BOINC
https://boinc.berkeley.edu/
- BOINC lets you help cutting-edge science research using your computer. The BOINC app, running on your computer, downloads scientific computing jobs and runs them invisibly in the background. It’s easy and safe.
- About 30 science projects use BOINC. They investigate diseases, study climate change, discover pulsars, and do many other types of scientific research.
- The BOINC and Science United projects are located at the University of California, Berkeley and are supported by the National Science Foundation.
BOINC is a software platform for “volunteer computing”: large-scale distributed high-throughput computing using volunteered home computers and other resources.
Install BOINC
BOINC is a software platform for “volunteer computing”: large-scale distributed high-throughput computing using volunteered home computers and other resources.
- If you’re interested in donating your own computing power, go to the BOINC web site.
- Learn about other ways to help
- Report bugs by creating issues in this repo. Please report security issues by emailing David Anderson.
- For other information, visit the wiki
Copyright
The University of California holds the copyright on all BOINC source code. By submitting contributions to the BOINC code, you irrevocably assign all right, title, and interest, including copyright and all copyright rights, in such contributions to The Regents of the University of California, who may then use the code for any purpose that it desires.
License
BOINC is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
What’s ODLK1?
BOINC-project ODLK1 continues to solve the problem of BOINC-project ODLK.
The project generates a database of canonical forms (CF) of diagonal Latin squares (DLS) of order 10 having orthogonal diagonal Latin squares (ODLS).
About ODLK
ODLK project searches for orthogonal pairs of diagonal Latin squares of order 10.
In combinatorics and in experimental design, a Latin square is an n × n array filled with n different symbols, each occurring exactly once in each row and exactly once in each column. An example of a 3×3 Latin square is
The name “Latin square” was inspired by mathematical papers by Leonhard Euler (1707–1783), who used Latin characters as symbols,but any set of symbols can be used: in the above example, the alphabetic sequence A, B, C can be replaced by the integer sequence 1, 2, 3. Euler began the general theory of Latin squares.
What’s SRBase?
SRBase is a mathematical research project that uses Internet-connected computers trying to solve Sierpinski / Riesel Bases up to 1030. You can participate by downloading and running a free program on your computer.
The project is in collaboration with the Mersenne CRUS project.
The server is running on a private computer in a VM.
The project has passed the ninth year…
Compared with last years the following process was made:
2014–2015–1 base solved, 314 bases unstarted
2015–2016–5 bases solved, 297 bases unstarted
2016–2017–5 bases solved, 282 bases unstarted
2017–2018–1 base solved, 264 bases unstarted
2018–2019–6 bases solved, 218 bases unstarted
2019–2020–4 bases solved, 120 bases unstarted
2020–2021–3 bases solved, 101 bases unstarted
2021–2022–0 bases solved, 97 bases unstarted
2022–2023–3 bases solved, 69 bases unstarted
in total — 28 bases solved, 69 bases unstarted
Project people:
- Gary — Mersenne/CRUS admin — results
- Odicin — scripts
- walli — coding
- rebirther — SRBase admin
Project website: https://srbase.my-firewall.org/sr5
Our account: https://srbase.my-firewall.org/sr5/show_user.php?userid=3405
Rotop100.com Team: https://srbase.my-firewall.org/sr5/team_display.php?teamid=294
ROTOP100 BOINC TEAM
https://www.rotop100.com/home/bonic
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