The power of quantum computing technologies is based on the fundamentals of quantum
mechanics, such as quantum superposition, quantum entanglement, or the no-cloning …

The concept of quantum computing has inspired a whole new generation of scientists,
including physicists, engineers, and computer scientists, to fundamentally change the …

Compiling quantum algorithms for near-term quantum computers (accounting for
connectivity and native gate alphabets) is a major challenge that has received significant …

Crosstalk is a major source of noise in Noisy Intermediate-Scale Quantum (NISQ) systems
and is a fundamental challenge for hardware design. When multiple instructions are …

Implementing a gate-based quantum algorithm on an noisy intermediate scale quantum
(NISQ) device has several challenges that arise from the fact that such devices are noisy …

Abstract A Flexible Representation of Quantum Images (FRQI) is proposed to provide a
representation for images on quantum computers in the form of a normalized state which …

The circuit model of a quantum computer consists of sequences of gate operations between
quantum bits (qubits), drawn from a universal family of discrete operations. The ability to …

Quantum mechanics predicts a number of, at first sight, counterintuitive phenomena. It
therefore remains a question whether our intuition is the best way to find new experiments …

We develop and implement automated methods for optimizing quantum circuits of the size
and type expected in quantum computations that outperform classical computers. We show …

Abstract We introduce $\texttt {Yao} $, an extensible, efficient open-source framework for
quantum algorithm design. $\texttt {Yao} $ features generic and differentiable programming …