Reversible logic is used increasingly to design digital circuits with lower power consumption.
The parity preserving (PP) property contributes to detect permanent and transient faults in …

In order to solve the fault tolerance and reliability problems of quantum circuit, a series of
structural equivalence rules and optimization operation strategies of quantum circuit are …

Efficient decomposition of permutation unitaries is vital as they frequently appear in quantum
computing. In this paper, we identify the key properties that impact the decomposition …

The prime objective behind the synthesis of quantum circuits in the field of quantum
computing is to obtain so-called quantum supremacy where many intractable problems can …

The design of reversible logic circuits has received considerable attention in recent times for
their potential use in implementing quantum computers. A fault model, namely, the Missing …

The quest of efficient quantum circuit is to achieve quantum supremacy in theory as well as
in practice. The foremost obstacle is to protect the cohesive time of extremely fragile …

Decoherence is the greatest obstacle to the physical realization of scalable quantum
computer, jeopardises coherent superposition of the qubit, and makes qubit extremely …

Optimization based on QC (quantum cost) for quantum circuits and the LNN (Linear Nearest
Neighbor) Architecture are the bases for map** quantum logic circuits into physical …

Nowadays, rapid advancement in quantum algorithm towards achieving so-called quantum
supremacy, calls for the design of high scalable quantum circuit. Quantum computers are …