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MCU
2004

On the Complexity of Universal Programs

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On the Complexity of Universal Programs
Abstract. This paper provides a framework enabling to define and determine the complexity of various universal programs U for various machines. The approach consists of first defining the complexity as the average number of instructions to be executed by U, when simulating the execution of one instruction of a program P with input x. To obtain a complexity that does not depend on P or x, we then introduce the concept of an introspection coefficient expressing the average number of instructions executed by U, for simulating the execution of one of its own instructions. We show how to obtain this coefficient by computing a square matrix whose elements are numbers of executed instructions when running selected parts of U on selected data. The coefficient then becomes the greatest eigenvalue of the matrix. We illustrate the approach using two examples of particularly efficient universal programs: one for a three-symbol Turing Machine (blank symbol not included) with an introspection coeffi...
Alain Colmerauer
Added 31 Oct 2010
Updated 31 Oct 2010
Type Conference
Year 2004
Where MCU
Authors Alain Colmerauer
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