The distribution of ITRM-recognizable reals

Abstract

Infinite Time Register Machines (ITRM's) are a well-established machine model for infinitary computations. Their computational strength relative to oracles is understood, see e.g. Koepke (2009), Koepke and Welch (2011) and Koepke and Miller (2008). We consider the notion of recognizability, which was first formulated for Infinite Time Turing Machines in Hamkins and Lewis (200) and applied to ITRM's in Carl et al. (2010). A real x is ITRM-recognizable iff there is an ITRM-program P such that Py stops with output 1 iff y=x, and otherwise stops with output 0. In Carl et al. (2010), it is shown that the recognizable reals are not contained in the computable reals. Here, we investigate in detail how the ITRM-recognizable reals are distributed along the canonical well-ordering <L of Gödel's constructible hierarchy L. In particular, we prove that the recognizable reals have gaps in <L, that there is no universal ITRM in terms of recognizability and consider a relativized notion of recognizability.