Human Proteome Folding (grid.org)
The Human Proteome Folding Project analyzes sequence data from the Human Genome to predict how the proteins coded there are likely to function. Since proteins directly affect human health and are key targets in developing disease treatments, understanding their structure and function is critical. At present only a fraction of human protein structures are known – this project seeks to dramatically increase that number and make the data available to scientists for further study by the end of 2005.
http://www.grid.org/projects/hpf/
Rosetta@home (soft: BOINC)
Calcul sur le repliement des protéines.
Rosetta@home needs your help to determine the 3-dimensional shapes of proteins in research that may ultimately lead to finding cures for some major human diseases. By running the Rosetta program on your computer while you don't need it you will help us speed up and extend our research in ways we couldn't possibly attempt without your help. You will also be helping our efforts at designing new proteins to fight diseases such as HIV, Malaria, Cancer, and Alzheimer's.
http://boinc.bakerlab.org/rosetta/
Cancer Research Project (grid.org)
The research centers on proteins that have been determined to be a possible target for cancer therapy. Through a process called “virtual screening”, special analysis software will identify molecules that interact with these proteins, and will determine which of the molecular candidates has a high likelihood of being developed into a drug. The process is similar to finding the right key to open a special lock — by looking at millions upon millions of molecular keys.
http://www.grid.org/projects/cancer/
RC5-72 (www.distributed.net)
Après qu'avec succès accompli RC5-56 et RC5-64, nous travaillons maintenant à la variante 72-bit de cet algorithme de chiffrage! Plus d'information est disponible à la page du projet RC5. \
http://www.distributed.net/
Les Règles de Golomb Optimales (www.distributed.net)
Le projet OGR-24 a démarré le 15 février 2000. Nous cherchons la plus courte règle de Golomb de longueur 24. En mathématiques, le terme “Règle de Golomb” se rapporte à un ensemble d'entiers positifs tels qu'aucune paire de points distincts de cet ensemble n'ait la même différence.
http://www.distributed.net/
SZTAKI (soft: BOINC)
Calculs mathématiques sur les nombres. Résolution d'équations complexes.
http://szdg.lpds.sztaki.hu/szdg/
ClimatePrediction (soft: BOINC)
Climateprediction.net est la plus grande expérience qui essaye de prédire les changements clmatique du 21ème siècle.
Climate change, and our response to it, are issues of global importance, affecting food production, water resources, ecosystems, energy demand, insurance costs and much else. There is a broad scientific consensus that the Earth is likely to warm over the coming century, but estimates of how much vary hugely. By taking part in the climateprediction.net experiment you can help to improve scientific forecasts of 21st century climate.
utilisation ram : 50 Mo.
http://www.climateprediction.net/
http://www.boinc.dk/index.php?page=project_climateprediction
LHC@home (soft: BOINC)
The Large Hadron Collider (LHC) [Grand Collisionneur Hadronique] est un accélérateur de particules qui est en cours de construction au CERN (Centre Européen de Recherche Nucléaire), le plus grand laboratoire au monde dans la Physique des Particules. A sa mise en service en 2007, ce sera le plus puissant instrument jamais construit pour analyser les propriétés des particules.
utilisation ram : 45 Mo.
http://lhcathome.cern.ch/
Predictor@home (soft: BOINC)
Le projet Predictor@home utilise BOINC afin de pouvoir prédire le repliement et la structure des protéines à partir de la séquence protéique.
utilisation RAM 45 Mo maxi.
http://predictor.scripps.edu/
Einstein@Home (soft: BOINC)
Einstein@Home, un projet de l'année mondiale de la Physique, va rechercher des pulsars (étoiles à neutrons à rotation rapide ) à partir de l'observatoire d'ondes gravitationelles par interferometrie laser (LIGO).
utilisation RAM (8Mo).
http://einstein.phys.uwm.edu/
SETI@home (soft: BOINC)
SETI (Search for Extraterrestrial Intelligence) is a scientific area whose goal is to detect intelligent life outside Earth. One approach, known as radio SETI, uses radio telescopes to listen for narrow-bandwidth radio signals from space. Such signals are not known to occur naturally, so a detection would provide evidence of extraterrestrial technology.
http://setiathome.berkeley.edu/
http://www.boinc.dk/index.php?page=project_setiathome
Astropulse (soft: BOINC)
This project will re-examine the existing SETI@home data tapes for a new type of signal radio pulses that only last for a microsecond. This type of signal is different from those which would be caught by SETI@home.
http://maggie.ssl.berkeley.edu/ap/
http://www.boinc.dk/index.php?page=project_astropulse
Others Projects (BOINC platform ?) :
Setup:
create an account: http://boinc.berkeley.edu/dev/dev_create_account_form.php
téléchargement: http://boinc.ssl.berkeley.edu/download.php
get account key gor Rosetta: http://boinc.bakerlab.org/rosetta/get_passwd.php
Autre:
account manager: http://boinc.ssl.berkeley.edu/acct_mgrs.php