Volunteer computing is a type of distributed computing, "an arrangement in which people, so-called volunteers, provide computing resources to projects, which use the resources to do distributed computing and/or storage". Thus, computer owners or users donate their computing resources (such as processing power and storage) to one or more "projects".
Volunteers are frequently members of the general public in the possession of their own personal computers with a Internet connection, but also organizations can act as volunteers and provide their computing resources.
Projects in this context are mostly science-related projects executed by universities or academia in general.
Video Volunteer computing
History
The first volunteer computing project was the Great Internet Mersenne Prime Search, which was started in January 1996. It was followed in 1997 by distributed.net. In 1997 and 1998, several academic research projects developed Java-based systems for volunteer computing; examples include Bayanihan, Popcorn, Superweb, and Charlotte.
The term volunteer computing was coined by Luis F. G. Sarmenta, the developer of Bayanihan. It is also appealing for global efforts on social responsibility, or Corporate Social Responsibility as reported in a Harvard Business Review or used in the Responsible IT forum.
In 1999, the SETI@home and Folding@home projects were launched. These projects received considerable media coverage, and each one attracted several hundred thousand volunteers.
Between 1998 and 2002, several companies were formed with business models involving volunteer computing. Examples include Popular Power, Porivo, Entropia, and United Devices.
In 2002, the Berkeley Open Infrastructure for Network Computing (BOINC) project was founded at University of California, Berkeley Space Sciences Laboratory, funded by the National Science Foundation. BOINC provides a complete middleware system for volunteer computing, including a client, client GUI, application runtime system, server software, and software implementing a project web site. The first project based on BOINC was Predictor@home, based at the Scripps Research Institute, which began operation in 2004. Soon thereafter, SETI@home and ClimatePrediction.net began using BOINC. A number of new BOINC-based projects were created over the next few years, including Rosetta@home, Einstein@home, and AQUA@home. In 2007, IBM World Community Grid switched from the United Devices platform to BOINC.
Maps Volunteer computing
Middleware
The client software of the early volunteer computing projects consisted of a single program that combined the scientific computation and the distributed computing infrastructure. This monolithic architecture was inflexible. For example, it was difficult to deploy new application versions.
More recently, volunteer computing has moved to middleware systems that provide a distributed computing infrastructure independent from the scientific computation. Examples include:
- The Berkeley Open Infrastructure for Network Computing (BOINC) is the most widely used middleware system. It offers client software for Windows, Mac OS X, Linux, Android, and other Unix variants.
- XtremWeb is used primarily as a research tool. It is developed by a group based at the University of Paris-South.
- Xgrid is developed by Apple. Its client and server components run only on Mac OS X.
- Grid MP is a commercial middleware platform developed by United Devices and was used in volunteer computing projects including grid.org, World Community Grid, Cell Computing, and Hikari Grid.
Most of these systems have the same basic structure: a client program runs on the volunteer's computer. It periodically contacts project-operated servers over the Internet, requesting jobs and reporting the results of completed jobs. This "pull" model is necessary because many volunteer computers are behind firewalls that do not allow incoming connections. The system keeps track of each user's "credit", a numerical measure of how much work that user's computers have done for the project.
Volunteer computing systems must deal with several issues involving volunteered computers: their heterogeneity, their churn (the tendency of individual computers to join and leave the network over time), their sporadic availability, and the need to not interfere with their performance during regular use.
In addition, volunteer computing systems must deal with problems related to correctness:
- Volunteers are unaccountable and essentially anonymous.
- Some volunteer computers (especially those that are overclocked) occasionally malfunction and return incorrect results.
- Some volunteers intentionally return incorrect results or claim excessive credit for results.
One common approach to these problems is replicated computing, in which each job is performed on at least two computers. The results (and the corresponding credit) are accepted only if they agree sufficiently.
Drawbacks for participants
- Increased power consumption: A CPU generally uses more electricity when it is active compared to when it is idle. Additionally, the desire to participate may cause the volunteer to leave the PC on overnight or disable power-saving features like suspend. Furthermore, if the computer cannot cool itself adequately, the added load on the volunteer's CPU can cause it to overheat.
- Decreased performance of the PC: If the volunteer computing application runs while the computer is in use, it may impact performance of the PC. This is due to increased usage of the CPU, CPU cache, local storage, and network connection. If RAM is a limitation, increased disk cache misses and/or increased paging can result. Volunteer computing applications typically execute at a lower CPU scheduling priority, which helps to alleviate CPU contention.
These effects may or may not be noticeable, and even if they are noticeable, the volunteer might choose to continue participating. However, the increased power consumption can be remedied to some extent by setting an option to limit the percentage of the processor used by the client, which is available in some client software.
Benefits for participants
- Volunteer computing can provide researchers with computing power that is not achievable any other way. Approximately 10 petaflops of computing power are available from volunteer computing networks.
- Volunteer computing is often cheaper than other forms of distributed computing.
Importance
Although there are issues such as lack of accountability and trust between participants and researchers while implementing the projects, volunteer computing is crucially important, especially to projects that have limited funding.
- Since there are more than one billion PCs in the world, volunteer computing can supply more computing power to researches, that doesn't have the required competencies regarding the computing power, on any kind of topic; such as academic (university-based) or scientific researches. Also, advancements in the technology will provide the advancements in consumer products such as PCs and game consoles happen faster than any other specialized products which will increase the number of PCs and computing power in the world consequently.
- Supercomputers that have huge computing power are extremely expensive and are available only to some applications only if they can afford it. Whereas volunteer computing is not something that can be bought, its power arises from the public support. A research project that has limited sources and funding can get huge computing power by attracting public attention.
- By volunteering and providing support and computing power to the researches on topics such as science, citizens are encouraged to be interested in science and also citizens are allowed to have a voice in directions of scientific researches and eventually the future science by providing support or not to the researches.
See also
- Citizen science
- Cloud computing
- List of distributed computing projects
- Peer-to-peer
- Swarm intelligence
- Virtual volunteering
- BOINC
References
External links
- Wanted: Your computer's spare time Physics.org, September 2009
- The Strongest Supercomputer on Earth Still Needs Your Laptop to Cure Cancer Inverse.com, December 2015
Source of the article : Wikipedia
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