What is Albert@Home? Einstein@Home is a program that uses your computer's idle time to search for gravitational waves from spinning isolated compact objects (among which are pulsars) using data from the LIGO gravitational wave detector. Albert@Home
The objective of this work is to design a molecular generator capable of exploring known as well as unfamiliar areas of the chemical space.
Asteroids@home is a research project that uses Internet-connected computers to do research in Asteroids@home. You can participate by downloading and running a free program on your computer. Asteroids@Home
The main application running on CAS@home is the TreeThreader which predicts protein structure. After finishing a big campaign in Oct 2015, there have been sporadic TreeThreader jobs running on CAS@home which is around 200 sequences to predict every month. Currently, the TreeThreader application provides a public service FALCON to allow worldwide biologists submitting their protein sequences for structure prediction, and CAS@home is the backend computing platform for this public service. This service has just been open to the public, and it expects more biologists to use it in the near future with a recent publication. Apart from the jobs from FALCON, there will also be another campaign of TreeThreader between Feb and May 2016 to prepare for the CASP event . As usual, CAS@home appreciates all the support from its volunteers! CAS@Home
Cosmology@Home lets you volunteer your spare computer time (like when your screen saver is on) to help search for the model which best describes our Universe and to find the range of models that agree with available cosmological and particle physics data. Cosmology@Home
Einstein@Home is a program that uses your computer's idle time to search for gravitational waves from spinning isolated compact objects (among which are pulsars) using data from the LIGO gravitational wave detector. Einstein@Home
LHC@home This a research project that uses Internet-connected computers to advance Particle and Accelerator Physics. Participate by downloading and running a free program on your computer. By default, you can run the classic LHC@home application Sixtrack, for simulations of accelerator physics, and help researchers at CERN to improve the LHC. Other LHC@home simulations that have been running on the Virtual LHC@home BOINC project will also be available here, and join Sixtrack on the original LHC@home. LHC@home
Milkyway@Home uses the BOINC platform to harness volunteered computing resources, creating a highly accurate three dimensional model of the Milky Way galaxy using data gathered by the Sloan Digital Sky Survey. This project enables research in both astroinformatics and computer science. MilkyWay@Home
Universe@home project's two main goals are: to provide scientist with a necessary computational power and to provide the way of involvement for anyone equipped with a computer and willing to take part in the research Our simulations deal with fundamental problems of the Universe, which cannot be investigated in a laboratory. From the birth of stars to the utmost energetic supernova explosions, nature still astonishes us but at the same time leaves ways for scientific examination. Universe@Home
