PrimeGrid: Difference between revisions
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| 30 June 2008 |
| 30 June 2008 |
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| Ongoing |
| Ongoing |
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| data-sort-value="5477721" | 3 × 2<sup>18196595</sup> − 1, largest prime found in the 321 Prime Search project<ref>{{cite web |title=PrimePage Primes: 3·2^18196595 - 1 |url=https:// |
| data-sort-value="5477721" | 3 × 2<sup>18196595</sup> − 1, largest prime found in the 321 Prime Search project<ref>{{cite web |title=PrimePage Primes: 3·2^18196595 - 1 |url=https://t5k.org/primes/page.php?id=133193 |website=t5k.org |access-date=12 March 2023 |archive-date=23 January 2022 |archive-url=https://web.archive.org/web/20220123094556/https://primes.utm.edu/primes/page.php?id=133193 |url-status=live }}</ref> |
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| AP26 Search ([[Primes in arithmetic progression|Arithmetic progression]] of 26 primes) |
| AP26 Search ([[Primes in arithmetic progression|Arithmetic progression]] of 26 primes) |
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| 2014 |
| 2014 |
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| data-sort-value="2758092" | 90527 × 2<sup>9162167</sup> + 1<ref>{{cite web |
| data-sort-value="2758092" | 90527 × 2<sup>9162167</sup> + 1<ref>{{cite web |
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| url = https:// |
| url = https://t5k.org/primes/page.php?id=111554 |
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| title = The Prime Database: 211195*2^3224974+1 |
| title = The Prime Database: 211195*2^3224974+1 |
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| publisher = The Prime |
| publisher = The Prime Pages |
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| access-date = |
| access-date = 2023-03-12 |
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| archive-date = 2013-12-22 |
| archive-date = 2013-12-22 |
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| archive-url = https://web.archive.org/web/20131222202140/http://primes.utm.edu/primes/page.php?id=111554 |
| archive-url = https://web.archive.org/web/20131222202140/http://primes.utm.edu/primes/page.php?id=111554 |
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===Cullen prime search=== |
===Cullen prime search=== |
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PrimeGrid is also running a search for [[Cullen prime]] numbers, yielding the two largest known Cullen primes. The first one being the 14th largest known prime at the time of discovery, and the second one was PrimeGrid's largest prime found {{math|6679881 · 2<sup>6679881</sup> + 1}} at over 2 million digits.<ref>{{cite web |
PrimeGrid is also running a search for [[Cullen prime]] numbers, yielding the two largest known Cullen primes. The first one being the 14th largest known prime at the time of discovery, and the second one was PrimeGrid's largest prime found {{math|6679881 · 2<sup>6679881</sup> + 1}} at over 2 million digits.<ref>{{cite web |
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| url = https:// |
| url = https://t5k.org/top20/page.php?id=6 |
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| title = The Top Twenty: Cullen primes |
| title = The Top Twenty: Cullen primes |
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| publisher = |
| publisher = The Prime Pages |
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| access-date = |
| access-date = 2023-03-12 |
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| archive-date = 2011-10-06 |
| archive-date = 2011-10-06 |
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| archive-url = https://web.archive.org/web/20111006022800/http://primes.utm.edu/top20/page.php?id=6 |
| archive-url = https://web.archive.org/web/20111006022800/http://primes.utm.edu/top20/page.php?id=6 |
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===Generalized Fermat prime search=== |
===Generalized Fermat prime search=== |
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On 24 September 2022, PrimeGrid discovered the largest known [[Fermat number#Generalized Fermat numbers|Generalized Fermat prime]] to date, {{math|1963736<sup>1048576</sup> + 1}}. This prime is 6,598,776 digits long and is only the second Generalized Fermat prime found for {{math|''n'' {{=}} 20}}. It ranks as the 13th largest known prime overall.<ref>{{cite web |
On 24 September 2022, PrimeGrid discovered the largest known [[Fermat number#Generalized Fermat numbers|Generalized Fermat prime]] to date, {{math|1963736<sup>1048576</sup> + 1}}. This prime is 6,598,776 digits long and is only the second Generalized Fermat prime found for {{math|''n'' {{=}} 20}}. It ranks as the 13th largest known prime overall.<ref>{{cite web |
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| url = https:// |
| url = https://t5k.org/primes/page.php?id=134423 |
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| title = 1963736^1048576+1 is prime! |
| title = 1963736^1048576+1 is prime! |
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| publisher = |
| publisher = The Prime Pages |
