calculated via normal means, and thereby enable further scientific study in the field of nanotechnology.
Other links in this category
BOINC.BE Forums
Come talk to BOINC.BE members. We have many experienced people, who can help out with questions about BOINC or about software and hardware in general.
Seti@Home optimized science apps
Here you can download platform specific optinized versions of the Seti@Home optimized science apps.
Getting help with BOINC
BOINC Online Help lets you talk one-on-one with experienced BOINC users, who can:
- answer questions about BOINC and volunteer computing;
- walk you through the process of installing and using BOINC;
- troubleshoot any problems you might have.
BOINC Online Help is based on Skype, an Internet-based telephone system. Skype is free (both the software and the calls).
The Unofficial BOINC Wiki
This Wiki is designed to be a central repository for information about the BOINC System and BOINC Powered Projects. This covers all levels information from help for a novice Participant wanting to get started, to developers for a BOINC Powered Project, and even the BOINC Developers.
LinkToSpace is a part of the dutch Spacepage website. LinkToSpace is founded by Kris Christiaens in 2005 and contains many links to astronomy related websites. The website should be a guide for the people who are looking for good astronomic or spaceflight information with the possibilities for the user to give feedback on those websites.
