PrimeGrid
Please visit donation page to help the project cover running costs for this month

Toggle Menu

Join PrimeGrid

  1. Read our rules and policies.
  2. Download, install and run the BOINC software used by PrimeGrid.
  3. When prompted, enter the URL:
    http://www.primegrid.com/
  4. Select which subprojects to run via the PrimeGrid Preferences.

Returning Participants

Community

Leader Boards

Results

Other

drummers-lowrise

Digits		 Prime
Rank1
App Types
Sub-Project		 Available Tasks
A2 / B3		 UTC time 2020-12-05 15:31:07 Powered by BOINC
5 010 221 21 CPU F MT   321 Prime Search (LLR) 1005/1000 User Count 351 396
6 028 433 16 CPU F MT   Cullen Prime Search (LLR) 760/1000 Host Count 622 328
4 616 203 22 CPU F MT   Extended Sierpinski Problem (LLR) 749/3696 Hosts Per User 1.77
2 293 763 77 CPU F MT   Fermat Divisor Search (LLR) 1788/792K Tasks in Progress 184 222
4 319 253 24 CPU F MT   Generalized Cullen/Woodall Prime Search (LLR) 777/1000 Primes Discovered 82 799
7 021 082 13 CPU F MT   Prime Sierpinski Problem (LLR) 772/2255 Primes Reported4 at T5K 29 856
874 719 1025 CPU F MT   Proth Prime Search (LLR) 1555/249K Mega Primes Discovered 565
485 047 3931 CPU MT   Proth Prime Search Extended (LLR) 3986/1108K TeraFLOPS 2 736.630
1 005 882 658 CPU F MT   Proth Mega Prime Search (LLR) 4005/63K
PrimeGrid's 2020 Challenge Series
Magellan 500th Anniversary
Challenge
Nov 18 18:00:00 to Nov 28 17:59:59 (UTC)


Time until Great Conjunction challenge:
Days
Hours
Min
Sec
Standings
Magellan 500th Anniversary Challenge (CUL-LLR,
WOO-LLR): Individuals | Teams
10 165 878 8 CPU F MT   Seventeen or Bust (LLR) 402/2367
2 267 511 77 CPU F MT   Sierpinski / Riesel Base 5 Problem (LLR) 1528/34K
388 342 5K+ CPU MT   Sophie Germain Prime Search (LLR) 7477/566K
3 405 247 44 CPU F MT   The Riesel Problem (LLR) 1007/2000
6 138 719 16 CPU F MT   Woodall Prime Search (LLR) 764/2325
  CPU GPU Proth Prime Search (Sieve) 2448/
272 494 5K+   GPU Generalized Fermat Prime Search (n=15) 974/150K
524 160 2807 CPU GPU Generalized Fermat Prime Search (n=16) 1498/332K
962 006 845 CPU GPU Generalized Fermat Prime Search (n=17 low) 2001/18K
1 036 593 436 CPU GPU Generalized Fermat Prime Search (n=17 mega) 993/63K
1 852 325 121 CPU GPU Generalized Fermat Prime Search (n=18) 1001/54K
3 465 152 38 CPU GPU Generalized Fermat Prime Search (n=19) 999/4564
6 486 328 13 CPU GPU Generalized Fermat Prime Search (n=20) 1002/2249
12 182 290 7 CPU MT-A GPU Generalized Fermat Prime Search (n=21) 403/10K
22 108 158 4   GPU Generalized Fermat Prime Search (n=22) 200/2594
25 019 412 > 1 <   GPU Do You Feel Lucky? 202/405
  CPU MT GPU AP27 Search 1153/
  CPU MT GPU Wieferich and Wall-Sun-Sun Prime Search 980/

1 "Prime Rank" is where the leading edge candidate, if prime, would appear in the Top 5000 Primes list. "5K+" means the primes are too small to make the list.
2 First "Available Tasks" number (A) is the number of tasks immediately available to send.
3 Second "Available Tasks" number (B) is additional prime candidates that have not yet been turned into workunits. Underlined work is loaded manually. If the first number (A) is 0, something is broken. If both numbers are 0, we've run out of work. Two tasks (A) are generated automatically from each prime candidate (B) when needed, so the total number of tasks available without manual intervention is A+2*B. If the B number is not underlined, new candidates (B) are also automatically created from sieve files, which typically contain millions of candidates. If B is infinite (∞), there's essentially an unlimited amount of work available.
4 Includes all primes ever reported by PrimeGrid to Top 5000 Primes list. Many of these are no longer in the top 5000.
F Uses fast proof tasks so no double check is necessary. Everyone is "first".
MT Multithreading via web-based preferences is available.
MT-A Multithreading via app_config.xml is available.