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| access-date = |
| access-date = 2023-03-12 |
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| archive-date = 2022-10-08 |
| archive-date = 2022-10-08 |
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| archive-url = https://web.archive.org/web/20221008183939/https://primes.utm.edu/primes/page.php?id=134423 |
| archive-url = https://web.archive.org/web/20221008183939/https://primes.utm.edu/primes/page.php?id=134423 |
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===Woodall prime search=== |
===Woodall prime search=== |
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{{As of|2018|4|22}}, the project has discovered the four largest [[Woodall number|Woodall primes]] known to date.<ref>{{cite web |
{{As of|2018|4|22}}, the project has discovered the four largest [[Woodall number|Woodall primes]] known to date.<ref>{{cite web |
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| url = https:// |
| url = https://t5k.org/top20/page.php?id=7 |
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| title = The Top Twenty: Woodall Primes |
| title = The Top Twenty: Woodall Primes |
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| publisher = |
| publisher = The Prime Pages |
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| access-date = 2023- |
| access-date = 2023-03-12 |
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| archive-date = 2023-01-20 |
| archive-date = 2023-01-20 |
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| archive-url = https://web.archive.org/web/20230120060150/https://primes.utm.edu/top20/page.php?id=7 |
| archive-url = https://web.archive.org/web/20230120060150/https://primes.utm.edu/top20/page.php?id=7 |
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The largest of these is {{math|17016602 × 2<sup>17016602 </sup> − 1}} and was found in 21 March 2018.{{citation needed|date=February 2023}} The search continues for an even bigger Woodall prime. |
The largest of these is {{math|17016602 × 2<sup>17016602 </sup> − 1}} and was found in 21 March 2018.{{citation needed|date=February 2023}} The search continues for an even bigger Woodall prime. |
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PrimeGrid also found the largest known generalized Woodall prime,<ref>{{cite web |
PrimeGrid also found the largest known generalized Woodall prime,<ref>{{cite web |
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| url = https:// |
| url = https://t5k.org/top20/page.php?id=45 |
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| title = The Top Twenty: Generalized Woodall |
| title = The Top Twenty: Generalized Woodall |
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| publisher = |
| publisher = The Prime Pages |
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| access-date = |
| access-date = 2023-03-12 |
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| archive-date = 2011-10-06 |
| archive-date = 2011-10-06 |
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| archive-url = https://web.archive.org/web/20111006023222/http://primes.utm.edu/top20/page.php?id=45 |
| archive-url = https://web.archive.org/web/20111006023222/http://primes.utm.edu/top20/page.php?id=45 |
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* {{Official website}} |
* {{Official website}} |
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*[//www.discord.com/channels/357493752434130944/ PrimeGrid Discord chat server] (almost daily discovery announcements) |
*[//www.discord.com/channels/357493752434130944/ PrimeGrid Discord chat server] (almost daily discovery announcements) |
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*[// |
*[https://t5k.org/bios/page.php?id=950 PrimeGrid's results] at [[The Prime Pages]] |
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{{Commons}} |
{{Commons}} |
Revision as of 18:31, 12 March 2023
Original author(s) | Rytis Slatkevičius |
---|---|
Initial release | June 12, 2005[1] |
Development status | Active |
Project goal(s) | Finding prime numbers of various types |
Software used | PRPNet, Genefer, LLR, PFGW |
Funding | Corporate sponsorship, crowdfunding[2][3] |
Platform | BOINC |
Average performance | 3,398.914 TFLOPS[4] |
Active users | 2,330 (August 2022)[4] |
Total users | 353,245 [4] |
Active hosts | 11,504 (August 2022)[4] |
Total hosts | 21,985 [4] |
Website | www |
PrimeGrid is a volunteer computing project that searches for very large (up to world-record size) prime numbers whilst also aiming to solve long-standing mathematical conjectures. It uses the Berkeley Open Infrastructure for Network Computing (BOINC) platform. PrimeGrid offers a number of subprojects for prime-number sieving and discovery. Some of these are available through the BOINC client, others through the PRPNet client. Some of the work is manual, i.e. it requires manually starting work units and uploading results. Different subprojects may run on different operating systems, and may have executables for CPUs, GPUs, or both; while running the Lucas–Lehmer–Riesel test, CPUs with Advanced Vector Extensions and Fused Multiply-Add instruction sets will yield the fastest results for non-GPU accelerated workloads.
