Open-source software platform for computing using volunteered resources
Volunteer or grid computing are two ways to share computer resources with others in order to help work on a bigger project. These often have to do with research, on topics like medicine or the environment.
BOINC is an open source application with which you can connect to a number of projects and share your computer’s resources. At BOINC’s startup, it will display a list of all the projects you can participate in.Select one or simply type in the url if it isn’t included. Afterwards, I’d suggest looking into the preferences to set BOINC to use your computer only when it is idle, such as overnight.Don’t forget to leave it connected to the Internet though. There’s three different views to choose from in BOINC, with the advanced one divided in tabs.This will give you all the statistics on projects, messages, transfers and disk usage information. The best view in BOINC is probably the graphical one, which shows the frequency live in a multicolored wave form and data in a bar graph.
Overall, BOINC is easy to use, even if you don’t have particular knowledge on volunteer computing. The only thing to watch is that the application doesn’t use up too much of your resources, or to only launch it when it’s inactive.
A nice way of sharing your computer’s resources for the greater good, BOINC is easy to set up and provide lots of useful statistics.
Provided a way to download sites that provide a login page.Added code to manage HTTP cookies.Added the ability to read poorly encoded HTML files.Included params and query strings in file names.Automatically appended an “html” extension, if necessary, when files are localized.Fixed numerous bugs.
Changes
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Provided a way to download sites that provide a login page.Added code to manage HTTP cookies.Added the ability to read poorly encoded HTML files.Included params and query strings in file names.Automatically appended an “html” extension, if necessary, when files are localized.Fixed numerous bugs.
BOINC lets you donate computing power to scientific research projects such as:
Climateprediction. net and BBC Climate Change Experiment
Study climate change
Einstein@home
Search for gravitational signals emitted by pulsars.
LHC@home
improve the design of the CERN LHC particle accelerator
Predictor@home
Investigate protein-related diseases
Rosetta@home
Help researchers develop cures for human diseases
SETI@home
Look for radio evidence of extraterrestrial life
SIMAP
Calculate protein similarity data for use by many biological research projects
SZTAKI Desktop Grid
Search for generalized binary number systems
World Community Grid
Advance our knowledge of human disease (requires 5.