论文信息 - Meanders and Their Applications in Lower Bounds Arguments

Meanders and Their Applications in Lower Bounds Arguments

Abstract The notion of a meander is introduced and studied. Roughly speaking, a meander is a sequence of integers (drawn from the set N = [1, 2, …, n ]) that wanders back and forth between various subsets of N a lot . Using Ramsey theoretic proof techniques we obtain sharp lower bounds on the minimum length of meanders that achieve various levels of wandering. We then apply these bounds to improve existing lower bounds on the length of constant width branching programs for various symmetric functions. In particular, an Ω ( n log n ) lower bound on the length of any such program for the majority function of n bits is proved. We further obtain optimal time-space trade-offs for certain input oblivious branching programs and establish sharp lower bounds on the size of weak superconcentrators of depth 2.

Noga Alon | Wolfgang Maass | N. Alon | W. Maass

[1] Nicholas Pippenger,et al. Superconcentrators of Depth 2 , 1982, J. Comput. Syst. Sci..

[2] B. Bollobás,et al. Extremal Graph Theory , 2013 .

[3] Andrew C. Yao,et al. Lower bounds by probabilistic arguments , 1983, 24th Annual Symposium on Foundations of Computer Science (sfcs 1983).

[4] Vojtech Rödl,et al. Two lower bounds for branching programs , 1986, STOC '86.

[5] Allan Borodin,et al. A Time-Space Tradeoff for Sorting on a General Sequential Model of Computation , 1982, SIAM J. Comput..

[6] Wolfgang Maass,et al. On the use of inaccessible numbers and order indiscernibles in lower bound arguments for random access machines , 1988, Journal of Symbolic Logic.

[7] Allan Borodin,et al. A time-space tradeoff for sorting on a general sequential model of computation , 1980, STOC '80.

[8] A BarringtonDavid. Bounded-width polynomial-size branching programs recognize exactly those languages in NC1 , 1989 .

[9] David A. Mix Barrington,et al. Bounded-Width Polynomial-Size Branching Programs Recognize Exactly Those Languages in NC¹ , 1989, J. Comput. Syst. Sci..

[10] Michael Ben-Or,et al. Lower bounds for algebraic computation trees , 1983, STOC.

[11] David A. Mix Barrington,et al. Bounded-width polynomial-size branching programs recognize exactly those languages in NC1 , 1986, STOC '86.

[12] Vojtech Rödl,et al. Lower Bounds to the Complexity of Symmetric Boolean Functions , 1990, Theor. Comput. Sci..