PrimeGrid awards badges to users in recognition of achieving certain defined levels of credit for work done. The badges have no intrinsic value but are valued by many as a sign of achievement. The issuing of badges should also benefit PrimeGrid by evening out the participation in the less popular sub projects. The easiest of the badges can often be obtained in less than a day by a single computer, whereas the most challenging badges will require far more time and computing power.
History
PrimeGrid started in June 2005[1] under the name Message@home and tried to decipher text fragments hashed with MD5. Message@home was a test to port the BOINC scheduler to Perl to obtain greater portability. After a while the project attempted the RSA factoring challenge trying to factor RSA-640. After RSA-640 was factored by an outside team in November 2005, the project moved on to RSA-768. With the chance to succeed too small, it discarded the RSA challenges, was renamed to PrimeGrid, and started generating a list of the first prime numbers. At 210,000,000,000[5] the primegen subproject was stopped.
In June 2006, dialog started with Riesel Sieve to bring their project to the BOINC community. PrimeGrid provided PerlBOINC support and Riesel Sieve was successful in implementing their sieve as well as a prime finding (LLR) application. With collaboration from Riesel Sieve, PrimeGrid was able to implement the LLR application in partnership with another prime finding project, Twin Prime Search (TPS). In November 2006, the TPS LLR application was officially released at PrimeGrid. Less than two months later, January 2007, the record twin was found by the original manual project. TPS has since been completed, while the search for Sophie Germain primes continues.
In the summer of 2007, the Cullen and Woodall prime searches were launched. In the Fall, more prime searches were added through partnerships with the Prime Sierpinski Problem and 3*2^n-1 Search projects. Additionally, two sieves were added: the Prime Sierpinski Problem combined sieve which includes supporting the Seventeen or Bust sieve and the combined Cullen/Woodall sieve. In the fall of the same year, PrimeGrid migrated its systems from PerlBOINC to standard BOINC software.
Since September 2008, PrimeGrid is also running a Proth prime sieving subproject.[6]
In January 2010 the subproject Seventeen or Bust (for solving the Sierpinski problem) was added.[7] The calculations for the Riesel problem followed in March 2010.
Projects
As of January 2023[update], PrimeGrid is working on or has worked on the following projects:
Project | Active sieve project? | Active LLR project? | Start | End | Best result |
---|---|---|---|---|---|
321 Prime Search (primes of the form 3 × 2n ± 1) | No | Yes | 30 June 2008 | Ongoing | 3 × 218196595 − 1, largest prime found in the 321 Prime Search project[8] |
AP26 Search (Arithmetic progression of 26 primes) | — | — | 27 December 2008 | 12 April 2010 | 43142746595714191 + 23681770 × 23# × n, n = 0, ..., 25 (AP26)[9] |
AP27 Search (Arithmetic progression of 27 primes) | — | — | 20 September 2016 | Ongoing | 224584605939537911 + 81292139 × 23# × n, n = 0, ..., 26 (AP27)[10] |
Generalized Fermat Prime Search[11][12] (active: n = 32768, 65536, 131072, 262144, 524288, 1048576, 2097152, 4194304 inactive: n = 8192, 16384) |
Yes (manual sieving) | — | January 2012 | Ongoing | 19637361048576 + 1, largest known Generalized Fermat prime[13] |
Cullen Prime Search | No | Yes | August 2007 | Ongoing | 6679881 × 26679881 + 1, largest known Cullen prime[14] |
Message7 | No | — | 12 June 2005 | August 2005 | PerlBOINC testing successful |
