These properties include quantum bit ("qubit") and entanglement where the states of two or more atomic particles influence one another. The information about these states can overlap and provide the very large parallel-computing power of the QC. The objective of the present report is to ...
such as chemical reactions, biological reactions, and material formations, often involve many-body quantum interactions. Quantum computing is promising for simulating intrinsically quantum mechanical systems, such as molecules, because
Quantum computing is different from traditional computing because it uses ___. A. quanta B. quarks C. qubits D. quantums 相关知识点: 试题来源: 解析 C。本题考查量子计算的基本概念。量子计算使用量子比特(qubits),而不是quanta、quarks或quantums。quanta是量子的复数形式,但不是量子计算中的基本单位...
Quantum computing uses the principles of quantum mechanics to perform calculations. What is one of the key features of quantum mechanics that makes quantum computing possible? A. Superposition B. Relativity C. Gravity D. Electricity 相关知识点: ...
- 《Applied Soft Computing》 被引量: 0发表: 2024年 Mathematical Modelling of Quantum Kernel Method for Biomedical Data Analysis This study presents a novel method to detect the medical application based on Quantum Computing (QC) and a few Machine Learning (ML)systems. QC has a prima... M ...
相关知识点: 试题来源: 解析 A。本题考查对“quantum mechanics(量子力学)”含义的理解。A 选项“对小颗粒的研究”符合量子力学是研究微观粒子的学科的定义。B 选项是对大物体的研究,C 选项是对动物的研究,D 选项是对植物的研究,均与量子力学无关。反馈 收藏 ...
anisotropy and low dimensionality could give rise to exotic spin degrees of freedom, such as spin textures that can be used in the development of quantum computing architectures. 2D magnets also span the full range of electronic properties and can be used in high-performance and energy-efficient ...
Fig. 1 | Accelerated discovery at a glance.IBM is developing a computing environment for the healthcare and life sciences that integrates the possibilities of next-generation technologies—artificial intelligence, the hybrid cloud, and quantum computing—to accelerate the rate of discovery along the dr...
Researchers are integrating AI with quantum computing to develop robust cryptographic solutions that resist decryption attempts. Moreover, Explainable AI (XAI) is making cybersecurity solutions more transparent, enabling better decision-making. These improvements, coupled with collaborative efforts between ...
To find a way through, the team turned to the emerging field of quantum-inspired computing. They made use of the Digital Annealer, a tool that was created as the result of a long-standing collaboration between U of T Engineering and Fujitsu Resea...