Communication Complexity of Permutation-Invariant Functions
Abstract
Motivated by the quest for a broader understanding of communication complexity of simple functions, we introduce the class of "permutation-invariant" functions. A partial function is permutation-invariant if for every bijection and every , it is the case that . Most of the commonly studied functions in communication complexity are permutation-invariant. For such functions, we present a simple complexity measure (computable in time polynomial in given an implicit description of ) that describes their communication complexity up to polynomial factors and up to an additive error that is logarithmic in the input size. This gives a coarse taxonomy of the communication complexity of simple functions. Our work highlights the role of the well-known lower bounds of functions such as 'Set-Disjointness' and 'Indexing', while complementing them with the relatively lesser-known upper bounds for 'Gap-Inner-Product' (from the sketching literature) and 'Sparse-Gap-Inner-Product' (from the recent work of Canonne et al. [ITCS 2015]). We also present consequences to the study of communication complexity with imperfectly shared randomness where we show that for total permutation-invariant functions, imperfectly shared randomness results in only a polynomial blow-up in communication complexity after an additive overhead.
Keywords
Cite
@article{arxiv.1506.00273,
title = {Communication Complexity of Permutation-Invariant Functions},
author = {Badih Ghazi and Pritish Kamath and Madhu Sudan},
journal= {arXiv preprint arXiv:1506.00273},
year = {2015}
}