Prime Sierpinski Problem | No | Yes | 10 July 2008 | Ongoing | 168451 × 219375200 + 1[15] |
Extended Sierpinski Problem | No | Yes | 7 June 2014 | Ongoing | 202705 × 221320516 + 1, largest prime found in the Extended Sierpinski Problem[16] |
PrimeGen | No | — | March 2006 | February 2008 | — |
Proth Prime Search | Yes | Yes | 29 February 2008 | Ongoing | 7 × 25775996 + 1[17] |
Riesel Problem | No | Yes | March 2010 | Ongoing | 9221 × 211392194 − 1, [18] |
RSA-640 | No | — | August 2005 | November 2005 | — |
RSA-768 | No | — | November 2005 | March 2006 | — |
Seventeen or Bust | No | Yes | 31 January 2010 | Ongoing | 10223 × 231172165 + 1 |
Sierpinski/Riesel Base 5 Problem | No | Yes | 14 June 2013 | Ongoing | 213988×54138363 − 1, largest prime found in the Sierpinski/Riesel Base 5 Problem |
Sophie Germain Prime Search | No | Yes | 16 August 2009 | Ongoing | 2618163402417 × 21290000 − 1 (2p − 1 = 2618163402417 × 21290001 − 1), the world record Sophie Germain prime;[19] and 2996863034895 × 21290000 ± 1, the world record twin primes[20] |
Twin prime Search | No | — | 26 November 2006 | 25 July 2009 | 65516468355 × 2333333 ± 1[21] |
Woodall Prime Search | No | Yes | July 2007 | Ongoing | 17016602 × 217016602 − 1, largest known Woodall prime[22] |
Generalized Cullen/Woodall Prime Search | No | Yes | 22 October 2016 | Ongoing | 2525532 × 732525532 + 1, largest known generalized Cullen prime[23] |
Wieferich Prime Search | — | — | 2020[24] | 2022 | — |
Wall-Sun-Sun Prime Search | — | — | 2020 | 2022 | — |
321 Prime Search
321 Prime Search is a continuation of Paul Underwood's 321 Search which looked for primes of the form 3 · 2n − 1. PrimeGrid added the +1 form and continues the search up to n = 25M.
Primes known for 3 · 2n + 1 occur at the following n:
- 1, 2, 5, 6, 8, 12, 18, 30, 36, 41, 66, 189, 201, 209, 276, 353, 408, 438, 534, 2208, 2816, 3168, 3189, 3912, 20909, 34350, 42294, 42665, 44685, 48150, 54792, 55182, 59973, 80190, 157169, 213321, 303093, 362765, 382449, 709968, 801978, 916773, 1832496, 2145353, 2291610, 2478785, 5082306, 7033641, 10829346, 16408818 (sequence A002253 in the OEIS)
Primes known for 3 · 2n − 1 occur at the following n:
- 0, 1, 2, 3, 4, 6, 7, 11, 18, 34, 38, 43, 55, 64, 76, 94, 103, 143, 206, 216, 306, 324, 391, 458, 470, 827, 1274, 3276, 4204, 5134, 7559, 12676, 14898, 18123, 18819, 25690, 26459, 41628, 51387, 71783, 80330, 85687, 88171, 97063, 123630, 155930, 164987, 234760, 414840, 584995, 702038, 727699, 992700, 1201046, 1232255, 2312734, 3136255, 4235414, 6090515, 11484018, 11731850, 11895718, 16819291, 17748034, 18196595 (sequence A002235 in the OEIS)
PRPNet projects
Project | Active? | Start | End | Best result |
---|---|---|---|---|
27 Prime Search | No | — | March 2022[25] | 27 × 27046834 + 1, largest known Sierpinski prime for b = 2 and k = 27 27×28342438 − 1, largest known Riesel prime for b = 2 and k = 27[26] |
121 Prime Search | No | — | April 2021[27] | 121 × 29584444 − 1, largest known Sierpinski prime for b = 2 and k = 121 121 × 24553899 − 1, largest known Riesel prime for b = 2 and k = 121[28] |
Extended Sierpinski problem | No | — | 2014 | 90527 × 29162167 + 1[29] |
Factorial Prime Search | Yes | — | Ongoing | 147855! − 1, 5th largest known factorial prime |
Dual Sierpinski problem (Five or Bust) | No | — | All were done (all PRPs were found) | 29092392 + 40291 |
Generalized Cullen/Woodall Prime Search | No | — | 2017[30] | 427194 × 113427194 + 1, then largest known GCW prime[31] |
Mega Prime Search | No | — | 2014 | 87 × 23496188 + 1, largest known prime for k = 87 |
Primorial Prime Search | Yes | 2008[32] | Ongoing | 3267113# − 1, largest known primorial prime[33] |
Proth Prime Search | No | 2008 | 2012[34] | 10223 × 231172165 + 1, largest known Proth prime |
