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SETI@home was released to the public on May 17, 1999,<ref>{{cite web |url=https://science.nasa.gov/newhome/headlines/ast23may99_1.htm |publisher=] |title=ET, phone SETI@home! |author=Dr. Tony Phillips |date=May 23, 1999 |access-date=6 October 2006 |url-status=dead |archive-url=https://web.archive.org/web/20061001170505/http://science.nasa.gov//newhome/headlines/ast23may99_1.htm |archive-date=October 1, 2006 }}</ref><ref>{{Cite APOD |title=How to Search for Aliens |date=May 17, 1999 |access-date=6 October 2006}}</ref><ref>{{cite web |url=http://setiathome.berkeley.edu/classic.php |title=SETI@home Classic: In Memoriam |date=December 15, 2005 |accessdate=6 October 2006}}</ref><ref>https://web.archive.org/web/20000815053637/http://www.nettalklive.com/seti/</ref> making it the third large-scale use of ] over the Internet for research purposes, after ] (GIMPS) was launched in 1996 and ] in 1997. Along with ] and ], it is the third major computing project of this type that has the investigation of phenomena in interstellar space as its primary purpose. SETI@home was released to the public on May 17, 1999,<ref>{{cite web |url=https://science.nasa.gov/newhome/headlines/ast23may99_1.htm |publisher=] |title=ET, phone SETI@home! |author=Dr. Tony Phillips |date=May 23, 1999 |access-date=6 October 2006 |url-status=dead |archive-url=https://web.archive.org/web/20061001170505/http://science.nasa.gov//newhome/headlines/ast23may99_1.htm |archive-date=October 1, 2006 }}</ref><ref>{{Cite APOD |title=How to Search for Aliens |date=May 17, 1999 |access-date=6 October 2006}}</ref><ref>{{cite web |url=http://setiathome.berkeley.edu/classic.php |title=SETI@home Classic: In Memoriam |date=December 15, 2005 |accessdate=6 October 2006}}</ref><ref>https://web.archive.org/web/20000815053637/http://www.nettalklive.com/seti/</ref> making it the third large-scale use of ] over the Internet for research purposes, after ] (GIMPS) was launched in 1996 and ] in 1997. Along with ] and ], it is the third major computing project of this type that has the investigation of phenomena in interstellar space as its primary purpose.
On March 31 2020, the project will stop sending out new work to SETI@home users, bringing this particular SETI effort to an end.
The SETI team has stated that new ways for the public to contribute to SETI will become available.


==Scientific research== ==Scientific research==

Revision as of 07:45, 4 March 2020

This article needs to be updated. Please help update this article to reflect recent events or newly available information. (January 2019)

SETI@home
File:SETI@Home Logo.svg
Developer(s)University of California, Berkeley
Initial releaseMay 17, 1999 (1999-05-17)
Stable releaseSETI@home v8:8.00 / December 30, 2015; 8 years ago (2015-12-30)

SETI@home v8 for NVIDIA and AMD/ATi GPU Card:8.12/
May 19, 2016; 8 years ago (2016-05-19)
AstroPulse v7:7.00/
October 7, 2014; 10 years ago (2014-10-07)

AstroPulse v7 for nVidia and AMD/ATi GPU Card:7.10/
April 23, 2015; 9 years ago (2015-04-23)
Development statusOnline
Project goal(s)Discovery of radio evidence of extraterrestrial life
FundingPublic funding and private donations
Operating systemMicrosoft Windows, Linux, Android, macOS, Solaris,
IBM AIX, FreeBSD, DragonflyBSD, OpenBSD, NetBSD, HP-UX, IRIX, Tru64 Unix, OS/2 Warp, eComStation
PlatformCross-platform
TypeVolunteer computing
LicenseGPL
Active usersDecrease 103,480 (January 2018)
Total usersIncrease 1,716,012 (January 2018)
WebsiteSETI@home

SETI@home ("SETI at home") is an Internet-based public volunteer computing project employing the BOINC software platform created by the Berkeley SETI Research Center and is hosted by the Space Sciences Laboratory, at the University of California, Berkeley. Its purpose is to analyze radio signals, searching for signs of extraterrestrial intelligence, and as such is one of many activities undertaken as part of the worldwide SETI effort.

