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\begin{document}
\title{Mechanising Turing Machines and Computability Theory in Isabelle/HOL}
\author{Jian Xu\inst{1} \and Xingyuan Zhang\inst{1} \and Christian Urban\inst{2}}
\institute{PLA University of Science and Technology, China \and King's College London, UK}
\maketitle
\begin{abstract}
We present a formalised theory of computability in the theorem prover
Isabelle/HOL. This theorem prover is based on classical logic which
precludes \emph{direct} reasoning about computability: every boolean
predicate is either true or false because of the law of excluded
middle. The only way to reason about computability in a classical
theorem prover is to formalise a concrete model of computation. We
formalise Turing machines and relate them to abacus machines and
recursive functions. We also formalise a universal Turing machine and
Hoare-style reasoning techniques that allow us to reason about Turing machine
programs. Our theory can be used to formalise other computability
results. %We give one example about the computational equivalence of
%single-sided Turing machines.
%{\it we give one example about the undecidability of Wang's tiling problem, whose proof uses
%the notion of a universal Turing machine.}
\end{abstract}
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\end{document}
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