Sierpinski Riesel Base 5 | No | 2009[35] | 2013[36] | 180062 × 52249192 − 1 |
Wieferich Prime Search | No | 2012[37] | 2017[38] | 82687771042557349, closest near-miss above 3 × 1015 |
Wall-Sun-Sun Prime Search | No | 2012[37] | 2017[38] | 6336823451747417, closest near-miss above 9.7 × 1014 |
Accomplishments
AP26
One of PrimeGrid projects was AP26 Search which searched for a record 26 primes in arithmetic progression. The search was successful in April 2010 with the finding of the first known AP26:
- 43142746595714191 + 23681770 · 23# · n is prime for n = 0, ..., 25.[39]
- 23# = 2·3·5·7·11·13·17·19·23 = 223092870, or 23 primorial, is the product of all primes up to 23.
AP27
Next target of the project was AP27 Search which searched for a record 27 primes in arithmetic progression. The search was successful in September 2019 with the finding of the first known AP27:
- 224584605939537911 + 81292139 · 23# · n is prime for n = 0, ..., 26.[40]
- 23# = 2·3·5·7·11·13·17·19·23 = 223092870, or 23 primorial, is the product of all primes up to 23.
Cullen prime search
PrimeGrid is also running a search for Cullen prime numbers, yielding the two largest known Cullen primes. The first one being the 14th largest known prime at the time of discovery, and the second one was PrimeGrid's largest prime found 6679881 · 26679881 + 1 at over 2 million digits.[41]
Generalized Fermat prime search
On 24 September 2022, PrimeGrid discovered the largest known Generalized Fermat prime to date, 19637361048576 + 1. This prime is 6,598,776 digits long and is only the second Generalized Fermat prime found for n = 20. It ranks as the 13th largest known prime overall.[42]
Riesel Problem
As of 13 December 2022[update], PrimeGrid has eliminated 18 values of k from the Riesel problem[43] and is continuing the search to eliminate the 43 remaining numbers. 3 values of k are found by independent searchers.
Twin prime search
Primegrid worked with the Twin Prime Search to search for a record-sized twin prime at approximately 58,700 digits. The new world's largest known twin prime 2003663613 × 2195000 ± 1 was eventually discovered on January 15, 2007 (sieved by Twin Prime Search and tested by PrimeGrid). The search continued for another record twin prime at just above 100,000 digits. It was completed in August 2009 when Primegrid found 65516468355 × 2333333 ± 1. Continued testing for twin primes in conjunction with the search for a Sophie Germain prime yielded a new record twin prime in September 2016 upon finding the number 2996863034895 × 21290000 ± 1 composed of 388,342 digits.
Woodall prime search
As of 22 April 2018[update], the project has discovered the four largest Woodall primes known to date.[44] The largest of these is 17016602 × 217016602 − 1 and was found in 21 March 2018.[citation needed] The search continues for an even bigger Woodall prime. PrimeGrid also found the largest known generalized Woodall prime,[45] 563528 × 13563528 − 1.
Media coverage
PrimeGrid's author Rytis Slatkevičius has been featured as a young entrepreneur in The Economist.[46]
PrimeGrid has also been featured in an article by Francois Grey in the CERN Courier and a talk about citizen cyberscience in TEDx Warwick conference.[47][48]
In the first Citizen Cyberscience Summit, Rytis Slatkevičius gave a talk as a founder of PrimeGrid, named Finding primes: from digits to digital technology,[49] relating mathematics and volunteering and featuring the history of the project.[50]
References
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- ^ "PrimeGrid's new server (again)". PrimeGrid. Archived from the original on 2017-02-08. Retrieved 2016-10-09.