About

PrimeGrid's primary goal is to advance mathematics by enabling everyday computer users to contribute their system's processing power towards prime finding. By simply downloading and installing BOINC and attaching to the PrimeGrid project, participants can choose from a variety of prime forms to search. With a little patience, you may find a large or even record breaking prime and enter into Chris Caldwell's The Largest Known Primes Database with a multi-million digit prime!

PrimeGrid's secondary goal is to provide relevant educational materials about primes. Additionally, we wish to contribute to the field of mathematics.

Lastly, primes play a central role in the cryptographic systems which are used for computer security. Through the study of prime numbers it can be shown how much processing is required to crack an encryption code and thus to determine whether current security schemes are sufficiently secure.

PrimeGrid is currently running several sub-projects:
  • 321 Prime Search: searching for mega primes of the form 3·2n±1.
  • Cullen-Woodall Search: searching for mega primes of forms n·2n+1 and n·2n−1.
  • Generalized Cullen-Woodall Search: searching for mega primes of forms n·bn+1 and n·bn−1 where n + 2 > b.
  • Extended Sierpinski Problem: helping solve the Extended Sierpinski Problem.
  • Generalized Fermat Prime Search: searching for megaprimes of the form b2n+1.
  • Prime Sierpinski Project: helping the Prime Sierpinski Project solve the Prime Sierpinski Problem.
  • Proth Prime Search: searching for primes of the form k·2n+1.
  • Fermat Divisor Search: a subset of the Proth Prime Search specificically searching for divisors of Fermat numbers.
  • Seventeen or Bust: helping to solve the Sierpinski Problem.
  • Sierpinski/Riesel Base 5: helping to solve the Sierpinski/Riesel Base 5 Problem.
  • Sophie Germain Prime Search: searching for primes p and 2p+1.
  • The Riesel problem: helping to solve the Riesel Problem.
  • AP27 Search: searching for record length arithmetic progressions of primes.
   You can choose the projects you would like to run by going to the project preferences page.

Recent Significant Primes


On 12 November 2020, 06:43:56 UTC, PrimeGrid's Fermat Divisor Search found the Mega Prime:
45·27513661+1
The prime is 2,261,839 digits long and enters Chris Caldwell's The Largest Known Primes Database ranked 73rd overall.

The discovery was made by Hiroyuki Okazaki (zunewantan) of Japan using an Intel(R) Xeon(R) CPU E5-2670 0 @ 2.60GHz with 32GB RAM, running Linux. This computer took about 2 hours, 6 minutes to complete the primality test using LLR2. Hiroyuki Okazaki is a member of the Aggie The Pew team.

For more information, please see the Official Announcement.

On 27 October 2020, 22:38:04 UTC, PrimeGrid's Fermat Divisor Search found the Mega Prime:
29·27374577+1
The prime is 2,219,971 digits long and enters Chris Caldwell's The Largest Known Primes Database ranked 73rd overall.

The discovery was made by Pavel Atnashev (Pavel Atnashev) of Russia using an Intel(R) Xeon(R) E5-2660 v2 CPU @ 2.20GHz with 4GB RAM, running Linux. This computer took about 1 hour, 49 minutes to complete the primality test using LLR2. Pavel Atnashev is a member of the Ural Federal University team.

For more information, please see the Official Announcement.

On 25 October 2020, 11:30:07 UTC, PrimeGrid's 321 Prime Search found the Mega Prime:
3·216408818+1
The prime is 4,939,547 digits long and enters Chris Caldwell's The Largest Known Primes Database ranked 21st overall.

The discovery was made by Scott Brown (Scott Brown) of the United States using an Intel(R) Core(TM) i7-4770S CPU @ 3.10GHz with 8GB RAM, running Microsoft Windows 10 Enterprise x64 Edition. This computer took about 6 hours, 6 minutes to complete the primality test using LLR2. Scott Brown is a member of the Aggie The Pew team.

For more information, please see the Official Announcement.

On 25 October 2020, 00:52:15 UTC, PrimeGrid's Fermat Divisor Search found the Mega Prime:
15·27300254+1
The prime is 2,197,597 digits long and enters Chris Caldwell's The Largest Known Primes Database ranked 75th overall.

