© 2018, Springer Nature Switzerland AG. Automata and branching programs are known models of computation with restricted memory. These models of computation were in focus of a large number of researchers during the last decades. Streaming algorithms are a modern model of computation with restricted memory. In this paper, we present recent results on the comparative computational power of quantum and classical models of branching programs and streaming algorithms. In addition to comparative complexity results, we present a quantum branching program for computing a practically important quantum function (quantum hash function) and prove optimality of this algorithm
AbstractIn this paper, the space complexity of non-uniform quantum algorithms is investigated using ...
We present classical simulation techniques for measure once quantum branching programs. For bounded ...
In this paper we review our current results concerning the computational power of quantum read-once ...
© 2018, Springer Nature Switzerland AG. Automata and branching programs are known models of computat...
© 2018 Author(s). We investigate the branching program complexity of quantum hashing. We consider a ...
We present a classical stochastic simulation technique of quantum Branching programs. This technique...
We present a survey of the communication point of view for a complexity lower bounds proof technique...
In the talk we present results on comparitve power of classical and quantum computational models. We...
In this paper, we show that one-qubit polynomial time computations are as powerful as NC1 circuits. ...
In this paper we study a model of a Quantum Branching Program (QBP) and investigate its computationa...
We present classical simulation techniques for measure once quantum branching programs. For b...
AbstractIn this paper, we show that one-qubit polynomial time computations are as powerful as NC1 ci...
The complexity classes defined on the basis of branching programs are considered. Some basic relatio...
We prove upper and lower bounds on the power of quantum and stochastic branching programs of bounded...
© Springer International Publishing Switzerland 2014. In this paper we show a computational aspect o...
AbstractIn this paper, the space complexity of non-uniform quantum algorithms is investigated using ...
We present classical simulation techniques for measure once quantum branching programs. For bounded ...
In this paper we review our current results concerning the computational power of quantum read-once ...
© 2018, Springer Nature Switzerland AG. Automata and branching programs are known models of computat...
© 2018 Author(s). We investigate the branching program complexity of quantum hashing. We consider a ...
We present a classical stochastic simulation technique of quantum Branching programs. This technique...
We present a survey of the communication point of view for a complexity lower bounds proof technique...
In the talk we present results on comparitve power of classical and quantum computational models. We...
In this paper, we show that one-qubit polynomial time computations are as powerful as NC1 circuits. ...
In this paper we study a model of a Quantum Branching Program (QBP) and investigate its computationa...
We present classical simulation techniques for measure once quantum branching programs. For b...
AbstractIn this paper, we show that one-qubit polynomial time computations are as powerful as NC1 ci...
The complexity classes defined on the basis of branching programs are considered. Some basic relatio...
We prove upper and lower bounds on the power of quantum and stochastic branching programs of bounded...
© Springer International Publishing Switzerland 2014. In this paper we show a computational aspect o...
AbstractIn this paper, the space complexity of non-uniform quantum algorithms is investigated using ...
We present classical simulation techniques for measure once quantum branching programs. For bounded ...
In this paper we review our current results concerning the computational power of quantum read-once ...