Temporal logic of actions

Temporal logic of actions (TLA) is a logic developed by Leslie Lamport, which combines temporal logic with a logic of actions. It is used to describe behaviours of concurrent systems.

Details

Statements in temporal logic are of the form $[A]_{t}$ , where A is an action and t contains a subset of the variables appearing in A. An action is an expression containing primed and non-primed variables, such as $x+x'*y=y'$ . The meaning of the non-primed variables is the variable's value in this state. The meaning of primed variables is the variable's value in the next state. The above expression means the value of x today, plus the value of x tomorrow times the value of y today, equals the value of y tomorrow.

The meaning of $[A]_{t}$ is that either A is valid now, or the variables appearing in t do not change. This allows for stuttering steps, in which none of the program variables change their values.

References

Lamport, Leslie (2002). Specifying Systems: The TLA⁺ Language and Tools for Hardware and Software Engineers. Addison-Wesley. ISBN 0-321-14306-X. Retrieved 2007-02-02.
Leslie Lamport (16 December 1994), Introduction to TLA (PDF), retrieved 2010-09-17

External links

Official TLA homepage
The TLA+ Proof System
Leslie Lamport, Thinking for Programmers, a gentle intro to TLA+ at Build 2014.

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Temporal logic of actions

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References

External links