Currently there may be errors shown on top of a page, because of a missing Wiki update (PHP version and extension DPL3).
Navigation
Topics Help • Register • News • History • How to • Sequences statistics • Template prototypes

M12

From Prime-Wiki
Revision as of 10:53, 26 February 2019 by Karbon (talk | contribs) (link corr.)
Jump to: navigation, search
M12
Prime class :
Type : Mersenne prime
Formula : Mn = 2n - 1
Prime data :
Rank : 12
n-value : 127
Number : 170141183460...715884105727
Digits : 39
Perfect number : 2126 • (2127-1)
Digits : 77
Discovery data :
Date of Discovery : 1876-01-10
Discoverer : Édouard Lucas
Found with : Lucas sequences

M12, the 12th known Mersenne prime 2127-1, often referred to as M127. This was first proven to be prime by Édouard Lucas in 1876, after 19 years of hand calculations (although it is claimed that it can be done by hand in 6 months of non-stop work. See video here.) In 1948 it took a computer 25 minutes to run the program to check it. Now it can be done on a "smart phone" in under one second. This was the largest known Mersenne prime until 1952, when Robinson at University of California, Los Angeles found M13, 2521-1.

Lucas had bypassed M9, M10, and M11. The casual observer might wonder how and why this happened. Lucas was following a sequence (see Double Mersenne number). The first possible Mersenne prime (21-1=2), when placed back in the formula (22-1=7) also produces a prime. When this value is tested (27-1=127), another prime is produced. So, Lucas was testing to see if this trend held.

There have been efforts to again test this trend. With a number so large 22127-1-1 = 2170 141 183 460 469 231 731 687 303 715 884 105 727-1, there is no hope of running a primality test on this number anytime in the foreseeable future. (It would take about 4 700 000 000 000 000 000 000 000 000 000 000 GHz-days to run the Lucas-Lehmer test on that number. Having the top 250 supercomputers working together at full power on this, it would take 161,600,000 times as long as the universe has existed.) This may be a case of the "Strong law of small numbers". The only way to be certain, is to find a factor, if one exists. Landon Curt Noll has trial factored this number up to a k value of at least 3,000,000,000,000 [1], a bit level over 169.4. The current version of Prime95 cannot handle numbers this large, nor can mfaktc.