On a problem posed by Steve Smale

The 17th of the problems proposed by Steve Smale for the 21st century asks for the existence of a deterministic algorithm computing an approximate solution of a system of n complex polynomials in n unknowns in time polynomial, on the average, in the size Ν of the input system. A partial solution to...

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Bibliographic Details
Published in:Annals of mathematics 2011-11, Vol.174 (3), p.1785-1836
Main Authors: Bürgisser, Peter, Cucker, Felipe
Format: Article
Language:English
Subjects:
Approximate zero
Determinism
Exact sciences and technology
Gaussian distributions
General mathematics
General, history and biography
Inner products
Jacobians
Mathematical theorems
Mathematics
Polynomials
Sciences and techniques of general use
Sine function
Zero
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Summary:The 17th of the problems proposed by Steve Smale for the 21st century asks for the existence of a deterministic algorithm computing an approximate solution of a system of n complex polynomials in n unknowns in time polynomial, on the average, in the size Ν of the input system. A partial solution to this problem was given by Carlos Beltrán and Luis Miguel Pardo who exhibited a randomized algorithm doing so. In this paper we further extend this result in several directions. Firstly, we exhibit a linear homotopy algorithm that efficiently implements a nonconstructive idea of Mike Shub. This algorithm is then used in a randomized algorithm, call it LV, à la Beltrán-Pardo. Secondly, we perform a smoothed analysis (in the sense of Spielman and Teng) of algorithm LV and prove that its smoothed complexity is polynomial in the input size and σ⁻¹, where σ controls the size of of the random perturbation of the input systems. Thirdly, we perform a condition-based analysis of LV. That is, we give a bound, for each system ƒ, of the expected running time of LV with input ƒ. In addition to its dependence on Ν this bound also depends on the condition of ƒ. Fourthly, and to conclude, we return to Smale's 17th problem as originally formulated for deterministic algorithms. We exhibit such an algorithm and show that its average complexity is N O(log log N) . This is nearly a solution to Smale's 17th problem.
ISSN:0003-486X
1939-8980
DOI:10.4007/annals.2011.174.3.8