Quote:
Originally Posted by fivemack
Write R as a continued fraction, compute the convergents, and the denominator of a convergent sufficiently far along the list will be a usable M  roughly, and there are various O(1) factors here which you probably want to look up in Hardy & Wright, if D is the denominator of a continued fraction convergent then DR will be within about 1/D of an integer.
Code:
default(realprecision,500)
p=Pi()
M=contfracpnqn(contfrac(p,21))
M[2,1]*p
If you want a worstcase term, there's a nice theorem that phi = (1+sqrt(5))/2 is the hardest number to approximate with continued fractions, and the nth denominator of the continued fraction of phi is the nth Fibonacci number. So if you take your epsilon, and let n be the index of the first Fibonacci number larger than the reciprocal of epsilon, the denominator of the nth continued fraction convergent of R will definitely be a usable multiplier.

Really helpful  thank you  plenty for me to get my teeth into there!
Regards,
Mick.