The Zetafast algorithm for computing zeta functions
Abstract
We express the Riemann zeta function ζ(s) of argument s=σ+iτ with imaginary part τ in terms of three absolutely convergent series. The resulting simple algorithm allows to compute, to arbitrary precision, ζ(s) and its derivatives using at most C(ε)|τ|12+ε summands for any ε>0, with explicit error bounds. It can be regarded as a quantitative version of the approximate functional equation. The numerical implementation is straightforward. The approach works for any type of zeta function with a similar functional equation such as Dirichlet L-functions, or the Davenport-Heilbronn type zeta functions.
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