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sav08:qbf_and_quantifier_elimination [2008/03/10 11:16] vkuncak |
sav08:qbf_and_quantifier_elimination [2008/03/11 16:14] vkuncak |
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====== QBF and Quantifier Elimination ====== | ====== QBF and Quantifier Elimination ====== | ||
- | === Quantified Propositional Formula Syntax === | + | ===== Quantified Propositional Formula Syntax ===== |
We extend the definition of formulas with quantifiers $\forall p.F$ and $\exists p.F$ where $p \in V$: | We extend the definition of formulas with quantifiers $\forall p.F$ and $\exists p.F$ where $p \in V$: | ||
\[\begin{array}{rcl} | \[\begin{array}{rcl} | ||
F & ::= & V \mid {\it false} \mid {\it true} \mid (F \land F) \mid (F \lor F) \mid (\lnot F) \mid (F \rightarrow F) \mid (F \leftrightarrow F) \\ | F & ::= & V \mid {\it false} \mid {\it true} \mid (F \land F) \mid (F \lor F) \mid (\lnot F) \mid (F \rightarrow F) \mid (F \leftrightarrow F) \\ | ||
- | & & \forall V. F\ \mid\ \exists V. F | + | & \mid & \forall V. F\ \mid\ \exists V. F |
\end{array} | \end{array} | ||
\] | \] | ||
- | === Eliminating quantifiers by expansion === | + | ===== Eliminating quantifiers by expansion ===== |
We can apply the following rules to eliminate propositional quantifiers: | We can apply the following rules to eliminate propositional quantifiers: | ||
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Notion of quantifier elimination applies to other logic as well. | Notion of quantifier elimination applies to other logic as well. | ||
- | Definition: A logic has //quantifier elimination// if for every formula in the logic, there exists an equivalent formula without quantifiers. | + | **Definition:** A logic has //quantifier elimination// if for every formula in the logic, there exists an equivalent formula without quantifiers. |
- | Definition: A quantifier elimination algorithm is an algorithm that takes a formula in a logic and converts it into an equivalent formula without quantifiers. | + | **Definition:** A quantifier elimination algorithm is an algorithm that takes a formula in a logic and converts it into an equivalent formula without quantifiers. |
- | Note: Formula $F$ is valid iff $\forall p_1,\ldots,p_n. F$ is true. | + | **Observation:** Formula $F$ is valid iff $\forall p_1,\ldots,p_n. F$ is true. |
- | Note: Formula $F$ is satisfiable iff $\exists p_1,\ldots,p_n. F$ is true. | + | **Observation:** Formula $F$ is satisfiable iff $\exists p_1,\ldots,p_n. F$ is true. |
In general QBF formulas can have alternations between $\forall$ and $\exists$ quantifiers: | In general QBF formulas can have alternations between $\forall$ and $\exists$ quantifiers: | ||
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\] | \] | ||
- | === Notes on Computational Complexity === | + | ===== Quantified Propositional Formula Semantics ===== |
+ | |||
+ | We can similarly provide recursive semantic function definition for propositional logic. | ||
+ | |||
+ | ===== Summary of Computational Complexity of Problems ===== | ||
* checking satisfiability of propositional formula $F$ is NP-complete | * checking satisfiability of propositional formula $F$ is NP-complete |