Locality-preserving allocations Problems and coloured Bin Packing

Abstract

We study the following problem, introduced by Chung et al. in 2006. We are given, online or offline, a set of coloured items of different sizes, and wish to pack them into bins of equal size so that we use few bins in total (at most α times optimal), and that the items of each colour span few bins (at most β times optimal). We call such allocations (α, β)-approximate. As usual in bin packing problems, we allow additive constants and consider (α,β) as the asymptotic performance ratios. We prove that for >0, if we desire small α, no scheme can beat (1+, (1/))-approximate allocations and similarly as we desire small β, no scheme can beat (1.69103, 1+)-approximate allocations. We give offline schemes that come very close to achieving these lower bounds. For the online case, we prove that no scheme can even achieve (O(1),O(1))-approximate allocations. However, a small restriction on item sizes permits a simple online scheme that computes (2+, 1.7)-approximate allocations.