World Community Grid
Two million devices took a second job in humanitarian research. Now we're a billion results closer to solving the world's problems.
Computers, smartphones and tablets, like human brains, typically operate at only a fraction of their capacity. Through World Community Grid, volunteers can put their devices’ downtime to use by powering critical research on health, poverty and sustainability.
Cutting-edge techniques enable scientists to conduct computer-based experiments that significantly accelerate research. On World Community Grid, volunteers donate the idle time of their computing devices to allow researchers to tackle ambitious projects that previously were unfeasible.
To join, you install free, safe software on your computer, smartphone or tablet. When your device is idle, the software program works on a scientific calculation and sends the results back to the researchers.
Put your spare computing power to work for humanitarian causes.
Improving the odds for cancer patients
Despite advances in cancer care, cancer continues to be one of the leading causes of death worldwide. And early and accurate detection saves lives.
Cancer comes in many forms and is caused by genetic and environmental changes that interfere with regular cell growth. These changes can be detected by the presence of unique chemical indicators, or "markers."
World Community Grid’s newest project, Mapping Cancer Markers aims to identify chemical markers associated with various types of cancer. This will help researchers detect cancer earlier and design more personalised cancer care by determining an individual's susceptibility to developing cancer and suggest the best treatment for that individual.
Supercharging solar energy research
The field of solar energy shows potential, but it hasn't reached the cost-competitiveness of traditional sources of power. In the search for cheaper, more efficient solar energy materials, promising molecules could be synthesized in the lab, one at a time. Or thousands can be screened simultaneously using grid computing.
In just three years, more than 90,000 World Community Grid volunteers have helped Harvard University’s Clean Energy Project screen 2.3 million organic compounds as candidates for solar energy materials. This includes about 36,000 compounds with the potential to perform at twice the efficiency of most current organic solar cells in production. This effort is believed to be the most extensive investigation of quantum chemicals ever performed.
Transforming the world through volunteer computing