Lamé's theorem

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Lamé's Theorem is the result of Gabriel Lamé's analysis of the complexity of the Euclidean algorithm. Using Fibonacci numbers, he proved in 1844[1][2] that when looking for the greatest common divisor (GCD) of two integers a and b, the algorithm finishes in at most 5k steps, where k is the number of digits (decimal) of b.[3][4]

Statement

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The number of division steps in the Euclidean algorithm with entries   and   is less than   times the number of decimal digits of  .

Proof

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Let   be two positive integers. Applying to them the Euclidean algorithm provides two sequences   and   of positive integers such that, setting     and   one has

 

for   and

 

The number n is called the number of steps of the Euclidean algorithm, since it is the number of Euclidean divisions that are performed.

The Fibonacci numbers are defined by     and

 

for  

The above relations show that   and   By induction,

 

So, if the Euclidean algorithm requires n steps, one has  

One has   for every integer  , where   is the Golden ratio. This can be proved by induction, starting with     and continuing by using that  

 

So, if n is the number of steps of the Euclidean algorithm, one has

 

and thus

 

using  

If k is the number of decimal digits of  , one has   and   So,

 

and, as both members of the inequality are integers,

 

which is exactly what Lamé's theorem asserts.

As a side result of this proof, one gets that the pairs of integers   that give the maximum number of steps of the Euclidean algorithm (for a given size of  ) are the pairs of consecutive Fibonacci numbers.

References

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  1. ^ Lamé, Gabriel (1844). "Note sur la limite du nombre des divisions dans la recherche du plus grand commun diviseur entre deux nombres entiers". Comptes rendus des séances de l'Académie des Sciences (in French). 19: 867–870.
  2. ^ Shallit, Jeffrey (1994-11-01). "Origins of the analysis of the Euclidean algorithm". Historia Mathematica. 21 (4): 401–419. doi:10.1006/hmat.1994.1031. ISSN 0315-0860.
  3. ^ Weisstein, Eric W. "Lamé's Theorem". mathworld.wolfram.com. Retrieved 2023-05-09.
  4. ^ "Lame's Theorem - First Application of Fibonacci Numbers". www.cut-the-knot.org. Retrieved 2023-05-09.

Bibliography

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  • Bach, Eric (1996). Algorithmic number theory. Jeffrey Outlaw Shallit. Cambridge, Mass.: MIT Press. ISBN 0-262-02405-5. OCLC 33164327
  • Carvalho, João Bosco Pitombeira de (1993). Olhando mais de cima: Euclides, Fibonacci e Lamé. Revista do Professor de Matemática, São Paulo, n. 24, p. 32-40, 2 sem.