Linear Lower Bounds and Simulations in Frege Systems with Substitutions
نویسندگان
چکیده
We investigate the complexity of proofs in Frege (F), Substitution Frege (sF) and Renaming Frege (rF) systems. Starting from a recent work of Urquhart and using Kolmogorov Complexity we give a more general framework to obtain superlogarithmic lower bounds for the number of lines in both tree-like and dag-like sF. We show the previous known lower bound, extend it to the tree-like case and, for another class of tautologies, we give new lower bounds that in the dag-like case slightly improve the previous one. Also we show optimality of Urquhart's lower bounds giving optimal proofs. Finally we give the following two simulation results: (1) tree-like sF p-simulates dag-like sF; (2) Tree-like F p-simulates tree-like rF.
منابع مشابه
The Deduction Rule and Linear and Near-Linear Proof Simulations
We introduce new proof systems for propositional logic, simple deduction Frege systems, general deduction Frege systems and nested deduction Frege systems, which augment Frege systems with variants of the deduction rule. We give upper bounds on the lengths of proofs in Frege proof systems compared to lengths in these new systems. As applications we give near-linear simulations of the propositio...
متن کاملGenerating Matrix Identities and Proof Complexity
Motivated by the fundamental lower bounds questions in proof complexity, we initiate the study of matrix identities as hard instances for strong proof systems. A matrix identity of d × d matrices over a field F, is a non-commutative polynomial f(x1, . . . , xn) over F such that f vanishes on every d × d matrix assignment to its variables. We focus on arithmetic proofs, which are proofs of polyn...
متن کاملLower Bounds for a Proof System with an Expentential Speed-up over Constant-Depth Frege Systems and over Polynomial Calculus
We prove lower bounds for a proof system having exponential speed-up over both polynomial calculus and constant-depth Frege systems in DeMorgan language.
متن کاملFeasible interpolation for lifted sequents
The idea of feasible interpolation for propositional proof systems is to derive lower bounds for propositional proofs using circuit lower bounds for Craig’s interpolant. However, as far as we know, proof systems such as constant-depth Frege do not admit feasible interpolation. We extend the notion of feasible interpolation so that it is admitted by a number of treelike propositional proof syste...
متن کاملA reduction of proof complexity to computational complexity for $AC^0[p]$ Frege systems
We give a general reduction of lengths-of-proofs lower bounds for constant depth Frege systems in DeMorgan language augmented by a connective counting modulo a prime p (the so called AC[p] Frege systems) to computational complexity lower bounds for search tasks involving search trees branching upon values of maps on the vector space of low degree polynomials over Fp. In 1988 Ajtai [2] proved th...
متن کامل