Add to ORKGWe give a tight lower bound of Omega(\sqrt{n}) for the randomized one-way communication complexity of the Boolean Hidden Matching Problem [BJK04]. Since there is a quantum one-way communication complexity protocol of O(\log n) qubits for this problem, we obtain an exponential separation of quantum and classical one-way communication complexity for partial functions. A similar result was independently obtained by Gavinsky, Kempe, de Wolf [GKdW06]. Our lower bound is obtained by Fourier analysis, using the Fourier coefficients inequality of Kahn Kalai and Linial [KKL88]
I show that a simple multi-party communication task can be performed more efficiently with quantum c...
Buhrman, Cleve and Wigderson (STOC'98) showed that for every Boolean function f : {-1,1}^n to {-1,1}...
AbstractThis work studies the quantum query complexity of Boolean functions in an unbounded-error sc...
We give a tight lower bound of Ω( n) for the randomized one-way communication complexity of the Bool...
We give an exponential separation between one-way quantum and classical communication protocols for ...
We give the first exponential separation between quantum and bounded-error randomized one-way commun...
We give an exponential separation between one-way quantum and classical communication protocols for ...
We give an exponential separation between one-way quantum and classical communication complexity for...
We give an exponential separation between one-way quan-tum and classical communication protocols for...
We give an exponential separation between one-way quantum and classical communication protocols for ...
We prove a general lower bound on the bounded-error entanglement-assisted quantum communication comp...
We use the venerable "fooling set" method to prove new lower bounds on the quantum communication com...
AbstractIn the setting of communication complexity, two distributed parties want to compute a functi...
Classical Communication complexity has been intensively studied since its conception two decades ag...
We show lower bounds in the multi-party quantum communication complexity model. In this model, there...
I show that a simple multi-party communication task can be performed more efficiently with quantum c...
Buhrman, Cleve and Wigderson (STOC'98) showed that for every Boolean function f : {-1,1}^n to {-1,1}...
AbstractThis work studies the quantum query complexity of Boolean functions in an unbounded-error sc...
We give a tight lower bound of Ω( n) for the randomized one-way communication complexity of the Bool...
We give an exponential separation between one-way quantum and classical communication protocols for ...
We give the first exponential separation between quantum and bounded-error randomized one-way commun...
We give an exponential separation between one-way quantum and classical communication protocols for ...
We give an exponential separation between one-way quantum and classical communication complexity for...
We give an exponential separation between one-way quan-tum and classical communication protocols for...
We give an exponential separation between one-way quantum and classical communication protocols for ...
We prove a general lower bound on the bounded-error entanglement-assisted quantum communication comp...
We use the venerable "fooling set" method to prove new lower bounds on the quantum communication com...
AbstractIn the setting of communication complexity, two distributed parties want to compute a functi...
Classical Communication complexity has been intensively studied since its conception two decades ag...
We show lower bounds in the multi-party quantum communication complexity model. In this model, there...
I show that a simple multi-party communication task can be performed more efficiently with quantum c...
Buhrman, Cleve and Wigderson (STOC'98) showed that for every Boolean function f : {-1,1}^n to {-1,1}...
AbstractThis work studies the quantum query complexity of Boolean functions in an unbounded-error sc...