Eventual domination is a relation describing the asymptotic behavior of two functions.[1] The function \(f\) is said to eventually dominate \(g\) if \(f(n) > g(n)\) for all sufficiently large \(n\). That is, \(f\) asymptotically outgrows \(g\).

Theorems of the form "\(f\) eventually dominates every function with property \(P\)" are useful in formally giving a sense of scale for fast-growing functions. A common choice for \(P\) is the property of being provably recursive in certain formal theory, like Peano arithmetic or ZFC. In hypercomputable scenarios, \(P\) can be the property of being computable within a system such as Turing machines.

Over \(\mathbb{N} \rightarrow \mathbb{N}\), eventual domination is transitive relation. It is not total, since we can construct two different functions such that neither eventually dominates the other. This relation is however antisymmetric, and extending the relation to "\(f(n)\) eventually dominates \(g(n)\) or \(f(n)=g(n)\)" gives rise to a partial order.

Notation Edit

There is no standard symbol for eventual domination. Radó uses \(> -\),[2] while Long and Stanley use \(>^*\).[3]

Sbiis Saibian uses \([>]\) to represent a stronger condition:[4]

\[f\,[<]\,g \Leftrightarrow \forall k,m : \exists N: \forall n: n \geq N \Rightarrow f(n + m) + k < g(n)\]

In English, \(f\,[<]\,g\) means that any translation of the graph of \(f\) horizontally or vertically will still be eventually dominated by \(g\); Saibian suggests "\(g\) grows faster than \(f\)" as the name for this relation.[5] Of course, it implies that \(f\) is eventually dominated by \(g\).

On the wiki, Long and Stanley's \(>^*\) is used. The term is also used more loosely: for predicate \(P\), the statement "\(f >^*\) every function with property \(P\)" is simply abbreviated to \(f >^* P\). Furthermore, given a formal theory \(T\), the statement \(f >^* T\) means "\(f >^*\) every function provably recursive in theory \(T\)".

Sources Edit

  2. [1]
  3. [2]
  4. [3]
  5. Pers. comm.
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