Quantum squaring operation is a useful building block in implementing quantum algorithms
such as linear regression, regularized least squares algorithm, order-finding algorithm …

Quantum circuits for basic mathematical functions such as the square root are required to
implement scientific computing algorithms on quantum computers. Quantum circuits that are …

Quantum circuits that solve arithmetic problems find immense application in many quantum
algorithms like Grover's search algorithm, quantum cryptography, and quantum image …

The near-future possibility of Quantum supremacy, which aspires to establish a set of
algorithms running efficiently on a Quantum computer–have significantly fuelled the interest …

Quantum circuits for arithmetic functions over Galois fields such as squaring are required to
implement quantum cryptanalysis algorithms. Quantum circuits for integer arithmetic such as …

Quantum circuits for mathematical functions such as division are necessary to use quantum
computers for scientific computing. Quantum circuits based on Clifford+ T gates can easily …

Implementation of floating-point arithmetic with consistent rounding is a critical component of
many quantum algorithms. Quantum circuit implementations for squaring and division serve …

Quantum circuits are one of the best platforms to implement quantum algorithms.
Concerning fault-tolerant quantum circuit, the Clifford+ T gate set supports quantum circuits …

Quantum circuits of arithmetic operations such as addition are needed to implement
quantum algorithms in hardware. Quantum circuits based on Clifford+ T gates are used as …

Quantum circuits of arithmetic operations such as addition are needed to implement
quantum algorithms in hardware. Quantum circuits based on Clifford+ T gates are used as …