SETI@home was released to the public on May 17, 1999, making it the third large-scale use of distributed computing over the Internet for research purposes, after Great Internet Mersenne Prime Search (GIMPS) was launched in 1996 and distributed.net in 1997. Along with MilkyWay@home and Einstein@home, it is the third major computing project of this type that has the investigation of phenomena in interstellar space as its primary purpose. On March 31 2020, the project will stop sending out new work to SETI@home users, bringing this particular SETI effort to an end. The SETI team has stated that new ways for the public to contribute to SETI will become available.

Scientific research

The two original goals of SETI@home were:

  • to do useful scientific work by supporting an observational analysis to detect intelligent life outside Earth
  • to prove the viability and practicality of the "volunteer computing" concept

The second of these goals is considered to have succeeded completely. The current BOINC environment, a development of the original SETI@home, is providing support for many computationally intensive projects in a wide range of disciplines.

The first of these goals has to date yielded no conclusive results: no evidence for ETI signals has been shown via SETI@home. However, the ongoing continuation is predicated on the assumption that the observational analysis is not "ill-posed." The remainder of this article deals specifically with the original SETI@home observations/analysis. The vast majority of the sky (over 98%) has yet to be surveyed, and each point in the sky must be surveyed many times to exclude even a subset of possibilities.

Procedure details

SETI@home searches for possible evidence of radio transmissions from extraterrestrial intelligence using observational data from the Arecibo radio telescope and the Green Bank Telescope. The data is taken "piggyback" or "passively" while the telescope is used for other scientific programs. The data is digitized, stored, and sent to the SETI@home facility. The data are then parsed into small chunks in frequency and time, and analyzed, using software, to search for any signals—that is, variations which cannot be ascribed to noise, and hence contain information. Using distributed computing, SETI@home sends the millions of chunks of data to be analyzed off-site by home computers, and then have those computers report the results. Thus what appears a difficult problem in data analysis is reduced to a reasonable one by aid from a large, Internet-based community of borrowed computer resources.

The software searches for five types of signals that distinguish them from noise:

  • Spikes in power spectra
  • Gaussian rises and falls in transmission power, possibly representing the telescope beam's main lobe passing over a radio source
  • Triplets – three power spikes in a row
  • Pulsing signals that possibly represent a narrowband digital-style transmission
  • Autocorrelation detects signal waveforms.

There are many variations on how an ETI signal may be affected by the interstellar medium, and by the relative motion of its origin compared to Earth. The potential "signal" is thus processed in many ways (although not testing all detection methods nor scenarios) to ensure the highest likelihood of distinguishing it from the scintillating noise already present in all directions of outer space. For instance, another planet is very likely to be moving at a speed and acceleration with respect to Earth, and that will shift the frequency, over time, of the potential "signal." Checking for this through processing is done, to an extent, in the SETI@home software.

The process is somewhat like tuning a radio to various channels, and looking at the signal strength meter. If the strength of the signal goes up, that gets attention. More technically, it involves a lot of digital signal processing, mostly discrete Fourier transforms at various chirp rates and durations.

Results

To date, the project has not confirmed the detection of any ETI signals. However, it has identified several candidate targets (sky positions), where the spike in intensity is not easily explained as noisespots, for further analysis. The most significant candidate signal to date was announced on September 1, 2004, named Radio source SHGb02+14a.

While the project has not reached the stated primary goal of finding extraterrestrial intelligence, it has proved to the scientific community that distributed computing projects using Internet-connected computers can succeed as a viable analysis tool, and even beat the largest supercomputers. However, it has not been demonstrated that the order of magnitude excess in computers used, many outside the home (the original intent was to use 50,000–100,000 "home" computers), has benefited the project scientifically. (For more on this, see § Challenges to the project below.)

Astronomer Seth Shostak stated in 2004 that he expects to get a conclusive signal and proof of alien contact between 2020 and 2025, based on the Drake equation. This implies that a prolonged effort may benefit SETI@home, despite its (present) twenty-year run without success in ETI detection.

Technology

Anybody with an at least intermittently Internet-connected computer can participate in SETI@home by running a free program that downloads and analyzes radio telescope data.

Observational data are recorded on 2-terabyte SATA hard disk drives at the Arecibo Observatory in Puerto Rico, each holding about 2.5 days of observations, which are then sent to Berkeley. Arecibo does not have a broadband Internet connection, so data must go by postal mail to Berkeley. Once there, it is divided in both time and frequency domains work units of 107 seconds of data, or approximately 0.35 megabytes (350 kilobytes or 350,000 bytes), which overlap in time but not in frequency. These work units are then sent from the SETI@home server over the Internet to personal computers around the world to analyze.