- ^ "Donations to PrimeGrid". Archived from the original on 2018-07-27. Retrieved 2018-07-27.
- ^ a b c d e "PrimeGrid - Detailed Stats". BOINCstats. Archived from the original on 17 September 2017. Retrieved 21 August 2022.
- ^ "Prime Lists". PrimeGrid. Archived from the original on 2010-05-30. Retrieved 2011-09-19.
- ^ John. "PrimeGrid forum: PPS Sieve". PrimeGrid. Archived from the original on 2011-09-26. Retrieved 2011-09-19.
- ^ John. "PrimeGrid forum: Seventeen or Bust and the Sierpinski Problem". PrimeGrid. Archived from the original on 2011-09-26. Retrieved 2011-09-19.
- ^ "PrimePage Primes: 3·2^18196595 - 1". t5k.org. Archived from the original on 23 January 2022. Retrieved 12 March 2023.
- ^ "PrimeGrid's AP26 Search" (PDF). PrimeGrid. Archived (PDF) from the original on 2011-09-26. Retrieved 2011-09-19.
- ^ "PrimeGrid's AP26 Search" (PDF). PrimeGrid. Archived (PDF) from the original on 2019-10-05. Retrieved 2019-10-23.
- ^ "Genefer statistics". PrimeGrid. Archived from the original on 2019-06-23. Retrieved 2015-11-04.
- ^ "GFN Prime Search Status and History". PrimeGrid. Archived from the original on 2017-03-05. Retrieved 2017-03-04.
- ^ "PrimeGrid's Generalized Fermat Prime Search" (PDF). PrimeGrid. Archived (PDF) from the original on 2021-01-15. Retrieved 2019-07-28.
- ^ "PrimeGrid's Cullen Prime Search" (PDF). PrimeGrid. Archived from the original (PDF) on 2011-09-26. Retrieved 2011-09-19.
- ^ "PrimeGrid's Prime Sierpinski Problem" (PDF). PrimeGrid. Archived (PDF) from the original on 2019-07-16. Retrieved 2019-07-28.
- ^ "PrimeGrid's Extended Sierpinski Problem" (PDF). PrimeGrid. Archived (PDF) from the original on 2022-01-27. Retrieved 2022-01-27.
- ^ "PrimeGrid's Proth Prime Search" (PDF). PrimeGrid. Archived (PDF) from the original on 4 March 2016. Retrieved 10 March 2016.
- ^ "PrimeGrid's The Riesel Problem" (PDF). PrimeGrid. Archived (PDF) from the original on 2022-01-27. Retrieved 2022-01-27.
- ^ "World Record Sophie Germain prime" (PDF). PrimeGrid. Archived (PDF) from the original on 2019-07-16. Retrieved 2019-07-28.
- ^ "World Record Sophie Germain prime" (PDF). PrimeGrid. Archived (PDF) from the original on 2016-10-19. Retrieved 2019-07-28.
- ^ "PrimeGrid's Twin Prime Search" (PDF). PrimeGrid. Archived from the original (PDF) on 2011-09-26. Retrieved 2011-09-19.
- ^ "PrimeGrid's Woodall Prime Search" (PDF). PrimeGrid. Archived (PDF) from the original on 2021-01-21. Retrieved 2019-07-28.
- ^ "PrimeGrid's Generalized Cullen/Woodall Prime Search" (PDF). PrimeGrid. Archived (PDF) from the original on 2022-01-27. Retrieved 2022-01-27.
- ^ "Welcome to the Wieferich and Wall-Sun-Sun Prime Search". PrimeGrid. Archived from the original on 2022-08-22. Retrieved 2022-08-22.
- ^ Trunov, Roman. "The 27 project is almost finished". PrimeGrid. Archived from the original on 5 September 2022. Retrieved 19 August 2022.
