Results 171 to 180 of about 475,169 (310)

Testing and Debugging Quantum Circuits

IEEE Transactions on Quantum Engineering
This article introduces a process framework for debugging quantum circuits, focusing on three distinct types of circuit blocks: amplitude–permutation, phase-modulation, and amplitude–redistribution circuit blocks. Our research addresses the
Sara Ayman Metwalli, Rodney Van Meter
doaj   +1 more source

Quantum Circuit Optimization for Solving Discrete Logarithm of Binary Elliptic Curves Obeying the Nearest-Neighbor Constrained. [PDF]

Entropy (Basel), 2022
Liu J, Wang H, Ma Z, Duan Q, Fei Y, Meng X.   +5 more
europepmc   +1 more source

AltGraph: Redesigning Quantum Circuits Using Generative Graph Models for Efficient Optimization [PDF]

arXiv
Quantum circuit transformation aims to produce equivalent circuits while optimizing for various aspects such as circuit depth, gate count, and compatibility with modern Noisy Intermediate Scale Quantum (NISQ) devices. There are two techniques for circuit transformation.
arxiv  

Approximation by Quantum Circuits

, 1995
Emanuel Knill
openalex   +2 more sources

Fabrication of GaAs-based integrated half and full adders by novel hexagonal BDD quantum circuit approach [PDF]

, 2002
Seiya Kasai, Miki Yumoto, Hideki Hasegawa   +2 more
openalex   +1 more source

Advances in Photonic Materials and Integrated Devices for Smart and Digital Healthcare: Bridging the Gap Between Materials and Systems

Advanced Materials, EarlyView.
This article summarizes significant technological advancements in materials, photonic devices, and bio‐interfaced systems, which demonstrate successful applications for impacting human healthcare via improved therapies, advanced diagnostics, and on‐skin health monitoring.
Seunghyeb Ban, Hoon Yi, Jaejin Park, Yunuo Huang, Ki Jun Yu, Woon‐Hong Yeo   +5 more
wiley   +1 more source

Predictive Time-Series Analysis of Single-Qubit Quantum Circuit Outcomes for a Superconducting Quantum Computer: Forecasting Error Patterns

IEEE Access
Quantum computing promises a paradigm shift in computational power. However, a major challenge is mitigating the inherent noise and errors in quantum circuits.
Mohammadreza Saghafi, Lamine Mili
doaj   +1 more source

Quantum K-means clustering method for detecting heart disease using quantum circuit approach. [PDF]

Soft comput, 2022
Kavitha SS, Kaulgud N.
europepmc   +1 more source

Reducing Circuit Depth in Quantum State Preparation for Quantum Simulation Using Measurements and Feedforward [PDF]

arXiv
Reducing circuit depth and identifying an optimal trade-off between circuit depth and width is crucial for successful quantum computation. In this context, mid-circuit measurement and feedforward have been shown to significantly reduce the depth of quantum circuits, particularly in implementing logical gates.
arxiv  

Fast parallel circuits for the quantum Fourier transform

, 2000
Richard Cleve, John Watrous
openalex   +2 more sources