The analysis software can search for signals with about one-tenth the strength of those sought in previous surveys, because it makes use of a computationally-intensive algorithm called coherent integration that no one else has had the computing power to implement.

Data is merged into a database using SETI@home computers in Berkeley. Interference is rejected, and various pattern-detection algorithms are applied to search for the most interesting signals.

The project uses CUDA for GPU processing since 2015.

Since 2016, the project has also been helping to process data from the Breakthrough Listen project which has been recorded at Green Bank Telescope.

Software

The BOINC Manager working on the SETI@home project (v 7.6.22)
Screenshot of SETI@home Enhanced BOINC Screensaver (v6.03)
Screenshot of SETI@home Classic Screensaver (v3.07)

The SETI@home distributed computing software runs either as a screensaver or continuously while a user works, making use of processor time that would otherwise be unused.

The initial software platform, now referred to as "SETI@home Classic," ran from May 17, 1999, to December 15, 2005. This program was only capable of running SETI@home; it was replaced by Berkeley Open Infrastructure for Network Computing (BOINC), which also allows users to contribute to other distributed computing projects at the same time as running SETI@home. The BOINC platform will also allow testing for more types of signals.

The discontinuation of the SETI@home Classic platform has rendered older Macintosh computers running the classic Mac OS unsuitable for participating in the project.

SETI@home is available for the Sony PlayStation 3 console.

On May 3, 2006, new work units for a new version of SETI@home called "SETI@home Enhanced" started distribution. Since computers now have the power for more computationally intensive work than when the project began, this new version is more sensitive by a factor of two concerning Gaussian signals and to some kinds of pulsed signals than the original SETI@home (BOINC) software. This new application has been optimized to the point where it will run faster on some work units than earlier versions. However, some work units (the best work units, scientifically speaking) will take significantly longer.

In addition, some distributions of the SETI@home applications have been optimized for a particular type of CPU. They are referred to as "optimized executables" and have been found to run faster on systems specific for that CPU. As of 2007, most of these applications were optimized for Intel processors and their corresponding instruction sets.

The results of the data processing are normally automatically transmitted when the computer is next connected to the Internet; it can also be instructed to connect to the Internet as needed.

Statistics

With over 5.2 million participants worldwide, the project is the distributed computing project with the most participants to date. The original intent of SETI@home was to utilize 50,000–100,000 home computers. Since its launch on May 17, 1999, the project has logged over two million years of aggregate computing time. On September 26, 2001, SETI@home had performed a total of 10 floating point operations. It was acknowledged by the 2008 edition of the Guinness World Records as the largest computation in history. With over 145,000 active computers in the system (1.4 million total) in 233 countries, as of 23 June 2013, SETI@home had the ability to compute over 668 teraFLOPS. For comparison, the Tianhe-2 computer, which as of 23 June 2013 was the world's fastest supercomputer, was able to compute 33.86 petaFLOPS (approximately 50 times greater).

Project future

There were plans to get data from the Parkes Observatory in Australia to analyze the southern hemisphere. However, as of 3 June 2018, these plans were not mentioned in the project's website. Other plans include a Multi-Beam Data Recorder, a Near Time Persistency Checker and Astropulse (an application that uses coherent dedispersion to search for pulsed signals). Astropulse will team with the original SETI@home to detect other sources, such as rapidly rotating pulsars, exploding primordial black holes, or as-yet unknown astrophysical phenomena. Beta testing of the final public release version of Astropulse was completed in July 2008, and the distribution of work units to higher spec machines capable of processing the more CPU intensive work units started in mid-July 2008.

Competitive aspect

SETI@home users quickly started to compete with one another to process the maximum number of work units. Teams were formed to combine the efforts of individual users. The competition continued and grew larger with the introduction of BOINC.

As with any competition, attempts have been made to "cheat" the system and claim credit for work that has not been performed. To combat cheats, the SETI@home system sends every work unit to multiple computers, a value known as "initial replication" (currently 2). Credit is only granted for each returned work unit once a minimum number of results have been returned and the results agree, a value known as "minimum quorum" (currently 2). If, due to computation errors or cheating by submitting false data, not enough results agree, more identical work units are sent out until the minimum quorum can be reached. The final credit granted to all machines which returned the correct result is the same and is the lowest of the values claimed by each machine.

