AbstractLet f(x1, …, xk) be a Boolean function that k parties wish to collaboratively evaluate, where each xi is a bit-string of length n. The ith party knows each input argument except xi; and each party has unlimited computational power. They share a blackboard, viewed by all parties, where they can exchange messages. The objective is to minimize the number of bits written on the board. We prove lower bounds of the form Ω(n · c−k), for the number of bits that need to be exchanged in order to compute some (explicitly given) polynomial time computable functions. Our bounds hold even if the parties only wish to have a 1 % advantage at guessing the value of f on random inputs. The lower bound proofs are based on discrepancy upper bounds for s...
We extend recent techniques for time-space tradeoff lower bounds using multiparty communication comp...
We initiate a study of tradeoffs between communication and computation in well-known communication m...
We define pseudorandom generators for Yao's twoparty communication complexity model and exhibit...
AbstractLet f(x1, …, xk) be a Boolean function that k parties wish to collaboratively evaluate, wher...
AbstractWe derive a general technique for obtaining lower bounds on the multiparty communication com...
In 1989, Babai, Nisan and Szegedy gave a construction of a pseudorandom generator for logspace, base...
In this paper we prove lower bounds on randomized multiparty communication complexity, both in the b...
International audienceWe consider multiparty information-theoretic private protocols, and specifical...
We consider the amount of randomness used in private distributed computations. Specifically, we show...
We exhibit an explicit function f: {0,1}n → {0,1} that can be computed by a nonde-terministic number...
© Dylan M. McKay and Richard Ryan Williams. We define a model of size-S R-way branching programs wit...
Communication complexity is an area of complexity theory that studies an abstract model of computati...
Parallel time and space are perhaps the two most fundamental resources in computation. They appear t...
Abstract. We present a pseudo-random bit generator expanding a uniformly random bit-string r of leng...
In this chapter we survey the theory of two-party communication complexity. This field of theoretica...
We extend recent techniques for time-space tradeoff lower bounds using multiparty communication comp...
We initiate a study of tradeoffs between communication and computation in well-known communication m...
We define pseudorandom generators for Yao's twoparty communication complexity model and exhibit...
AbstractLet f(x1, …, xk) be a Boolean function that k parties wish to collaboratively evaluate, wher...
AbstractWe derive a general technique for obtaining lower bounds on the multiparty communication com...
In 1989, Babai, Nisan and Szegedy gave a construction of a pseudorandom generator for logspace, base...
In this paper we prove lower bounds on randomized multiparty communication complexity, both in the b...
International audienceWe consider multiparty information-theoretic private protocols, and specifical...
We consider the amount of randomness used in private distributed computations. Specifically, we show...
We exhibit an explicit function f: {0,1}n → {0,1} that can be computed by a nonde-terministic number...
© Dylan M. McKay and Richard Ryan Williams. We define a model of size-S R-way branching programs wit...
Communication complexity is an area of complexity theory that studies an abstract model of computati...
Parallel time and space are perhaps the two most fundamental resources in computation. They appear t...
Abstract. We present a pseudo-random bit generator expanding a uniformly random bit-string r of leng...
In this chapter we survey the theory of two-party communication complexity. This field of theoretica...
We extend recent techniques for time-space tradeoff lower bounds using multiparty communication comp...
We initiate a study of tradeoffs between communication and computation in well-known communication m...
We define pseudorandom generators for Yao's twoparty communication complexity model and exhibit...