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Journal of Physics A: Mathematical and General Volume 37 Number 1 Create an alert RSS this journal

Carl M Bender et al 2004 J. Phys. A: Math. Gen. 37 147 doi:10.1088/0305-4470/37/1/010

What is the optimal shape of a city?

Carl M Bender1, Michael A Bender2, Erik D Demaine3 and Sándor P Fekete4

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Abstract References Cited By

If one defines the distance between two points as the Manhattan distance (the sum of the horizontal distance along streets and the vertical distance along avenues) then one can define a city as being optimal if the average distance between pairs of points is a minimum. In this paper a nonlinear differential equation for the boundary curve of such a city is determined. The problem solved here is the continuous version of an optimization problem on how to design efficient allocation algorithms for massively parallel supercomputers. In the language of continuum mechanics, the shape of the optimal city is that taken by a blob of incompressible fluid composed of molecules whose pairwise interactions are described by an attractive potential proportional to the Manhattan distance between the particles.


PACS

89.20.Ff Computer science and technology

46.15.Cc Variational and optimizational methods

MSC

68W10 Parallel algorithms

76Mxx Basic methods in fluid mechanics (See also 65-XX)

Subjects

Computational physics

Condensed matter: structural, mechanical & thermal

Dates

Issue 1 (9 January 2004)

Received 31 July 2003

Published 10 December 2003



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