This work targets fault-tolerant quantum computing and focuses on the problem of mapping reversible circuits into the Clifford+T quantum gate library. We present an automatically-generated database containing minimal-cost quantum circuits for Boolean functions up to 5 inputs. The database contains three circuits for each spectral-equivalent class representative, which are respectively optimized for the T-count, the T-depth, and the number of qubits. We show that any Boolean function can be derived from the implementation of its class representative without increasing any of the stated cost functions
Abstract. Due to its fault-tolerant gates, the Clifford+T library con-sisting of Hadamard (denoted b...
We observe an enormous increase in the computational power of digital computers. This was due to the...
This dissertation is devoted to efficient automated logic synthesis of reversible circuits using var...
Quantum computing is a newly emerging computing environment that has recently attracted intense rese...
Compact realizations of reversible logic functions are of interest in the design of quantum computer...
Abstract—This paper proposes an approach to optimally synthesize quantum circuits by symbolic reacha...
In this paper we discuss an efficient technique that can implement any given Boolean function as a q...
Quantum computing is an emerging technology that combines the principles of both computer science an...
The near-future possibility of Quantum supremacy, which aspires to establish a set of algorithms run...
This thesis submitted in partial fulfillment of the requirements for the degree of Bachelor of Scien...
There is no unique way to encode a quantum algorithm into a quantum circuit. With limited qubit coun...
This book presents a new optimization flow for quantum circuits realization. At the reversible level...
International audienceIn quantum computing the decoherence time of the qubits determines the computa...
For universal quantum computation, a major challenge to overcome for practical implementation is the...
Abstract We study two-qubit circuits over the Clifford+CS gate set, which consists of the Clifford g...
Abstract. Due to its fault-tolerant gates, the Clifford+T library con-sisting of Hadamard (denoted b...
We observe an enormous increase in the computational power of digital computers. This was due to the...
This dissertation is devoted to efficient automated logic synthesis of reversible circuits using var...
Quantum computing is a newly emerging computing environment that has recently attracted intense rese...
Compact realizations of reversible logic functions are of interest in the design of quantum computer...
Abstract—This paper proposes an approach to optimally synthesize quantum circuits by symbolic reacha...
In this paper we discuss an efficient technique that can implement any given Boolean function as a q...
Quantum computing is an emerging technology that combines the principles of both computer science an...
The near-future possibility of Quantum supremacy, which aspires to establish a set of algorithms run...
This thesis submitted in partial fulfillment of the requirements for the degree of Bachelor of Scien...
There is no unique way to encode a quantum algorithm into a quantum circuit. With limited qubit coun...
This book presents a new optimization flow for quantum circuits realization. At the reversible level...
International audienceIn quantum computing the decoherence time of the qubits determines the computa...
For universal quantum computation, a major challenge to overcome for practical implementation is the...
Abstract We study two-qubit circuits over the Clifford+CS gate set, which consists of the Clifford g...
Abstract. Due to its fault-tolerant gates, the Clifford+T library con-sisting of Hadamard (denoted b...
We observe an enormous increase in the computational power of digital computers. This was due to the...
This dissertation is devoted to efficient automated logic synthesis of reversible circuits using var...