特征为零的域上的深度-3算术公式

Proceedings. Fourteenth Annual IEEE Conference on Computational Complexity (Formerly: Structure in Complexity Theory Conference) (Cat.No.99CB36317) Pub Date : 1999-05-04 DOI:10.1109/CCC.1999.766267

Amir Shpilka, A. Wigderson

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引用次数: 56

摘要

本文证明了特征为零的域上深度3算术公式的近二次下界。对于初等对称函数，迭代矩阵乘法的(迹)，以及行列式，都得到了这样的界。作为推论，我们得到了计算常次多项式的第一个非平凡下界，以及幂深度-3算术公式和深度-4算术公式之间的差距。主要的技术贡献是将该模型中计算多项式的复杂性与它在每个小协维仿射子空间上的偏导数的丰富性联系起来。相关模型的下界利用布尔公式上的Nechiporuk下界的代数模拟。

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Depth-3 arithmetic formulae over fields of characteristic zero

In this paper we prove near quadratic lower bounds for depth-3 arithmetic formulae over fields of characteristic zero. Such bounds are obtained for the elementary symmetric functions, the (trace of) iterated matrix multiplication, and the determinant. As corollaries we get the first non-trivial lower bounds for computing polynomials of constant degree, and a gap between the power depth-3 arithmetic formulas and depth-4 arithmetic formulas. The main technical contribution relates the complexity of computing a polynomial in this model to the wealth of partial derivatives it has on every affine subspace of small co-dimension. Lower bounds for related models utilize an algebraic analog of Nechiporuk lower bound on Boolean formulae.

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Proceedings. Fourteenth Annual IEEE Conference on Computational Complexity (Formerly: Structure in Complexity Theory Conference) (Cat.No.99CB36317)

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