Add to ORKGOver the last decade, Quantum Computing hardware has rapidly developed and become a very intriguing, promising, and active research field among scientists worldwide. To achieve the desired quantum functionalities, quantum algorithms require translation from a high-level description to a machine-specific physical operation sequence. In contrast to classical compilers, state-of-the-art quantum compilers are in their infancy. We believe there is a research need for a quantum compiler that can deal with generic unitary operators and generate basic unitary operations according to quantum machines' diverse underlying technologies and characteristics. In this work, we introduce the Quantum Netlist Compiler (QNC) that converts arbitrary unitary ope...
Compiling quantum algorithms for near-term quantum computers (accounting for connectivity and native...
With the potential of quantum algorithms to solve intractable classical problems, quantum computing ...
The models and rules of quantum computation and quantum information processing (QIP) differ greatly ...
Practical realizations of quantum computers are poised to deliver outstanding computational capabili...
It's been a little more than 40 years since researchers first suggested exploiting quantum physics t...
The increasing capabilities of quantum computing hardware and the challenge of realizing deep quantu...
Quantum computers can solve certain problems much faster than classical computers. However, in order...
Simulating quantum systems is one of the most important potential applications of quantum computers....
A quantum computer consists of a set of quantum bits upon which operations called gates are applied ...
Any quantum computing application, once encoded as a quantum circuit, must be compiled before being ...
Quantum compiling means fast, device-aware implementation of quantum algorithms (i.e. quantum circui...
Quantum computing is currently moving from an academic idea to a practical reality. Quantum computin...
The models and rules of quantum computation and quantum information processing (QIP) differ greatly ...
Before executing a quantum algorithm, one must first decompose the algorithm into machine-level inst...
Building a quantum computer that surpasses the computational power of its classical counterpart is a...
Compiling quantum algorithms for near-term quantum computers (accounting for connectivity and native...
With the potential of quantum algorithms to solve intractable classical problems, quantum computing ...
The models and rules of quantum computation and quantum information processing (QIP) differ greatly ...
Practical realizations of quantum computers are poised to deliver outstanding computational capabili...
It's been a little more than 40 years since researchers first suggested exploiting quantum physics t...
The increasing capabilities of quantum computing hardware and the challenge of realizing deep quantu...
Quantum computers can solve certain problems much faster than classical computers. However, in order...
Simulating quantum systems is one of the most important potential applications of quantum computers....
A quantum computer consists of a set of quantum bits upon which operations called gates are applied ...
Any quantum computing application, once encoded as a quantum circuit, must be compiled before being ...
Quantum compiling means fast, device-aware implementation of quantum algorithms (i.e. quantum circui...
Quantum computing is currently moving from an academic idea to a practical reality. Quantum computin...
The models and rules of quantum computation and quantum information processing (QIP) differ greatly ...
Before executing a quantum algorithm, one must first decompose the algorithm into machine-level inst...
Building a quantum computer that surpasses the computational power of its classical counterpart is a...
Compiling quantum algorithms for near-term quantum computers (accounting for connectivity and native...
With the potential of quantum algorithms to solve intractable classical problems, quantum computing ...
The models and rules of quantum computation and quantum information processing (QIP) differ greatly ...