Abstract
For a rational functionf/g=f(x)/g(x) over a fieldF with ged (f,g)=1 and deg (g)≥1 letK(f/g) be the maximum degree of the partial quotients in the continued fraction expansion off/. ForfeF[x] with deg (f)=k≥1 andf(O)≠O putL(f)=K(f(x)/x k ). It is shown by an explicit construction that for every integerb with 1≤b≤k there exists anf withL(f)=b. IfF=F 2, the binary field, then for everyk there is exactly onefeF 2[x] with deg (f)=k,f(O)≠O, andL(f)=1. IfF q is the finite field withq elements andgeF q [x] is monic of degreek≥1, then there exists a monic irreduciblefeF q [x] with deg (f)=k, gcd (f,g)=1, andK(f/g)<2+2 (logk)/logq, where the caseq=k=2 andg(x)=x 2+x+1 is excluded. An analogous existence theorem is also shown for primitive polynomials over finite fields. These results have applications to pseudorandom number generation.
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