Title :
Paris-Harrington Tautologies
Author :
Carlucci, Lorenzo ; Galesi, Nicola ; Lauria, Massimo
Author_Institution :
Dipt. di Inf., Univ. di Roma La Sapienza, Rome, Italy
Abstract :
We study the proof complexity of Paris-Harrington´s Large Ramsey Theorem for bi-colorings of graphs. We prove a non-trivial conditional lower bound in Resolution and a quasi-polynomial upper bound in bounded-depth Frege. The lower bound is conditional on a (very reasonable) hardness assumption for a weak (quasi-polynomial) Pigeonhole principle in RES(2). We show that under such assumption, there is no refutation of the Paris-Harrington formulas of size quasi-polynomial in the number of propositional variables. The proof technique for the lower bound extends the idea of using a combinatorial principle to blow-up a counterexample for another combinatorial principle beyond the threshold of inconsistency. A strong link with the proof complexity of an unbalanced Ramsey principle for triangles is established. This is obtained by adapting some constructions due to Erdos and Mills.
Keywords :
computational complexity; graph colouring; Paris-Harrington tautologies; bounded depth Frege; combinatorial principle; graph bicolorings; large Ramsey theorem; pigeonhole principle; proof complexity; quasipolynomial upper bound; Complexity theory; Decision trees; Encoding; Indexes; Polynomials; Upper bound; bounded-depth frege; proof complexity; ramsey; resolution;
Conference_Titel :
Computational Complexity (CCC), 2011 IEEE 26th Annual Conference on
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4577-0179-5
Electronic_ISBN :
1093-0159
DOI :
10.1109/CCC.2011.17