The discovery was made by Robert Gelhar (Gelly) of the United States using an Intel(R) Xeon(R) Gold 6140 CPU @ 2.30GHz with 1GB RAM, running Linux Ubuntu. This computer took about 3 hours, 24 minutes to complete the primality test using LLR2. Robert Gelhar is a member of the Antarctic Crunchers team.

For more information, please see the Official Announcement.

On 24 October 2020, 22:53:39 UTC, PrimeGrid's Fermat Divisor Search found the Mega Prime:
19·26833086+1
The prime is 2,056,966 digits long and enters Chris Caldwell's The Largest Known Primes Database ranked 94th overall.

The discovery was made by Jiri Jaros (Venec) of the Czech Republic using an Intel(R) Xeon(R) CPU E5-2620 v3 @ 2.40GHz with 8GB RAM, running Linux Ubuntu. This computer took about 7 hours, 27 minutes to complete the primality test using LLR2. Jiri Jaros is a member of the Czech National Team.

For more information, please see the Official Announcement.

On 20 October 2020, 19:06:13 UTC, PrimeGrid's Fermat Divisor Search found the Mega Prime:
39·26684941+1
The prime is 2,012,370 digits long and enters Chris Caldwell's The Largest Known Primes Database ranked 97th overall.

The discovery was made by Mike Thümmler (fnord) of Germany using an AMD Ryzen 5 1600X Six-Core Processor with 16GB RAM, running Microsoft Windows 10 Professional x64 Edition. This computer took about 4 hours to complete the primality test using LLR2. Mike Thümmler is a member of the SETI.Germany team.

For more information, please see the Official Announcement.

On 20 October 2020, 13:22:13 UTC, PrimeGrid's Fermat Divisor Search found the Mega Prime:
39·26648997+1
The prime is 2,001,550 digits long and enters Chris Caldwell's The Largest Known Primes Database ranked 99th overall.

The discovery was made by Tom Greer (tng) of the United States using an Intel(R) Xeon(R) Gold 6140 CPU @ 2.30GHz with 1GB RAM, running Linux Ubuntu. This computer took about 2 hours, 38 minutes to complete the primality test using LLR2. Tom Greer is a member of the Antarctic Crunchers team.

For more information, please see the Official Announcement.