Some users have installed and run SETI@home on computers at their workplaces – an act known as "Borging", after the assimilation-driven Borg of Star Trek. In some cases, SETI@home users have misused company resources to gain work-unit results – with at least two individuals getting fired for running SETI@home on an enterprise production system. There is a thread in the newsgroup alt.sci.seti which bears the title "Anyone fired for SETI screensaver" and ran starting as early as September 14, 1999.

Other users collect large quantities of equipment together at home to create "SETI farms", which typically consist of a number of computers consisting of only a motherboard, CPU, RAM and power supply that are arranged on shelves as diskless workstations running either Linux or old versions of Microsoft Windows "headless" (without a monitor).

Challenges to the project

There are other challenges to the project's future viability. As in any project of prolonged duration, various factors may result in its termination. Some of these are detailed below:

Potential closure of Arecibo Observatory

At present, SETI@home procures its data from the Arecibo Observatory facility operated by the National Astronomy and Ionosphere Center and administered by SRI International.

The decreasing operating budget for the observatory has created a shortfall of funds which has not been made up from other sources such as private donors, NASA, other foreign research institutions, nor private non-profit organizations such as SETI@home.

However, in the overall longterm views held by many involved with the SETI project, any usable radio telescope could take over from Arecibo, as all the SETI systems are portable and relocatable.

Alternative distributed computing projects

When the project launched, there were few alternative ways of donating computer time to research projects. However, there are now many other projects that are competing for such time.

More restrictive computer use policies in businesses

In one documented case, an individual was fired for explicitly importing and using the SETI@home software on computers used for the U.S. state of Ohio. In another incident a school IT director resigned after his installation allegedly cost his school district $1 million in removal costs; however, other reasons for this firing included lack of communication with his superiors, not installing firewall software and alleged theft of computer equipment, leading a ZDNet editor to comment that "the distributed computing nonsense was simply the best and most obvious excuse the district had to terminate his contract with cause".

As of 16 October 2005, approximately one-third of the processing for the non-BOINC version of the software was performed on work or school based machines. As many of these computers will give reduced privileges to ordinary users, it is possible that much of this has been done by network administrators.

To some extent, this may be offset by better connectivity to home machines and increasing performance of home computers, especially those with GPUs, which have also benefited other distributed computing projects such as Folding@Home. The spread of mobile computing devices provides another large resource for distributed computing. For example, in 2012, Piotr Luszczek (a former doctoral student of Jack Dongarra), presented results showing that an iPad 2 matched the historical performance of a Cray-2 (the fastest computer in the world in 1985) on an embedded LINPACK benchmark.

Funding

There is currently no government funding for SETI research, and private funding is always limited. Berkeley Space Science Lab has found ways of working with small budgets, and the project has received donations allowing it to go well beyond its original planned duration, but it still has to compete for limited funds with other SETI projects and other space sciences projects.

In a December 16, 2007 plea for donations, SETI@home stated its present modest state and urged donations of $476,000 needed for continuation into 2008.

Unofficial clients

A number of individuals and companies made unofficial changes to the distributed part of the software to try to produce faster results, but this compromised the integrity of all the results. As a result, the software had to be updated to make it easier to detect such changes, and discover unreliable clients. BOINC will run on unofficial clients; however, clients that return different and therefore incorrect data are not allowed, so corrupting the result database is avoided. BOINC relies on cross-checking to validate data but unreliable clients need to be identified, to avoid situations when two of these report the same invalid data and therefore corrupt the database. A very popular unofficial client (lunatic) allows users to take advantage of the special features provided by their processor(s) such as SSE, SSE2, SSE3, SSSE3, SSE4.1, and AVX to allow for faster processing.

Hardware and database failures

SETI@home is a test bed for further development not only of BOINC but of other hardware and software (database) technology. Under SETI@home processing loads, these experimental technologies can be more challenging than expected, as SETI databases do not have typical accounting and business data or relational structures. The non-traditional database uses often do incur greater processing overheads and risk of database corruption and outright database failure. Hardware, software and database failures can (and do) cause dips in project participation.

The project has had to shut down several times to change over to new databases capable of handling more massive datasets. Hardware failure has proven to be a substantial source of project shutdowns, as hardware failure is often coupled with database corruption.

