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量子计算市场 - 2024 年至 2029 年预测Quantum Computing Market - Forecasts from 2024 to 2029 |
量子理论在电脑科学中的应用被称为量子计算。这与使用电子和光子等基本粒子的想法有关。所有这些都属于量子计算。有了这些量子位元(qubit),粒子可以同时在两种状态下变化。传统电脑使用二进位电讯号系统来表示位元(1 和 0)资讯。与量子计算相比,这限制了可以处理的资讯量。
此外,量子运算可以将潜在的解决方案与挑战分开,将一切减少到可管理的功率。此外,它们在各个行业中发挥着重要作用,从安全到银行、军事情报、药物发现、飞机设计、公共事业(核融合)、聚合物设计和机器学习过程。这些技术可用于增强加密讯息传输并提高飞弹/飞机的雷达辨识能力。
此外,由于各种可变因素,例如政府透过提供补贴以及与私人组织和公司的合作来投资量子技术,量子运算市场在预测期内可能会扩大。用于大规模优化的先进量子技术也在多个领域不断涌现,以更快地提高量子演算法效能。但稳定性和维护方面有问题,可能会影响市场拓展。
量子电脑扩展了计算控制,使得处理大规模优化和药物发现等复杂问题成为可能。量子电脑的计算速度比经典计算快得多,这为各个领域带来了显着的好处。量子设备的进步,例如量子位元质量和相干时间的改进,使得计算更加可靠。研究人员正在研究通用量子设计,以扩展量子位元并改进计算控制。量子电脑有潜力透过更快地处理复杂计算来彻底改变各种业务。世界各地的多家公司正逐步致力于量子运算能力的发展。
例如,富士通在 2024 年 6 月报告称,已收到日本产业技术综合研究所 (AIST) 的订单,将于 2024 年 5 月 15 日订单一台门控超导性量子电脑。这家日本销售公司于 2021 年建立了 RIKEN RQC-富士伙伴关係关係,并一直在与 RIKEN 进行联合研究,以扩大超导性量子电脑的规模。最新的超导性量子电脑是利用 RIKEN RQC-富士通合作中心的创新技术创建的,预计将于 2025 年初由 AIST 的全球量子人工智慧技术业务研究与开发中心 (G-QuAT) 进行研究。
量子计算市场的地域展望
由于Google、英特尔和IBM公司等主要参与者的存在,北美在全球技术参与者中占有很大份额,这些参与者正在积极推动巨量资料平台的日益普及。该行业也受到该地区主要技术开拓中心的推动,这些中心正在扩大该地区的市场并吸引市场参与者的大规模投资,从而导致量子计算需求的增长。
此外,医疗、交通、金融、化学等IT产业正在蓬勃发展,加拿大、美国等国家的量子运算市场也不断成长。此外,量子计算的早期采用以及透过检测潜在候选药物在药物发现研究方法中的不断创新将加快这一进程并推动该地区的市场成长。
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The application of Quantum theory in computer science is known as quantum computing. It is related to the idea of using subatomic particles, such as electrons or photons. It all falls under quantum computing. Armed with these quantum bits, or qubits, the particles could vary in two states at once. Conventional computers use a binary operation of electric signals to represent information in terms of bits (1 and 0). This limits the amount of information that can be processed by them as compared to quantum computing.
Moreover, quantum computing can separate the potential solutions from the challenging problems, and reduce everything to a manageable power. Additionally, they have a major role in diverse industries from security to banking, military intelligence, drug discovery, aircraft designs, utilities (nuclear fusion), polymer design, and machine learning processes; merging artificial intelligence responding triggers big data search & digital manufacturing. They could be used to enhance encrypted information transfer or for better missile/airplane recognition by radars.
Moreover, the quantum computing market will experience expansion during the forecasted period due to various variables including the government investing in quantum technologies by providing subsidies as well as collaborating with private organizations and corporations. Additionally. The advanced quantum technologies used in large-scale optimization are also rising for multiple sectors for faster quantum algorithm performance results. However, the challenges in quantum computing stability and maintenance could lead to less acceptance and impact the market expansion.
Quantum computers provide expanded computational control, empowering them to handle complex issues like large-scale optimization and medicate discovery. They perform calculations exponentially quicker than classical calculations, giving substantial benefits in different areas. Progressions in quantum equipment, such as progressed qubit quality and coherence times, empower more dependable operations. Researchers are working on versatile quantum designs to extend qubits and improve computational control. Quantum computers have the potential to revolutionize different businesses by providing quicker handling speeds for complex calculations. Various global companies are progressively working towards these advancements in quantum computing power.
For instance, in June 2024 Fujitsu reported receiving an order for a gate-based superconducting quantum computer from the National Institute of Advanced Industrial Science and Technology (AIST) on May 15, 2024. The Japanese seller, which set up the RIKEN RQC-Fujitsu partnership in 2021, has been doing joint research with RIKEN to scale up superconducting quantum computers. The modern superconducting quantum computer created utilizing innovation from the RIKEN RQC-Fujitsu Collaboration Center, will be worked by AIST's Global Research and Development Center for Business by Quantum-AI technology (G-QuAT) at the start of 2025.
Geographic Outlook of Quantum Computing Market
North America has a significant share in the global technology players, globally this is attributable due to the existence of key players such as Google, Intel, and IBM Corporation which positively drive the growing adoption of big data platforms. Also, the industry is mostly led by some major technological development centers throughout this region which work in the regional market to grow and attract large investments by the market companies leading to growth in the quantum computing demand.
Additionally, the IT industry is booming in many sectors like medicine, transportation, finance, and chemicals are growing & countries like Canada and the United States are in the quantum computing market. Moreover, the early adoption of quantum computing as well as growing innovation in Quantum computing to utilize in the research process of drug discovery by detecting the potential drug candidates can quicker the process in the region, leading to the growth of the market.
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