Other significant primes


3·216408818+1 (321): official announcement | 321
3·211895718-1 (321): official announcement | 321
3·211731850-1 (321): official announcement | 321
3·211484018-1 (321): official announcement | 321
3·210829346+1 (321): official announcement | 321
27·27046834+1 (27121): official announcement | 27121
27·25213635+1 (27121): official announcement | 27121
27·24583717-1 (27121): official announcement | 27121
27·24542344-1 (27121): official announcement | 27121
121·24553899-1 (27121): official announcement | 27121
224584605939537911+81292139*23#*n for n=0..26 (AP27): official announcement
48277590120607451+37835074*23#*n for n=0..25 (AP26): official announcement
142099325379199423+16549135*23#*n for n=0..25 (AP26): official announcement
149836681069944461+7725290*23#*n for n=0..25 (AP26): official announcement
43142746595714191+23681770*23#*n for n=0..25 (AP26): official announcement
6679881·26679881+1 (CUL): official announcement | Cullen
6328548·26328548+1 (CUL): official announcement | Cullen
99739·214019102+1 (ESP): official announcement | k=99739 eliminated
193997·211452891+1 (ESP): official announcement | k=193997 eliminated
161041·27107964+1 (ESP): official announcement | k=161041 eliminated
147855!-1 (FPS): official announcement | Factorial
110059!+1 (FPS): official announcement | Factorial
103040!-1 (FPS): official announcement | Factorial
94550!-1 (FPS): official announcement | Factorial
13·25523860+1 (PPS-DIV): official announcement | Fermat Divisor
193·23329782+1 (PPS-Mega): official announcement | Fermat Divisor
57·22747499+1 (PPS): official announcement | Fermat Divisor
267·22662090+1 (PPS): official announcement | Fermat Divisor
9·22543551+1 (PPS): official announcement | Fermat Divisor
2805222·252805222+1 (GC): official announcement | Generalized Cullen
1806676·411806676+1 (GC): official announcement | Generalized Cullen
1323365·1161323365+1 (GC): official announcement | Generalized Cullen
1341174·531341174+1 (GC): official announcement | Generalized Cullen
682156·79682156+1 (GC): official announcement | Generalized Cullen
10590941048576+1 (GFN): official announcement | Generalized Fermat Prime
9194441048576+1 (GFN): official announcement | Generalized Fermat Prime
3638450524288+1 (GFN): official announcement | Generalized Fermat Prime
3214654524288+1 (GFN): official announcement | Generalized Fermat Prime
2985036524288+1 (GFN): official announcement | Generalized Fermat Prime
563528·13563528-1 (GW): official announcement | Generalized Woodall
404882·43404882-1 (GW): official announcement | Generalized Woodall
1098133#-1 (PRS): official announcement | Primorial
843301#-1 (PRS): official announcement | Primorial
45·27513661+1 (PPS-DIV): official announcement | Top 100 Prime
29·27374577+1 (PPS-DIV): official announcement | Top 100 Prime
15·27300254+1 (PPS-DIV): official announcement | Top 100 Prime
19·26833086+1 (PPS-DIV): official announcement | Top 100 Prime
39·26684941+1 (PPS-DIV): official announcement | Top 100 Prime
168451·219375200+1 (PSP): official announcement | k=168451 eliminated
10223·231172165+1 (SoB): official announcement | k=10223 eliminated
2996863034895·21290000±1 (SGS): official announcement | Twin
2618163402417·21290000-1 (SGS), 2618163402417·21290001-1 (2p+1): official announcement | Sophie Germain
18543637900515·2666667-1 (SGS), 18543637900515·2666668-1 (2p+1): official announcement | Sophie Germain
3756801695685·2666669±1 (SGS): official announcement | Twin
65516468355·2333333±1 (TPS): official announcement | Twin
109838·53168862-1 (SR5): official announcement | k=109838 eliminated
118568·53112069+1 (SR5): official announcement | k=118568 eliminated
207494·53017502-1 (SR5): official announcement | k=207494 eliminated
238694·52979422-1 (SR5): official announcement | k=238694 eliminated
146264·52953282-1 (SR5): official announcement | k=146264 eliminated
273809·28932416-1 (TRP): official announcement | k=273809 eliminated
502573·27181987-1 (TRP): official announcement | k=502573 eliminated
402539·27173024-1 (TRP): official announcement | k=402539 eliminated
40597·26808509-1 (TRP): official announcement | k=40597 eliminated
304207·26643565-1 (TRP): official announcement | k=304207 eliminated
17016602·217016602-1 (WOO): official announcement | Woodall
3752948·23752948-1 (WOO): official announcement | Woodall
2367906·22367906-1 (WOO): official announcement | Woodall
2013992·22013992-1 (WOO): official announcement | Woodall

News RSS feed

Changes to GFN Apps
I just installed the new Windows and Linux (but not Mac) CPU versions for the following GFN projects:

GFN-16 Yes, you can run GFN16 on CPUs again!
GFN-17-LOW
GFN-17-MEGA Yes, you can run GFN-17-MEGA on CPUs again!
GFN-18
GFN-19
GFN-20

Genefer 3.3.5 provides substantial speed boosts for CPU on those projects.

This applies only to the CPU apps. GPU apps are not affected.

GFN-21 has not been updated because it's still capable of running the FP64 transforms, which are the fastest.

I have removed the CPU GFN-22 app. It was a mistake.

Mac versions of the new app will be made available when testing is completed, but this has been delayed by a lack of Mac testers.

If you want to help out testing the Mac version, head over to the 3.3.5 testing thread.

Discussion about the new release can be found in the Genefer 3.3.5 release thread. 4 Dec 2020 | 15:53:57 UTC · Comment

New Subproject!
For the first time in a while, we have a new subproject: the Wieferich and Wall-Sun-Sun Prime Search!

To participate, edit your project preferences. The app is available for GPU and CPU.

Note: there may be severe screen lag on the GPU Mac version. We are aware and a fix will be out soon.

See this forum thread for more information about the search. 28 Nov 2020 | 23:20:08 UTC · Comment

TRP Mega Prime!
On 16 November 2020, 23:17:01 UTC, PrimeGrid’s The Riesel Problem project eliminated k=146561 by finding the mega prime:

146561*2^11280802-1

The prime is 3,395,865 digits long and will enter Chris Caldwell's The Largest Known Primes Database ranked 42nd overall. This is PrimeGrid's 16th elimination. 48 k's now remain.

