The canonical problem that gives an exponential separation between deterministic and randomized communication complexity in the classical two-party communication model is "Equality". In this work we show that even allowing access to an "Equality" oracle, deterministic protocols remain exponentially weaker than randomized ones. More precisely, we exhibit a total function on n bits with randomized one-sided communication complexity O(log n), but such that every deterministic protocol with access to "Equality" oracle needs Omega(n) cost to compute it. Additionally we exhibit a natural and strict infinite hierarchy within BPP, starting with the class P^{EQ} at its bottom
We study whether information complexity can be used to attack the long-standing open problem of prov...
We show a deterministic simulation (or lifting) theorem for composed problems f o Eq_n where the inn...
AbstractWe study the complexity of communication between two processors in terms of complexity class...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
plexity of the Equality Function We begin with an appetizer before starting the lecture proper — an ...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
AbstractWe prove that if BPP≠EXP, then every problem in BPP can be solved deterministically in subex...
Starting with the two standard model of randomized communication complexity, we study the communicat...
We study the power of randomness in the Number-on-Forehead (NOF) model in communication complexity. ...
We show that randomized communication complexity can be superlogarithmic in the partition number of ...
In this paper we study the individual communication complexity of the following problem. Alice recei...
In this paper we study the individual communication complexity of the following problem. Alice recei...
The EQUALITY problem is usually one’s first encounter with communication complexity and is one of th...
In 1986, Saks and Wigderson conjectured that the largest separation between deterministic and zero-e...
We study whether information complexity can be used to attack the long-standing open problem of prov...
We show a deterministic simulation (or lifting) theorem for composed problems f o Eq_n where the inn...
AbstractWe study the complexity of communication between two processors in terms of complexity class...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
plexity of the Equality Function We begin with an appetizer before starting the lecture proper — an ...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
AbstractWe prove that if BPP≠EXP, then every problem in BPP can be solved deterministically in subex...
Starting with the two standard model of randomized communication complexity, we study the communicat...
We study the power of randomness in the Number-on-Forehead (NOF) model in communication complexity. ...
We show that randomized communication complexity can be superlogarithmic in the partition number of ...
In this paper we study the individual communication complexity of the following problem. Alice recei...
In this paper we study the individual communication complexity of the following problem. Alice recei...
The EQUALITY problem is usually one’s first encounter with communication complexity and is one of th...
In 1986, Saks and Wigderson conjectured that the largest separation between deterministic and zero-e...
We study whether information complexity can be used to attack the long-standing open problem of prov...
We show a deterministic simulation (or lifting) theorem for composed problems f o Eq_n where the inn...
AbstractWe study the complexity of communication between two processors in terms of complexity class...