New one shot quantum protocols with application to communication complexity
Abstract
In this paper we present the following quantum compression protocol: P : Let be quantum states such that , the relative entropy between and , is finite. Alice gets to know the eigen-decomposition of . Bob gets to know the eigen-decomposition of . Both Alice and Bob know and an error parameter . Alice and Bob use shared entanglement and after communication of bits from Alice to Bob, Bob ends up with a quantum state such that , where represents fidelity. This result can be considered as a non-commutative generalization of a result due to Braverman and Rao [2011] where they considered the special case when and are classical probability distributions (or commute with each other) and use shared randomness instead of shared entanglement. We use P to obtain an alternate proof of a direct-sum result for entanglement assisted quantum one-way communication complexity for all relations, which was first shown by Jain, Radhakrishnan and Sen [2005,2008]. We also present a variant of protocol P in which Bob has some side information about the state with Alice. We show that in such a case, the amount of communication can be further reduced, based on the side information that Bob has. Our second result provides a quantum analogue of the widely used classical correlated-sampling protocol. For example, Holenstein [2007] used the classical correlated-sampling protocol in his proof of a parallel-repetition theorem for two-player one-round games.
Cite
@article{arxiv.1404.1366,
title = {New one shot quantum protocols with application to communication complexity},
author = {Anurag Anshu and Rahul Jain and Priyanka Mukhopadhyay and Ala Shayeghi and Penghui Yao},
journal= {arXiv preprint arXiv:1404.1366},
year = {2017}
}
Comments
23 pages. Changed title, abstract and presentation of the paper