Execution architectures for program algebra
Publication date
2007
Authors
Bergstra, J.A.
Ponse, A.
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Article
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Abstract
We investigate the notion of an execution architecture in the setting of the program algebra PGA, and distinguish two sorts of these: analytic architectures, designed for the purpose of explanation and provided with a process-algebraic, compositional semantics, and synthetic architectures, focusing on how a program may be a physical part of an execution architecture. Then we
discuss in detail the Turing machine, a well-known example of an analytic architecture. The logical core of the halting problem—
the inability to forecast termination behavior of programs—leads us to a few approaches and examples on related issues: forecasters and rational agents. In particular, we consider architectures suitable to run a Newcomb Paradox system and the Prisoner’s Dilemma.
Keywords
Halting problem, Execution of programs, Program algebra, Turing machine