See also

References

  1. "Choosing BOINC projects".
  2. "DownloadOther – BOINC".
  3. "Porting and optimizing SETI@home".
  4. ^ "Detailed stats – SETI@Home". BIONIC stats. Retrieved January 9, 2015.
  5. Dr. Tony Phillips (May 23, 1999). "ET, phone SETI@home!". NASA. Archived from the original on October 1, 2006. Retrieved October 6, 2006.
  6. Nemiroff, R.; Bonnell, J., eds. (May 17, 1999). "How to Search for Aliens". Astronomy Picture of the Day. NASA. Retrieved October 6, 2006.
  7. "SETI@home Classic: In Memoriam". December 15, 2005. Retrieved October 6, 2006.
  8. https://web.archive.org/web/20000815053637/http://www.nettalklive.com/seti/
  9. "Berkeley SETI". seti.berkeley.edu. Retrieved June 10, 2017.
  10. "How SETI@Home Works – What is SETI@home Looking For?". SETI@Home Classic. Retrieved June 23, 2010.
  11. "Signal Candidate". Classic SETI@home. Retrieved June 23, 2010.
  12. "BOINC combined – Credit overview". BOINCstats. Retrieved June 23, 2010.
  13. ^ "Sullivan, et al.: Seti@Home". Seticlassic.ssl.berkeley.edu. Retrieved May 17, 2009.
  14. Shostak, Seth (July 22, 2004). "First Contact Within 20 Years: Shostak". Space Daily. Retrieved June 12, 2006.
  15. ^ Korpela, Eric; Dan Werthimer; David Anderson; Jeff Cobb; Matt Lebofsky (January 2001). "SETI@home – Massively Distributed Computing for SETI" (PDF). Computing in Science & Engineering. 3: 78–83. doi:10.1109/5992.895191.
  16. "About SETI@home page 2". Seticlassic.ssl.berkeley.edu. Retrieved May 17, 2009.
  17. SETI@home (2001). "The SETI@home Sky Survey". Retrieved June 2, 2006.
  18. https://setiathome.berkeley.edu/apps.php
  19. "Breakthrough Initiatives". breakthroughinitiatives.org. Retrieved May 31, 2019.{{cite web}}: CS1 maint: url-status (link)
  20. "SETI@home applications". Archived from the original on January 8, 2008.
  21. "Seti@Home optimized science apps and information". Lunatics.kwsn.net. Archived from the original on April 24, 2009. Retrieved May 17, 2009.
  22. Newport, Stuart, ed. (2005). "Largest Computation". Guinness World Records. HCI Entertainment. Archived from the original on November 28, 2005. Retrieved December 3, 2005.
  23. "SETI@Home Project". BOINC Stats. Retrieved June 23, 2013.
  24. "Southern Hemisphere Search – increasing SETI@home's sky coverage in the "Future directions of SETI@home"". Classic SETI@home website. Retrieved June 23, 2010.
  25. "SETI@home Plans". SETI@home. Retrieved June 23, 2010.
  26. "Astropulse FAQ". Setiathome.berkeley.edu. Retrieved May 17, 2009.
  27. "BBC 2002". BBC News. January 28, 2002. Retrieved May 17, 2009.
  28. "SETI Stack and farm systems". Bhs.broo.k12.wv.us. Archived from the original on January 31, 2009. Retrieved July 14, 2009.
  29. https://www.theatlantic.com/science/archive/2017/05/aliens-on-your-packard-bell/527445/
  30. John Adams (October 9, 2004). "Knock Down, Then Kick – O'Reilly Databases". Oreillynet.com. Retrieved May 17, 2009.
  31. "Higley firing tied to alien-search software". The Arizona Republic. November 30, 2009.
  32. Christopher Dawson (December 2, 2009). "Admin fired for incompetence, not alien search". ZDNet. Retrieved November 20, 2013.
  33. SETI@home (2005). "SETI@home computer venues". Retrieved June 12, 2006.
  34. "SETI@home now supports Intel GPUs". January 29, 2014. Retrieved February 19, 2015.
  35. Darren Murph. "Stanford University tailors Folding@home to GPUs". Retrieved February 19, 2015.
  36. Mike Houston. "Folding@Home – GPGPU". Retrieved February 19, 2015.
  37. Larabel, Michael (September 16, 2012). "Apple iPad 2 As Fast As The Cray-2 Super Computer". Retrieved February 19, 2015.
  38. Molnar, David (2000). "The SETI@Home Problem". Crossroads. 7 (1). Archived from the original on July 15, 2012. Retrieved January 30, 2011.
  39. "SecurityIssues – BOINC – Trac". Boinc.berkeley.edu. Retrieved May 17, 2009.

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