The Communication Complexity of Correlation

We examine the communication required for generating random variables remotely. One party Alice is given a distribution D , and she has to send a message to Bob , who is then required to generate a value with distribution exactly D . Alice and Bob are allowed to share random bits generated without t...

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Bibliographic Details
Published inTwenty-Second Annual IEEE Conference on Computational Complexity (CCC'07) pp. 10 - 23
Main Authors Harsha, Prahladh, Jain, Rahul, McAllester, David, Radhakrishnan, Jaikumar
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2007
Subjects
Channel capacity
Character generation
Complexity theory
Data processing
Entropy
Mutual information
Protocols
Quantum computing
Random variables
Sampling methods
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ISBN9780769527802
0769527809
ISSN1093-0159
DOI10.1109/CCC.2007.32

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Summary:We examine the communication required for generating random variables remotely. One party Alice is given a distribution D , and she has to send a message to Bob , who is then required to generate a value with distribution exactly D . Alice and Bob are allowed to share random bits generated without the knowledge of D . There are two settings based on how the distribution D provided to Alice is chosen. If D is itself chosen randomly from some set (the set and distribution are known in advance) and we wish to minimize the expected communication in order for Alice to generate a value y, with distribution D , then we characterize the communication required in terms of the mutual information between the input to Alice and the output Bob is required to generate. If D is chosen from a set of distributions D , and we wish to devise a protocol so that the expected communication (the randomness comes from the shared random string and Alice coin tosses) is small for each D ϵ D , then we characterize the communication required in this case in terms of the channel capacity associated with the set D . Our proofs are based on an improved rejection sampling procedure that relates the relative entropy between two distributions to the communication complexity of generating one distribution from the other. As an application of these results, we derive a direct sum theorem in communication complexity that substantially improves the previous such result shown by Jain et al. [JRSb].
ISBN:9780769527802
0769527809
ISSN:1093-0159
DOI:10.1109/CCC.2007.32