Dickman function


In analytic number theory, the Dickman function or Dickman–de Bruijn function ρ is a special function used to estimate the proportion of smooth numbers up to a given bound.
It was first studied by actuary Karl Dickman, who defined it in his only mathematical publication, and later studied by the Dutch mathematician Nicolaas Govert de Bruijn.

Definition

The Dickman–de Bruijn function is a continuous function that satisfies the delay differential equation
with initial conditions for 0 ≤ u ≤ 1.

Properties

Dickman proved that, when is fixed, we have
where is the number of y-smooth integers below x.
Ramaswami later gave a rigorous proof that for fixed a, was asymptotic to, with the error bound
in big O notation.

Applications

The main purpose of the Dickman–de Bruijn function is to estimate the frequency of smooth numbers at a given size. This can be used to optimize various number-theoretical algorithms such as P-1 factoring and can be useful of its own right.
It can be shown using that
which is related to the estimate below.
The Golomb–Dickman constant has an alternate definition in terms of the Dickman–de Bruijn function.

Estimation

A first approximation might be A better estimate is
where Ei is the exponential integral and ξ is the positive root of
A simple upper bound is
11
23.0685282
34.8608388
44.9109256
53.5472470
61.9649696
78.7456700
83.2320693
91.0162483
102.7701718

Computation

For each interval with n an integer, there is an analytic function such that. For 0 ≤ u ≤ 1,. For 1 ≤ u ≤ 2,. For 2 ≤ u ≤ 3,
with Li2 the dilogarithm. Other can be calculated using infinite series.
An alternate method is computing lower and upper bounds with the trapezoidal rule; a mesh of progressively finer sizes allows for arbitrary accuracy. For high precision calculations, a recursive series expansion about the midpoints of the intervals is superior.

Extension

Friedlander defines a two-dimensional analog of. This function is used to estimate a function similar to de Bruijn's, but counting the number of y-smooth integers with at most one prime factor greater than z. Then