The discovery was made by Pavel Atnashev (Pavel Atnashev) of Russia using an Intel(R) Xeon(TM) E5-2680 v4 CPU @ 2.40GHz with 4GB RAM, running Linux. This computer took about 3 hours, 18 minutes to complete the primality test using LLR2. Pavel Atnashev is a member of the Ural Federal University team.

For more details, please see the official announcement.

 25 Nov 2020 | 14:19:31 UTC · Comment

DIV Mega Prime!
On 12 November 2020, 06:43:56 UTC, PrimeGrid's Fermat Divisor Search found the Mega Prime:

45*2^7513661+1

The prime is 2,261,839 digits long and enters Chris Caldwell's “The Largest Known Primes Database” ranked 73rd overall.

The discovery was made by Hiroyuki Okazaki (zunewantan) of Japan using an Intel(R) Xeon(R) CPU E5-2670 0 @ 2.60GHz with 32GB RAM, running Linux 4.4.0-21-generic. This computer took about 2 hours, 6 minutes to complete the primality test using LLR. Hiroyuki Okazaki is a member of the Aggie The Pew team.

For more details, please see the official announcement.

 18 Nov 2020 | 19:00:30 UTC · Comment

Magellan 500th Anniversary Challenge starts 18 November
The eighth challenge of the 2020 Series will be a 10-day challenge commemorating the (approximate) 500th Anniversary of the extraordinary expedition of Portuguese explorer Ferdinand Magellan. The challenge will be offered on the CUL-LLR and WOO-LLR subprojects, beginning 18 November 18:00 UTC and ending 28 November 18:00 UTC.

To participate in the Challenge, please select only the Cullen Prime Search LLR (CUL) and/or Woodall Prime Search LLR (WOO) projects in your PrimeGrid preferences section. Work units which are downloaded and completed during the challenge will count towards your challenge score.

Note: This will be our second challenge using LLR2, which eliminates the need for a full doublecheck task on each workunit, but replaces it with a short verification task. Expect to receive a few tasks about 1% of normal length.

Comments? Concerns? Conundrums? Confusions? Think we'll break the decade-long drought of Cullen primes? Tell us in the forum thread for this challenge. Best of luck! 16 Nov 2020 | 2:46:34 UTC · Comment

... more

News is available as an RSS feed   RSS


Newly reported primes

(Mega-primes are in bold.)

5763641398377*2^1290000-1 (YuW3-810); 206897602^32768+1 (Philipp Schulz); 206879364^32768+1 (Renix); 5762479998957*2^1290000-1 (Todderbert); 99458608^65536+1 (ruditapper); 4839*2^3341309+1 (Merimac Strongbottom); 99443134^65536+1 (CGB); 5754564148947*2^1290000-1 (Yegor001); 206706230^32768+1 (Penguin); 99416780^65536+1 (CGB); 5759526752457*2^1290000-1 (Brent); 5753907416535*2^1290000-1 (RoKro); 206519972^32768+1 (Penguin); 5757912668097*2^1290000-1 (reiner); 5745717894525*2^1290000-1 (288larsson); 206482186^32768+1 (Penguin); 5409*2^1611070+1 (pudge94); 5752227750087*2^1290000-1 (Penguin); 206355000^32768+1 (Christoph); 206346962^32768+1 (Juergen)

Top Crunchers:

Top participants by RAC

Syracuse University100930506.4
Science United43269324.22
tng17554454.08
Ryan Dark10438182.11
Miklos M.9576373.93
Jesmar9427195.7
Grzegorz Roman Granowski9291251.41
DeleteNull6496251.96
Scott Brown5333616.87
Pavel Atnashev5260666.58

Top teams by RAC

Antarctic Crunchers31609120.84
SETI.Germany22159069.86
Aggie The Pew18889752.39
The Scottish Boinc Team18319057.4
Team 2ch14561417.12
Czech National Team12407582.86
Sicituradastra.10669288.74
GoEngineer Inc.10437989.09
Storm9940505.38
SETI.USA8566319.1
[Return to PrimeGrid main page]
DNS Powered by DNSEXIT.COM
Copyright © 2005 - 2020 Rytis Slatkevičius (contact) and PrimeGrid community. Server load 4.12, 3.71, 4.15
Generated 5 Dec 2020 | 15:31:07 UTC