For any n-bit boolean function f, we show that the randomized communication complexity of the composed function f o g^n, where g is an index gadget, is characterized by the randomized decision tree complexity of f. In particular, this means that many query complexity separations involving randomized models (e.g., classical vs. quantum) automatically imply analogous separations in communication complexity
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
While exponential separations are known between quantum and randomized communication complexity for ...
We prove that the PNP-type query complexity (alternatively, decision list width) of any boolean func...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
This will be a tutorial-style talk, with a particular focus on the following result. For any n-bit ...
This will be a tutorial-style talk, with a particular focus on the following result. For any n-bit ...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
We investigate the power of randomness in two-party communicationcomplexity. In particular, we study...
We investigate the power of randomness in two-party communicationcomplexity. In particular, we study...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
While exponential separations are known between quantum and randomized communication complexity for ...
We prove that the PNP-type query complexity (alternatively, decision list width) of any boolean func...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
For any n-bit boolean function f, we show that the randomized communication complexity of the compos...
This will be a tutorial-style talk, with a particular focus on the following result. For any n-bit ...
This will be a tutorial-style talk, with a particular focus on the following result. For any n-bit ...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
We investigate the power of randomness in two-party communicationcomplexity. In particular, we study...
We investigate the power of randomness in two-party communicationcomplexity. In particular, we study...
We investigate the power of randomness in two-party communication complexity. In particular, we stud...
While exponential separations are known between quantum and randomized communication complexity for ...
We prove that the PNP-type query complexity (alternatively, decision list width) of any boolean func...