- ^ "PrimeGrid Primes: 27 Prime Search". www.primegrid.com. Archived from the original on 2022-01-27. Retrieved 2022-01-27.
- ^ Goetz, Michael. "The 121 project is almost finished". PrimeGrid. Archived from the original on 20 August 2022. Retrieved 19 August 2022.
- ^ "PrimeGrid Primes: 121 Prime Search". www.primegrid.com. Archived from the original on 2022-01-27. Retrieved 2022-01-27.
- ^ "The Prime Database: 211195*2^3224974+1". The Prime Pages. Archived from the original on 2013-12-22. Retrieved 2023-03-12.
- ^ JimB. "PRPNet GCW Port 12004 being closed soon". PrimeGrid. Archived from the original on 5 September 2022. Retrieved 10 November 2017.
- ^ "PrimeGridʼs Generalized Cullen/Woodall Prime Search" (PDF). PrimeGrid. Archived (PDF) from the original on 2013-11-26. Retrieved 2014-03-09.
- ^ "PrimeGrid news archive". PrimeGrid. Archived from the original on 2014-05-15. Retrieved 2014-04-23.
- ^ "PrimeGridʼs Primorial Prime Search" (PDF). PrimeGrid. Archived (PDF) from the original on 2013-11-26. Retrieved 2014-03-09.
- ^ "PRPNet PPSELow on prpnet2.mine.nu will be closed". PrimeGrid. Archived from the original on 2015-09-24. Retrieved 2013-07-13.
- ^ "PRNet Discussion( Old )". PrimeGrid. Archived from the original on 2013-08-17. Retrieved 2013-07-01.
- ^ "SR5 Has moved to BOINC, PRPNet port to close soon". PrimeGrid. Archived from the original on 2013-10-09. Retrieved 2013-07-01.
- ^ a b "Welcome to a week of Wieferich and Wall-Sun-Sun". PrimeGrid. Archived from the original on 2013-08-17. Retrieved 2013-07-03.
- ^ a b Goetz, Michael. "WSS and WFS are suspended". PrimeGrid Forum. PrimeGrid. Archived from the original on 2020-10-01. Retrieved 2020-09-06.
- ^ John. "AP26 Found!!!". PrimeGrid. Archived from the original on 2011-09-14. Retrieved 2011-09-19.
- ^ Michael Goetz. "AP27 Found!!!". PrimeGrid. Archived from the original on 2020-07-09. Retrieved 2020-07-09.
- ^ "The Top Twenty: Cullen primes". The Prime Pages. Archived from the original on 2011-10-06. Retrieved 2023-03-12.
- ^ "1963736^1048576+1 is prime!". The Prime Pages. Archived from the original on 2022-10-08. Retrieved 2023-03-12.
- ^ "PrimeGridʼs The Riesel Problem" (PDF). PrimeGrid. Archived (PDF) from the original on 2017-12-22. Retrieved 2017-12-22.
- ^ "The Top Twenty: Woodall Primes". The Prime Pages. Archived from the original on 2023-01-20. Retrieved 2023-03-12.
- ^ "The Top Twenty: Generalized Woodall". The Prime Pages. Archived from the original on 2011-10-06. Retrieved 2023-03-12.
- ^ "Spreading the load". The Economist. 2007-12-06. Archived from the original on 2009-12-18. Retrieved 2010-02-08.
- ^ Francois Grey (2009-04-29). "Viewpoint: The Age of Citizen Cyberscience". CERN Courier. Archived from the original on 2010-03-23. Retrieved 2010-04-26.
- ^ Francois Grey (2009-03-26). "Citizen Cyberscience" (Podcast). Archived from the original on 2011-03-09. Retrieved 2010-04-26.
- ^ Rytis Slatkevičius (2010-09-02), Finding primes: from digits to digital technology, archived from the original on 2010-09-15, retrieved 2010-12-03
- ^ Rytis Slatkevičius (2010-08-13), Giant Prime Numbers, archived from the original on 2011-07-08, retrieved 2010-12-03
External links
- Official website
- PrimeGrid Discord chat server (almost daily discovery announcements)
- PrimeGrid's results at The Prime Pages