Random Arithmetic Formulas can be Reconstructed Efficiently

Ankit Gupta, Neeraj Kayal, and Youming Qiao

June 2013

Informally stated, we present here a randomized algorithm that given blackbox access to the polynomial f computed by an unknown/hidden arithmetic formula reconstructs, on the average, an equivalent or smaller formula in time polynomial in the size of its output .

Specifically, we consider arithmetic formulas wherein the underlying tree is a complete binary tree, the leaf nodes are labelled by affine forms (i.e. degree one polynomials) over the input variables and where the internal nodes consist of alternating layers of addition and multiplication gates. We call these alternating normal form (ANF) formulas. If a polynomial f can be computed by an arithmetic formula of size s, it can also be computed by an ANF formula , possibly of slightly larger size poly(s). Our algorithm gets as input blackbox access to the output polynomial f (i.e. for any point x in the domain, it can query the blackbox and obtain f(x) in one step) of a random ANF formula of size s (wherein the coefficients of the affine forms in the leaf nodes of are chosen independently and uniformly at random from a large enough subset of the underlying field). With high probability (over the choice of coefficients in the leaf nodes), the algorithm efficiently (i.e. in time poly(s)) computes an ANF formula of size s computing f. This then is the strongest model of arithmetic computation for which a reconstruction algorithm is presently known, albeit efficient in a distributional sense rather than in the worst case.

Publication type | Inproceedings |

Published in | Conference on Computational Complexity |

URL | http://eccc.hpi-web.de/report/2012/033/ |

Publisher | IEEE IEEE |

Awards | Invited to Special Issue of Computational Complexity journal |

- A selection of lower bounds for arithmetic circuits
- A super-polynomial lower bound for regular arithmetic formulas.
- Affine Projections of Polynomials

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