1. Holographic algorithms beyond matchgates.
- Author
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Cai, Jin-Yi, Guo, Heng, and Williams, Tyson
- Subjects
- *
MATHEMATICAL programming , *MATHEMATICS theorems , *HOLOGRAPHY , *POLYNOMIAL time algorithms , *MACHINE theory , *MATHEMATICAL models - Abstract
Holographic algorithms introduced by Valiant have two ingredients: matchgates, which are gadgets realizing local constraint functions by weighted planar perfect matchings, and holographic reductions, which show equivalences among problems with different descriptions via basis transformations. In this paper, we replace matchgates in the paradigm above by the affine type and the product type constraint functions, which are known to be tractable in general (not necessarily planar) graphs. We present polynomial-time algorithms to decide if a given counting problem has a holographic reduction to another problem defined by the affine or product-type functions. We also give polynomial-time algorithms to the same problems for symmetric functions, where the complexity is measured in terms of the (exponentially more) succinct representations. The latter result implies that the symmetric Boolean Holant dichotomy (Cai, Guo, and Williams, SICOMP 2016) is efficiently decidable. Our proof techniques are mainly algebraic. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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