FLOC 2018: FEDERATED LOGIC CONFERENCE 2018
In Between Resolution and Cutting Planes: A Study of Proof Systems for Pseudo-Boolean SAT Solving

Authors: Marc Vinyals, Jan Elffers, Jesús Giráldez-Crú, Stephan Gocht and Jakob Nordstrom

Paper Information

Title:In Between Resolution and Cutting Planes: A Study of Proof Systems for Pseudo-Boolean SAT Solving
Authors:Marc Vinyals, Jan Elffers, Jesús Giráldez-Crú, Stephan Gocht and Jakob Nordstrom
Proceedings:SAT Proceedings
Editors: Christoph M. Wintersteiger and Olaf Beyersdorff
Keywords:SAT solving, Pseudo-Boolean Solving, Proof complexity, Resolution, Cutting planes, Size, Space, Separations, Conflict-driven search
Abstract:

ABSTRACT. We initiate a proof complexity theoretic study of subsystems of cutting planes (CP) modelling proof search in conflict-driven pseudo-Boolean (PB) solvers. These algorithms combine restrictions such as that addition of constraints should always cancel a variable and/or that so-called saturation is used instead of division. It is known that on CNF inputs cutting planes with cancelling addition and saturation is essentially just resolution. We show that even if general addition is allowed, this proof system is still polynomially simulated by resolution with respect to proof size as long as coefficients are polynomially bounded.

As a further way of delineating the proof power of subsystems of CP, we propose to study a number of easy (but tricky) instances of problems in NP. Most of the formulas we consider have short and simple tree-like proofs in general CP, but the restricted subsystems seem to reveal a much more varied landscape. Although we are not able to formally establish separations between different subsystems of CP -which would require major technical breakthroughs in proof complexity- these formulas appear to be good candidates for obtaining such separations. We believe that a closer study of these benchmarks is a promising approach for shedding more light on the reasoning power of pseudo-Boolean solvers.

Pages:19
Talk:Jul 11 09:30 (Session 60F: Theory)
Paper: